@article {2024, title = {A Perspective on the Prospective Use of AI in Protein Structure Prediction}, journal = {J Chem Inf Model}, volume = {64}, year = {2024}, month = {Jan}, pages = {26{\textendash}41}, author = {Versini, R. and Sritharan, S. and Aykac Fas, B. and Tubiana, T. and Aimeur, S. Z. and Henri, J. and Erard, M. and N{\"u}sse, O. and Andreani, J. and Baaden, M. and Fuchs, P. and Galochkina, T. and Chatzigoulas, A. and Cournia, Z. and Santuz, H. and S Sacquin-Mora and Taly, A.} } @article {2023|2163, title = {Best Practices of Using AI-Based Models in Crystallography and Their Impact in Structural Biology}, journal = {J Chem Inf Model}, year = {2023}, month = {Jun}, author = {Graille, M and S Sacquin-Mora and Antoine Taly} } @article {2023, title = {Conformational and mechanical stability of the isolated large subunit of membrane-bound [NiFe]-hydrogenase from Cupriavidus necator}, journal = {Frontiers in Microbiology}, volume = {13}, year = {2023}, abstract = {

Comprising at least a bipartite architecture, the large subunit of [NiFe]-hydrogenase harbors the catalytic nickel\–iron site while the small subunit houses an array of electron-transferring Fe-S clusters. Recently, some [NiFe]-hydrogenase large subunits have been isolated showing an intact and redox active catalytic cofactor. In this computational study we have investigated one of these metalloproteins, namely the large subunit HoxG of the membrane-bound hydrogenase from Cupriavidus necator (CnMBH), targeting its conformational and mechanical stability using molecular modelling and long all-atom Gaussian accelerated molecular dynamics (GaMD). Our simulations predict that isolated HoxG is stable in aqueous solution and preserves a large portion of its mechanical properties, but loses rigidity in regions around the active site, in contrast to the MBH heterodimer. Inspired by biochemical data showing dimerization of the HoxG protein and IR measurements revealing an increased stability of the [NiFe] cofactor in protein preparations with higher dimer content, corresponding simulations of homodimeric forms were also undertaken. While the monomeric subunit contains several flexible regions, our data predicts a regained rigidity in homodimer models. Furthermore, we computed the electrostatic properties of models obtained by enhanced sampling with GaMD, which displays a significant amount of positive charge at the protein surface, especially in solvent-exposed former dimer interfaces. These data offer novel insights on the way the [NiFe] core is protected from de-assembly and provide hints for enzyme anchoring to surfaces, which is essential information for further investigations on these minimal enzymes.

}, issn = {1664-302X}, doi = {10.3389/fmicb.2022.1073315}, url = {https://www.frontiersin.org/articles/10.3389/fmicb.2022.1073315}, author = {Dragelj, Jovan and Karafoulidi-Retsou, Chara and Katz, Sagie and Lenz, Oliver and Zebger, Ingo and Caserta, Giorgio and S Sacquin-Mora and Mroginski, Maria Andrea} } @article {2023|2162, title = {Editorial: In Celebration of Women in Science: Biological Modeling and Simulation}, journal = {Front Mol Biosci}, volume = {10}, year = {2023}, pages = {1175325}, author = {Aykac Fas, B and S Sacquin-Mora and Papaleo, E} } @article {2023|2166, title = {It Takes Tau to Tango: Investigating the Fuzzy Interaction between the R2-Repeat Domain and Tubulin C-Terminal Tails}, journal = {Biochemistry}, volume = {62}, year = {2023}, month = {Aug}, pages = {2492{\textendash}2502}, author = {Marien, J and Prevost, C and S Sacquin-Mora} } @article {2023|2164, title = {Molecular determinants of inhibition of UCP1-mediated respiratory uncoupling.}, journal = {Nat Commun}, volume = {14}, year = {2023}, month = {2023 May 05}, pages = {2594}, abstract = {

Brown adipose tissue expresses uncoupling protein 1 (UCP1), which dissipates energy as heat, making it a target for treating metabolic disorders. Here, we investigate how purine nucleotides inhibit respiration uncoupling by UCP1. Our molecular simulations predict that GDP and GTP bind UCP1 in the common substrate binding site in an upright orientation, where the base moiety interacts with conserved residues R92 and E191. We identify a triplet of uncharged residues, F88/I187/W281, forming hydrophobic contacts with nucleotides. In yeast spheroplast respiration assays, both I187A and W281A mutants increase the fatty acid-induced uncoupling activity of UCP1 and partially suppress the inhibition of UCP1 activity by nucleotides. The F88A/I187A/W281A triple mutant is overactivated by fatty acids even at high concentrations of purine nucleotides. In simulations, E191 and W281 interact with purine but not pyrimidine bases. These results provide a molecular understanding of the selective inhibition of UCP1 by purine nucleotides.

}, keywords = {Adipose Tissue, Brown, Fatty Acids, Ion Channels, Membrane Proteins, Mitochondrial Proteins, Purine Nucleotides, Saccharomyces cerevisiae, Uncoupling Protein 1}, issn = {2041-1723}, doi = {10.1038/s41467-023-38219-9}, author = {Gagelin, Antoine and Largeau, Corentin and Masscheleyn, Sandrine and Piel, Mathilde S and Calder{\'o}n-Mora, Daniel and Bouillaud, Fr{\'e}d{\'e}ric and J{\'e}r{\^o}me H{\'e}nin and Miroux, Bruno} } @article {2023|2165, title = {Unwrapping NPT Simulations to Calculate Diffusion Coefficients}, journal = {Journal of Chemical Theory and Computation}, volume = {19}, year = {2023}, pages = {3406{\textendash}3417}, doi = {10.1021/acs.jctc.3c00308}, url = {https://doi.org/10.1021/acs.jctc.3c00308}, author = {Jakob T{\'o}mas Bullerjahn and S{\"o}ren von B{\"u}low and Maziar Heidari and J{\'e}r{\^o}me H{\'e}nin and Gerhard Hummer} } @article {2022, title = {Between Two Walls: Modeling the Adsorption Behavior of β-Glucosidase A on Bare and SAM-Functionalized Gold Surfaces.}, journal = {Langmuir}, volume = {38}, year = {2022}, month = {2022 Feb 01}, pages = {1313-1323}, abstract = {

The efficient immobilization of enzymes on surfaces remains a complex but central issue in the biomaterials field, which requires us to understand this process at the atomic level. Using a multiscale approach combining all-atom molecular dynamics and coarse-grain Brownian dynamics simulations, we investigated the adsorption behavior of β-glucosidase A (βGA) on bare and self-assembled monolayer (SAM)-functionalized gold surfaces. We monitored the enzyme position and orientation during the molecular dynamics (MD) trajectories and measured the contacts it forms with both surfaces. While the adsorption process has little impact on the protein conformation, it can nonetheless perturb its mechanical properties and catalytic activity. Our results show that compared to the SAM-functionalized surface, the adsorption of βGA on bare gold is more stable, but less specific, and more likely to disrupt the enzyme\&$\#$39;s function. This observation emphasizes the fact that the structural organization of proteins at the solid interface is a key point when designing devices based on enzyme immobilization, as one must find an acceptable stability-activity trade-off.

}, issn = {1520-5827}, doi = {10.1021/acs.langmuir.1c01774}, author = {Bourassin, Nicolas and Barbault, Florent and Marc Baaden and S Sacquin-Mora} } @article {2022|2156, title = {Building Biological Relevance Into Integrative Modelling of Macromolecular Assemblies}, journal = {Frontiers in Molecular Biosciences}, volume = {9}, year = {2022}, pages = {826136}, abstract = {

Recent advances in structural biophysics and integrative modelling methods now allow us to decipher the structures of large macromolecular assemblies. Understanding the dynamics and mechanisms involved in their biological function requires rigorous integration of all available data. We have developed a complete modelling pipeline that includes analyses to extract biologically significant information by consistently combining automated and interactive human-guided steps. We illustrate this idea with two examples. First, we describe the ryanodine receptor, an ion channel that controls ion flux across the cell membrane through transitions between open and closed states. The conformational changes associated with the transitions are small compared to the considerable system size of the receptor; it is challenging to consistently track these states with the available cryo-EM structures. The second example involves homologous recombination, in which long filaments of a recombinase protein and DNA catalyse the exchange of homologous DNA strands to reliably repair DNA double-strand breaks. The nucleoprotein filament reaction intermediates in this process are short-lived and heterogeneous, making their structures particularly elusive. The pipeline we describe, which incorporates experimental and theoretical knowledge combined with state-of-the-art interactive and immersive modelling tools, can help overcome these challenges. In both examples, we point to new insights into biological processes that arise from such interdisciplinary approaches.

}, issn = {2296-889X}, doi = {10.3389/fmolb.2022.826136}, url = {https://www.frontiersin.org/article/10.3389/fmolb.2022.826136}, author = {Molza, Anne-Elisabeth and Westermaier, Yvonne and Moutte, Magali and Ducrot, Pierre and Danilowicz, Claudia and Godoy-Carter, Veronica and Prentiss, Mara and Robert, Charles H. and Marc Baaden and Pr{\'e}vost, Chantal} } @article {2022|2157, title = {Consistent Picture of Phosphate{\textendash}Divalent Cation Binding from Models with Implicit and Explicit Electronic Polarization}, journal = {J. Phys. Chem. B}, volume = {126}, year = {2022}, month = {05/2022}, pages = {4022-4034}, doi = {10.1021/acs.jpcb.2c01158}, url = {https://pubs.acs.org/doi/full/10.1021/acs.jpcb.2c01158}, author = {Julie Puyo-Fourtine and Marie Juill{\'e} and J{\'e}r{\^o}me H{\'e}nin and Carine Clavagu{\'e}ra and Elise Dubou{\'e}-Dijon} } @article {2022|2159, title = {Design {\textendash} a new way to look at old molecules}, journal = {Journal of Integrative Bioinformatics}, volume = {19}, year = {2022}, pages = {20220020}, doi = {doi:10.1515/jib-2022-0020}, url = {https://doi.org/10.1515/jib-2022-0020}, author = {Davide Spalvieri and Anne-Marine Mauviel and Matthieu Lambert and Nicolas F{\'e}rey and S Sacquin-Mora and Matthieu Chavent and Marc Baaden} } @article {2022|2161, title = {Enhanced Sampling Methods for Molecular Dynamics Simulations [Article v1.0]}, journal = {Living Journal of Computational Molecular Science}, volume = {4}, year = {2022}, month = {Dec.}, pages = {1583}, abstract = {

Enhanced sampling algorithms have emerged as powerful methods to extend the utility of molecular dynamics simulations and allow the sampling of larger portions of the configuration space of complex systems in a given amount of simulation time. This review aims to present the unifying principles of and differences between many of the computational methods currently used for enhanced sampling in molecular simulations of biomolecules, soft matter and molecular crystals. In fact, despite the apparent abundance and divergence of such methods, the principles at their core can be boiled down to a relatively limited number of statistical and physical concepts. To enable comparisons, the various methods are introduced using similar terminology and notation. We then illustrate in which ways many different methods combine features of a relatively small number of the same enhanced sampling concepts. This review is intended for scientists with an understanding of the basics of molecular dynamics simulations and statistical physics who want a deeper understanding of the ideas that underlie various enhanced sampling methods and the relationships between them. This living review is intended to be updated to continue to reflect the wealth of sampling methods as they continue to emerge in the literature.

}, doi = {10.33011/livecoms.4.1.1583}, url = {https://livecomsjournal.org/index.php/livecoms/article/view/v4i1e1583}, author = {J{\'e}r{\^o}me H{\'e}nin and Leli{\`e}vre, Tony and Shirts, Michael R. and Valsson, Omar and Delemotte, Lucie} } @article {2022|2152, title = {Human Learning for Molecular Simulations: The Collective Variables Dashboard in VMD.}, journal = {J Chem Theory Comput}, volume = {18}, year = {2022}, month = {2022 Mar 08}, pages = {1945-1956}, abstract = {

The Collective Variables Dashboard is a software tool for real-time, seamless exploration of molecular structures and trajectories in a customizable space of collective variables. The Dashboard arises from the integration of the Collective Variables Module (also known as Colvars) with the visualization software VMD, augmented with a fully discoverable graphical interface offering interactive workflows for the design and analysis of collective variables. Typical use cases include a priori design of collective variables for enhanced sampling and free energy simulations as well as analysis of any type of simulation or collection of structures in a collective variable space. A combination of those cases commonly occurs when preliminary simulations, biased or unbiased, reveal that an optimized set of collective variables is necessary to improve sampling in further simulations. Then the Dashboard provides an efficient way to intuitively explore the space of likely collective variables, validate them on existing data, and use the resulting collective variable definitions directly in further biased simulations using the Collective Variables Module. Visualization of biasing energies and forces is proposed to help analyze or plan biased simulations. We illustrate the use of the Dashboard on two applications: discovering coordinates to describe ligand unbinding from a protein binding site and designing volume-based variables to bias the hydration of a transmembrane pore.

}, issn = {1549-9626}, doi = {10.1021/acs.jctc.1c01081}, author = {J{\'e}r{\^o}me H{\'e}nin and Lopes, Laura J S and Giacomo Fiorin} } @article {2022|2150, title = {Modeling the Dynamics of Protein-Protein Interfaces, How and Why?}, journal = {Molecules}, volume = {27}, year = {2022}, pages = {1841}, abstract = {

Protein-protein assemblies act as a key component in numerous cellular processes. Their accurate modeling at the atomic level remains a challenge for structural biology. To address this challenge, several docking and a handful of deep learning methodologies focus on modeling protein-protein interfaces. Although the outcome of these methods has been assessed using static reference structures, more and more data point to the fact that the interaction stability and specificity is encoded in the dynamics of these interfaces. Therefore, this dynamics information must be taken into account when modeling and assessing protein interactions at the atomistic scale. Expanding on this, our review initially focuses on the recent computational strategies aiming at investigating protein-protein interfaces in a dynamic fashion using enhanced sampling, multi-scale modeling, and experimental data integration. Then, we discuss how interface dynamics report on the function of protein assemblies in globular complexes, in fuzzy complexes containing intrinsically disordered proteins, as well as in active complexes, where chemical reactions take place across the protein-protein interface.

}, issn = {1420-3049}, doi = {10.3390/molecules27061841}, url = {https://www.mdpi.com/1420-3049/27/6/1841}, author = {Karaca, Ezgi and Pr{\'e}vost, Chantal and S Sacquin-Mora} } @article {2022|2153, title = {Multiscale Computational Study of the Conformation of the Full-Length Intrinsically Disordered Protein MeCP2.}, journal = {J Chem Inf Model}, volume = {62}, year = {2022}, month = {2022 02 28}, pages = {958-970}, abstract = {

The malfunction of the methyl-CpG binding protein 2 (MeCP2) is associated with the Rett syndrome, one of the most common causes of cognitive impairment in females. MeCP2 is an intrinsically disordered protein (IDP), making its experimental characterization a challenge. There is currently no structure available for the full-length MeCP2 in any of the databases, and only the structure of its MBD domain has been solved. We used this structure to build a full-length model of MeCP2 by completing the rest of the protein via ab initio modeling. Using a combination of all-atom and coarse-grained simulations, we characterized its structure and dynamics as well as the conformational space sampled by the ID and transcriptional repression domain (TRD) domains in the absence of the rest of the protein. The present work is the first computational study of the full-length protein. Two main conformations were sampled in the coarse-grained simulations: a globular structure similar to the one observed in the all-atom force field and a two-globule conformation. Our all-atom model is in good agreement with the available experimental data, predicting amino acid W104 to be buried, amino acids R111 and R133 to be solvent-accessible, and having a 4.1\% α-helix content, compared to the 4\% found experimentally. Finally, we compared the model predicted by AlphaFold to our Modeller model. The model was not stable in water and underwent further folding. Together, these simulations provide a detailed (if perhaps incomplete) conformational ensemble of the full-length MeCP2, which is compatible with experimental data and can be the basis of further studies, e.g., on mutants of the protein or its interactions with its biological partners.

}, issn = {1549-960X}, doi = {10.1021/acs.jcim.1c01354}, author = {Ch{\'a}vez-Garc{\'\i}a, Cecilia and J{\'e}r{\^o}me H{\'e}nin and Karttunen, Mikko} } @article {2022|2160, title = {Open-channel structure of a pentameric ligand-gated ion channel reveals a mechanism of leaflet-specific phospholipid modulation}, journal = {Nature Communications}, volume = {13}, year = {2022}, doi = {10.1038/s41467-022-34813-5}, url = {https://doi.org/10.1038/s41467-022-34813-5}, author = {John T. Petroff and Noah M. Dietzen and Ezry Santiago-McRae and Brett Deng and Maya S. Washington and Lawrence J. Chen and K. Trent Moreland and Zengqin Deng and Michael Rau and James A. J. Fitzpatrick and Peng Yuan and Thomas T. Joseph and J{\'e}r{\^o}me H{\'e}nin and Grace Brannigan and Wayland W. L. Cheng} } @article {2022|2151, title = {Symmetry-Adapted Restraints for Binding Free Energy Calculations.}, journal = {J Chem Theory Comput}, year = {2022}, month = {2022 Mar 01}, abstract = {

Binding free energy calculations rely critically on a precise definition of the bound state and well-designed ligand restraints to ensure that binding free energy calculations converge rapidly and yield estimates of well-defined thermodynamic quantities. The distance-to-bound-configuration (DBC) is a single variable that can precisely delineate the bound state of a ligand including translational, rotational and conformational degrees of freedom and has been successfully used to capture binding modes with complex geometries. DBC is defined as the root-mean-square deviation (RMSD) of ligand coordinates in the frame of reference of the binding site. In the special case where the ligand features symmetry-equivalent atoms, a standard RMSD arbitrarily distinguishes equivalent poses, mixing equivalent and nonequivalent degrees of freedom, and preventing the precise delineation of the bound state ensemble, which negates the benefits of defining a flat-bottom binding restraint. To remedy this, we introduce a symmetry-adapted DBC coordinate where the RMSD is minimized over permutations of equivalent ligand atoms. This coordinate is implemented in a portable software library, the Collective Variables Module. We tested the approach by computing the absolute binding free energy of benzene to the engineered site of a mutant lysozyme (L99A/M102H) using alchemical free energy perturbation. We found that the symmetry-adapted restraint leads to well-behaved convergence of both the decoupling free energy in the binding site and the restrained free energy in the gas phase, recovering the affinity computed using a classic center-of-mass restraint. Thus, symmetry-adapted DBC seamlessly generalizes the benefits of DBC restraints to the case of symmetric ligands. The underlying symmetric RMSD coordinate can also be used for analyzing or biasing simulations in other contexts than affinity predictions.

}, issn = {1549-9626}, doi = {10.1021/acs.jctc.1c01235}, author = {Ebrahimi, Mina and J{\'e}r{\^o}me H{\'e}nin} } @article {2022|2158, title = {Tripeptide loop closure: A detailed study of reconstructions based on Ramachandran distributions}, journal = {Proteins: Structure, Function, and Bioinformatics}, volume = {90}, year = {2022}, pages = {858-868}, abstract = {

Abstract Tripeptide loop closure (TLC) is a standard procedure to reconstruct protein backbone conformations, by solving a zero-dimensional polynomial system yielding up to 16 solutions. In this work, we first show that multiprecision is required in a TLC solver to guarantee the existence and the accuracy of solutions. We then compare solutions yielded by the TLC solver against tripeptides from the Protein Data Bank. We show that these solutions are geometrically diverse (up to Root mean square deviation with respect to the data) and sound in terms of potential energy. Finally, we compare Ramachandran distributions of data and reconstructions for the three amino acids. The distribution of reconstructions in the second angular space stands out, with a rather uniform distribution leaving a central void. We anticipate that these insights, coupled to our robust implementation in the Structural Bioinformatics Library ( https://sbl.inria.fr/doc/Tripeptide_loop_closure-user-manual.html), will help understanding the properties of TLC reconstructions, with potential applications to the generation of conformations of flexible loops in particular.

}, keywords = {protein loop conformations, Ramachandran diagrams, robust numerics, tripeptide loop closure, tripeptides}, doi = {https://doi.org/10.1002/prot.26281}, url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/prot.26281}, author = {O{\textquoteright}Donnell, Timoth{\'e}e and Robert, Charles H. and Cazals, Fr{\'e}d{\'e}ric} } @article {2021|2148, title = {Building intuition for binding free energy calculations: Bound state definition, restraints, and symmetry}, journal = {The Journal of Chemical Physics}, volume = {154}, year = {2021}, pages = {204101}, doi = {10.1063/5.0046853}, url = {https://doi.org/10.1063/5.0046853}, author = {Elise Dubou{\'e}-Dijon and J{\'e}r{\^o}me H{\'e}nin} } @article {2021|2149, title = {Fast and Accurate Multidimensional Free Energy Integration.}, journal = {J Chem Theory Comput}, volume = {17}, year = {2021}, month = {2021 Nov 09}, pages = {6789-6798}, abstract = {

Enhanced sampling and free energy calculation algorithms of the thermodynamic integration family (such as the adaptive biasing force (ABF) method) are not based on the direct computation of a free energy surface but rather of its gradient. Integrating the free energy surface is nontrivial in dimensions higher than one. Here, the author introduces a flexible, portable implementation of a Poisson equation formalism to integrate free energy surfaces from estimated gradients in dimensions 2 and 3 using any combination of periodic and nonperiodic (Neumann) boundary conditions. The algorithm is implemented in portable C++ and provided as a standalone tool that can be used to integrate multidimensional gradient fields estimated on a grid using any algorithm, such as umbrella integration as a post-treatment of umbrella sampling simulations. It is also included in the implementation of ABF (and its extended-system variant eABF) in the Collective Variables Module, enabling the seamless computation of multidimensional free energy surfaces within ABF and eABF simulations. A Python-based analysis toolchain is provided to easily plot and analyze multidimensional ABF simulation results, including metrics to assess their convergence. The Poisson integration algorithm can also be used to perform Helmholtz decomposition of noisy gradient estimates on the fly, resulting in an efficient implementation of the projected ABF (pABF) method proposed by Leli{\'e}vre and co-workers. In numerical tests, pABF is found to lead to faster convergence with respect to ABF in simple cases of low intrinsic dimension but seems detrimental to convergence in a more realistic case involving degenerate coordinates and hidden barriers due to slower exploration. This suggests that variance reduction schemes do not always yield convergence improvements when applied to enhanced sampling methods.

}, issn = {1549-9626}, doi = {10.1021/acs.jctc.1c00593}, author = {J{\'e}r{\^o}me H{\'e}nin} } @article {2021|2154, title = {Influences of ssDNA-RecA Filament Length on the Fidelity of Homologous Recombination}, journal = {Journal of Molecular Biology}, volume = {433}, year = {2021}, pages = {167143}, abstract = {

Chromosomal double-strand breaks can be accurately repaired by homologous recombination, but genomic rearrangement can result if the repair joins different copies of a repeated sequence. Rearrangement can be advantageous or fatal. During repair, a broken double-stranded DNA (dsDNA) is digested by the RecBCD complex from the 5 {\"A} end, leaving a sequence gap that separates two 3{\"A} single-stranded DNA (ssDNA) tails. RecA binds to the 3 {\"A} tails forming helical nucleoprotein filaments.A three-strand intermediate is formed when a RecA-bound ssDNA with L nucleotides invades a homologous region of dsDNA and forms a heteroduplex product with a length \≤ L bp. The homology dependent stability of the heteroduplex determines how rapidly and accurately homologous recombination repairs double-strand breaks. If the heteroduplex is sufficiently sequence matched, repair progresses to irreversible DNA synthesis. Otherwise, the heteroduplex should rapidly reverse. In this work, we present in vitro measurements of the L dependent stability of heteroduplex products formed by filaments with 90 \≤ L \≤ 420 nt, which is within the range observed in vivo. We find that without ATP hydrolysis, products are irreversible when L \> 50 nt. In contrast, with ATP hydrolysis when L \< 160 nt, products reverse in \< 30 seconds; however, with ATP hydrolysis when L \>= 320 nt, some products reverse in \< 30 seconds, while others last thousands of seconds. We consider why these two different filament length regimes show such distinct behaviors. We propose that the experimental results combined with theoretical insights suggest that filaments with 250 \≤ L \≤ 8500 nt optimize DSB repair.

}, keywords = {biased random walk, D-loop turnover, Double-strand break repair, genomic rearrangement, multiple reversible intermediates}, issn = {0022-2836}, doi = {https://doi.org/10.1016/j.jmb.2021.167143}, url = {https://www.sciencedirect.com/science/article/pii/S0022283621003727}, author = {Claudia Danilowicz and Evan Vietorisz and Veronica Godoy-Carter and Chantal Pr{\'e}vost and Mara Prentiss} } @article {2021|2147, title = {Mechanistic Insights on Heme-to-Heme Transmembrane Electron Transfer Within NADPH Oxydases From Atomistic Simulations.}, journal = {Front Chem}, volume = {9}, year = {2021}, month = {2021}, pages = {650651}, abstract = {

NOX5 is a member of the NADPH oxidase family which is dedicated to the production of reactive oxygen species. The molecular mechanisms governing transmembrane electron transfer (ET) that permits to shuttle electrons over the biological membrane have remained elusive for a long time. Using computer simulations, we report conformational dynamics of NOX5 embedded within a realistic membrane environment. We assess the stability of the protein within the membrane and monitor the existence of cavities that could accommodate dioxygen molecules. We investigate the heme-to-heme electron transfer. We find a reaction free energy of a few tenths of eV (ca. -0.3 eV) and a reorganization free energy of around 1.1 eV (0.8 eV after including electrostatic induction corrections). The former indicates thermodynamically favorable ET, while the latter falls in the expected values for transmembrane inter-heme ET. We estimate the electronic coupling to fall in the range of the μeV. We identify electron tunneling pathways showing that not only the W378 residue is playing a central role, but also F348. Finally, we reveal the existence of two connected Obinding pockets near the outer heme with fast exchange between the two sites on the nanosecond timescale. We show that when the terminal heme is reduced, O binds closer to it, affording a more efficient tunneling pathway than when the terminal heme is oxidized, thereby providing an efficient mechanism to catalyze superoxide production in the final step. Overall, our study reveals some key molecular mechanisms permitting reactive oxygen species production by NOX5 and paves the road for further investigation of ET processes in the wide family of NADPH oxidases by computer simulations.

}, issn = {2296-2646}, doi = {10.3389/fchem.2021.650651}, author = {Wu, Xiaojing and J{\'e}r{\^o}me H{\'e}nin and Baciou, Laura and Marc Baaden and Cailliez, Fabien and de la Lande, Aur{\'e}lien} } @article {2021|2155, title = {Modeling Perturbations in Protein Filaments at the Micro and Meso Scale Using NAMD and PTools/Heligeom}, journal = {Bio-protocol}, volume = {11}, year = {2021}, pages = {e4097}, abstract = {

Protein filaments are dynamic entities that respond to external stimuli by slightly or substantially modifying the internal binding geometries between successive protomers. This results in overall changes in the filament architecture, which are difficult to model due to the helical character of the system. Here, we describe how distortions in RecA nucleofilaments and their consequences on the filament-DNA and bound DNA-DNA interactions at different stages of the homologous recombination process can be modeled using the PTools/Heligeom software and subsequent molecular dynamics simulation with NAMD. Modeling methods dealing with helical macromolecular objects typically rely on symmetric assemblies and take advantage of known symmetry descriptors. Other methods dealing with single objects, such as MMTK or VMD, do not integrate the specificities of regular assemblies. By basing the model building on binding geometries at the protomer-protomer level, PTools/Heligeom frees the building process from a priori knowledge of the system topology and enables irregular architectures and symmetry disruption to be accounted for. doi: 10.21769/BioProtoc.4097

}, doi = {10.21769/BioProtoc.4097}, url = {www.bioprotocol.org/e4097}, author = {Boyer, B. and Laurent, B. and Robert, C. H. and Prevost, C.} } @article {2021, title = {Moving pictures: Reassessing docking experiments with a dynamic view of protein interfaces.}, journal = {Proteins}, year = {2021}, month = {2021 May 26}, abstract = {

The modeling of protein assemblies at the atomic level remains a central issue in structural biology, as protein interactions play a key role in numerous cellular processes. This problem is traditionally addressed using docking tools, where the quality of the models is based on their similarity to a single reference experimental structure. However, using a static reference does not take into account the dynamic quality of the protein interface. Here, we used all-atom classical Molecular Dynamics simulations to investigate the stability of the reference interface for three complexes that previously served as targets in the CAPRI competition. For each one of these targets, we also ran MD simulations for ten models that are distributed over the High, Medium and Acceptable accuracy categories. To assess the quality of these models from a dynamic perspective, we set up new criteria which take into account the stability of the reference experimental protein interface. We show that, when the protein interfaces are allowed to evolve along time, the original ranking based on the static CAPRI criteria no longer holds as over 50\% of the docking models undergo a category change (which can be either toward a better or a lower accuracy group) when reassessing their quality using dynamic information.

}, issn = {1097-0134}, doi = {10.1002/prot.26152}, author = {Chantal Pr{\'e}vost and S Sacquin-Mora} } @article {2021|2146, title = {When Order Meets Disorder: Modeling and Function of the Protein Interface in Fuzzy Complexes}, journal = {Biomolecules}, volume = {11}, year = {2021}, pages = {1529}, abstract = {

The degree of proteins structural organization ranges from highly structured, compact folding to intrinsic disorder, where each degree of self-organization corresponds to specific functions: well-organized structural motifs in enzymes offer a proper environment for precisely positioned functional groups to participate in catalytic reactions; at the other end of the self-organization spectrum, intrinsically disordered proteins act as binding hubs via the formation of multiple, transient and often non-specific interactions. This review focusses on cases where structurally organized proteins or domains associate with highly disordered protein chains, leading to the formation of interfaces with varying degrees of fuzziness. We present a review of the computational methods developed to provide us with information on such fuzzy interfaces, and how they integrate experimental information. The discussion focusses on two specific cases, microtubules and homologous recombination nucleoprotein filaments, where a network of intrinsically disordered tails exerts regulatory function in recruiting partner macromolecules, proteins or DNA and tuning the atomic level association. Notably, we show how computational approaches such as molecular dynamics simulations can bring new knowledge to help bridging the gap between experimental analysis, that mostly concerns ensemble properties, and the behavior of individual disordered protein chains that contribute to regulation functions.

}, issn = {2218-273X}, doi = {10.3390/biom11101529}, url = {https://www.mdpi.com/2218-273X/11/10/1529}, author = {S Sacquin-Mora and Chantal Pr{\'e}vost} } @article {2020|2117, title = {Aggregation of disease-related peptides.}, journal = {Prog Mol Biol Transl Sci}, volume = {170}, year = {2020}, month = {2020}, pages = {435-460}, abstract = {

Protein misfolding and aggregation of amyloid proteins is the fundamental cause of more than 20 diseases. Molecular mechanisms of the self-assembly and the formation of the toxic aggregates are still elusive. Computer simulations have been intensively used to study the aggregation of amyloid peptides of various amino acid lengths related to neurodegenerative diseases. We review atomistic and coarse-grained simulations of short amyloid peptides aimed at determining their transient oligomeric structures and the early and late aggregation steps.

}, issn = {1878-0814}, doi = {10.1016/bs.pmbts.2019.12.002}, author = {Phuong Hoang Nguyen and Sterpone, Fabio and Philippe Derreumaux} } @article {2020|2145, title = {Binding of divalent cations to acetate: molecular simulations guided by Raman spectroscopy}, journal = {Phys. Chem. Chem. Phys.}, volume = {22}, year = {2020}, pages = {24014-24027}, chapter = {24014}, abstract = {

In spite of the biological importance of the binding of Zn2+, Ca2+, and Mg2+ to the carboxylate group, cation\–acetate binding affinities and binding modes remain actively debated. Here, we report the first use of Raman multivariate curve resolution (Raman-MCR) vibrational spectroscopy to obtain self-consistent free and bound metal acetate spectra and one-to-one binding constants, without the need to invoke any a priori assumptions regarding the shapes of the corresponding vibrational bands. The experimental results, combined with classical molecular dynamics simulations with a force field effectively accounting for electronic polarization via charge scaling and ab initio simulations, indicate that the measured binding constants pertain to direct (as opposed to water separated) ion pairing. The resulting binding constants do not scale with cation size, as the binding constant to Zn2+ is significantly larger than that to either Mg2+ or Ca2+, although Zn2+ and Mg2+ have similar radii that are about 25\% smaller than Ca2+. Remaining uncertainties in the metal acetate binding free energies are linked to fundamental ambiguities associated with identifying the range of structures pertaining to non-covalently bound species.

}, doi = {10.1039/D0CP02987D}, url = {https://pubs.rsc.org/en/content/articlelanding/2020/cp/d0cp02987d$\#$!divAbstract}, author = {Mendes de Oliveira, Denilson and Samual R. Zukowski and Vladimir Palivec and J{\'e}r{\^o}me H{\'e}nin and Hector Martinez-Seara and Dor Ben-Amotz and Pavel Jungwirth and Elise Dubou{\'e}-Dijon} } @article {2020|2075, title = {Characterization of β-turns by electronic circular dichroism spectroscopy: a coupled molecular dynamics and time-dependent density functional theory computational study.}, journal = {Phys Chem Chem Phys}, volume = {22}, year = {2020}, month = {2020 Jan 21}, pages = {1611-1623}, abstract = {

Electronic circular dichroism is one of the most used spectroscopic techniques for peptide and protein structural characterization. However, while valuable experimental spectra exist for α-helix, β-sheet and random coil secondary structures, previous studies showed important discrepancies for β-turns, limiting their use as a reference for structural studies. In this paper, we simulated circular dichroism spectra for the best-characterized β-turns in peptides, namely types I, II, I\&$\#$39; and II\&$\#$39;. In particular, by combining classical molecular dynamics simulations and state-of-the-art quantum time-dependent density functional theory (with the polarizable embedding multiscale model) computations, two common electronic circular dichroism patterns were found for couples of β-turn types (namely, type I/type II\&$\#$39; and type II/type I\&$\#$39;), at first for a minimal di-peptide model (Ace-Ala-Ala-NHMe), but also for all sequences tested with non-aromatic residues in the central positions. On the other hand, as expected, aromatic substitution causes important perturbations to the previously found ECD patterns. Finally, by applying suitable approximations, these patterns were subsequently rationalized based on the exciton chirality rule. All these results provide useful predictions and pave the way for a possible experimental characterization of β-turns based on circular dichroism spectroscopy.

}, keywords = {Circular Dichroism, Computational Chemistry, Computer Simulation, Molecular Dynamics Simulation, Protein Conformation, beta-Strand, Protein Structure, Tertiary}, issn = {1463-9084}, doi = {10.1039/c9cp05776e}, author = {Migliore, Mattia and Bonvicini, Andrea and Tognetti, Vincent and Guilhaudis, Laure and Marc Baaden and Oulyadi, Hassan and Joubert, Laurent and S{\'e}galas-Milazzo, Isabelle} } @conference {2020|2100, title = {Computer Simulations Provide Guidance for Molecular Medicine Through Insights on Dynamics and Mechanisms at the Atomic Scale}, booktitle = {7th International Conference on the Development of Biomedical Engineering in Vietnam (BME7)}, year = {2020}, publisher = {Springer}, organization = {Springer}, address = {Singapore}, abstract = {

Computer simulations provide crucial insights and rationales for the design of molecular approaches in medicine. Several case studies illustrate how molecular model building and molecular dynamics simulations of complex molecular assemblies such as membrane proteins help in that process. Important aspects relate to build relevant molecular models with and without a crystal structure, to model membrane aggregates, then to link (dynamic) models to function, and finally to understand key disease-triggering phenomena such as aggregation. Through selected examples\—including key signaling pathways in neurotransmission\—the links between a molecular-level understanding of biological mechanisms and original approaches to treat disease conditions will be illuminated. Such treatments may be symptomatic, e.g. by better understanding the function and pharmacology of macromolecular key players, or curative, e.g. through molecular inhibition of disease-inducing molecular processes.

}, keywords = {Model building, molecular dynamics, Molecular mechanisms of disease}, isbn = {9789811358593}, doi = {10.1007/978-981-13-5859-3_47}, author = {Marc Baaden}, editor = {Van Toi, Vo and Le, Trung Quoc and Ngo, Hoan Thanh and Nguyen, Thi-Hiep} } @article {2020|2130, title = {Direct Homologous dsDNA-dsDNA Pairing: How, Where, and Why?}, journal = {J Mol Biol}, volume = {432}, year = {2020}, month = {2020 Feb 07}, pages = {737-744}, abstract = {

The ability of homologous chromosomes (or selected chromosomal loci) to pair specifically in the apparent absence of DNA breakage and recombination represents a prominent feature of eukaryotic biology. The mechanism of homology recognition at the basis of such recombination-independent pairing has remained elusive. A number of studies have supported the idea that sequence homology can be sensed between intact DNA double helices in vivo. In particular, recent analyses of the two silencing phenomena in fungi, known as \"repeat-induced point mutation\" (RIP) and \"meiotic silencing by unpaired DNA\" (MSUD), have provided genetic evidence for the existence of the direct homologous dsDNA-dsDNA pairing. Both RIP and MSUD likely rely on the same search strategy, by which dsDNA segments are matched as arrays of interspersed base-pair triplets. This process is general and very efficient, yet it proceeds normally without the RecA/Rad51/Dmc1 proteins. Further studies of RIP and MSUD may yield surprising insights into the function of DNA in the cell.

}, issn = {1089-8638}, doi = {10.1016/j.jmb.2019.11.005}, author = {Mazur, Alexey K and Nguyen, Tinh-Suong and Gladyshev, Eugene} } @article {2020|2126, title = {Impact of A2T and D23N Mutations on Tetrameric Aβ42 Barrel within a Dipalmitoylphosphatidylcholine Lipid Bilayer Membrane by Replica Exchange Molecular Dynamics.}, journal = {J Phys Chem B}, volume = {124}, year = {2020}, month = {2020 Feb 20}, pages = {1175-1182}, abstract = {

In Alzheimer\&$\#$39;s disease (AD), many experimental and computational studies support the amyloid pore hypothesis of the Aβ42 peptide. We recently designed a β-barrel tetramer in a membrane-mimicking environment consistent with some low-resolution experimental data. In this earlier study, by using extensive replica exchange molecular dynamics simulations, we found that the wild-type (WT) Aβ42 peptides have a high propensity to form β-barrels, while the WT Aβ40 peptides do not. In this work, we have investigated the effect of mutations D23N and A2T on the Aβ42 barrel tetramer by using the same enhanced conformational sampling technique. It is known that the D23N mutation leads to early onset AD, while the A2T mutation protects from AD. This computational study in a dipalmitoylphosphatidylcholine (DPPC) lipid bilayer membrane shows that the WT sequence and its A2T variant have similar β-barrel populations and the three-dimensional model is slightly destabilized for D23N compared to its WT sequence. These extensive modeling calculations indicate that the lower and higher induced toxicity of these two mutations in AD cannot be correlated to their β-barrel tetramer stabilities in a DPPC lipid bilayer membrane.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.9b11881}, author = {Ngo, Son Tung and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2020|2125, title = {Impact of the Astaxanthin, Betanin, and EGCG Compounds on Small Oligomers of Amyloid Aβ Peptide.}, journal = {J Chem Inf Model}, volume = {60}, year = {2020}, month = {2020 Mar 23}, pages = {1399-1408}, abstract = {

There is experimental evidence that the astaxanthin, betanin, and epigallocatechin-3-gallate (EGCG) compounds slow down the aggregation kinetics and the toxicity of the amyloid-β (Aβ) peptide. How these inhibitors affect the self-assembly at the atomic level remains elusive. To address this issue, we have performed for each ligand atomistic replica exchange molecular dynamic (REMD) simulations in an explicit solvent of the Aβ trimer from the U-shape conformation and MD simulations starting from Aβ dimer and tetramer structures characterized by different intra- and interpeptide conformations. We find that the three ligands have similar binding free energies on small Aβ oligomers but very distinct transient binding sites that will affect the aggregation of larger assemblies and fibril elongation of the Aβ peptide.

}, issn = {1549-960X}, doi = {10.1021/acs.jcim.9b01074}, author = {Minh Hung, Huynh and Nguyen, Minh Tho and Tran, Phuong-Thao and Truong, Vi Khanh and Chapman, James and Quynh Anh, Le Huu and Philippe Derreumaux and Vu, Van V and Ngo, Son Tung} } @article {2020|2144, title = {Implicit Modeling of the Impact of Adsorption on Solid Surfaces for Protein Mechanics and Activity with a Coarse-Grained Representation}, journal = {J Phys Chem B}, volume = {124}, year = {2020}, month = {Oct}, pages = {8516{\textendash}8523}, author = {Bourassin, N. and Marc Baaden and Lojou, E. and S Sacquin-Mora} } @article {2020|2143, title = {A practical guide to biologically relevant molecular simulations with charge scaling for electronic polarization.}, journal = {J Chem Phys}, volume = {153}, year = {2020}, month = {2020 Aug 07}, pages = {050901}, abstract = {

Molecular simulations can elucidate atomistic-level mechanisms of key biological processes, which are often hardly accessible to experiment. However, the results of the simulations can only be as trustworthy as the underlying simulation model. In many of these processes, interactions between charged moieties play a critical role. Current empirical force fields tend to overestimate such interactions, often in a dramatic way, when polyvalent ions are involved. The source of this shortcoming is the missing electronic polarization in these models. Given the importance of such biomolecular systems, there is great interest in fixing this deficiency in a computationally inexpensive way without employing explicitly polarizable force fields. Here, we review the electronic continuum correction approach, which accounts for electronic polarization in a mean-field way, focusing on its charge scaling variant. We show that by pragmatically scaling only the charged molecular groups, we qualitatively improve the charge-charge interactions without extra computational costs and benefit from decades of force field development on biomolecular force fields.

}, issn = {1089-7690}, doi = {10.1063/5.0017775}, author = {Dubou{\'e}-Dijon, E and Javanainen, M and Delcroix, P and Jungwirth, P and Martinez-Seara, H} } @article {2020, title = {Protein Interaction Energy Landscapes are Shaped by Functional and also Non-functional Partners.}, journal = {J Mol Biol}, volume = {432}, year = {2020}, month = {2020 Feb 14}, pages = {1183-1198}, abstract = {

In the crowded cell, a strong selective pressure operates on the proteome to limit the competition between functional and non-functional protein-protein interactions. We developed an original theoretical framework in order to interrogate how this competition constrains the behavior of proteins with respect to their partners or random encounters. Our theoretical framework relies on a two-dimensional (2D) representation of interaction energy landscapes, with 2D energy maps, which reflect in a synthetic way the spatial distribution of the interaction propensity of a protein surface for another protein. We realized the interaction propensity mapping of proteins\&$\#$39; surfaces in interaction with functional and arbitrary partners and asked whether the distribution of their interaction propensity is conserved during evolution. Therefore, we performed several thousands of cross-docking simulations to systematically characterize the energy landscapes of 103 proteins interacting with different sets of homologs, corresponding to their functional partner\&$\#$39;s family or arbitrary protein families. Then, we systematically compared the energy maps resulting from the docking of each protein with the different protein families of the dataset. Strikingly, we show that the interaction propensity not only of the binding sites but also of the rest of the surface is conserved for docking partners belonging to the same protein family. Interestingly, this observation holds for docked proteins corresponding to true but also arbitrary partners. Our theoretical framework enables the characterization of the energy behavior of a protein in interaction with hundreds of proteins and opens the way for the characterization of the behavior of proteins in a specific environment.

}, issn = {1089-8638}, doi = {10.1016/j.jmb.2019.12.047}, author = {Schweke, Hugo and Mucchielli, Marie-H{\'e}l{\`e}ne and S Sacquin-Mora and Bei, Wanying and Lopes, Anne} } @inbook {2020|2123, title = {Protein thermal stability}, booktitle = {Computational Approaches for Understanding Dynamical Systems: Protein Folding and Assembly}, year = {2020}, author = {S. Timr and D. Madern and F. Sterpone} } @article {2020|2142, title = {Scalable molecular dynamics on CPU and GPU architectures with NAMD}, journal = {The Journal of Chemical Physics}, volume = {153}, year = {2020}, chapter = {044130}, abstract = {

NAMD is a molecular dynamics program designed for high-performance simulations of very large biological objects on CPU- and GPU-based architectures. NAMD offers scalable performance on petascale parallel supercomputers consisting of hundreds of thousands of cores, as well as on inexpensive commodity clusters commonly found in academic environments. It is written in C++ and leans on Charm++ parallel objects for optimal performance on low-latency architectures. NAMD is a versatile, multipurpose code that gathers state-of-the-art algorithms to carry out simulations in apt thermodynamic ensembles, using the widely popular CHARMM, AMBER, OPLS, and GROMOS biomolecular force fields. Here, we review the main features of NAMD that allow both equilibrium and enhanced-sampling molecular dynamics simulations with numerical efficiency. We describe the underlying concepts utilized by NAMD and their implementation, most notably for handling long-range electrostatics; controlling the temperature, pressure, and pH; applying external potentials on tailored grids; leveraging massively parallel resources in multiple-copy simulations; and hybrid quantum-mechanical/molecular-mechanical descriptions. We detail the variety of options offered by NAMD for enhanced-sampling simulations aimed at determining free-energy differences of either alchemical or geometrical transformations and outline their applicability to specific problems. Last, we discuss the roadmap for the development of NAMD and our current efforts toward achieving optimal performance on GPU-based architectures, for pushing back the limitations that have prevented biologically realistic billion-atom objects to be fruitfully simulated, and for making large-scale simulations less expensive and easier to set up, run, and analyze. NAMD is distributed free of charge with its source code at www.ks.uiuc.edu.

}, keywords = {NAMD}, doi = {10.1063/5.0014475}, url = {https://aip.scitation.org/doi/10.1063/5.0014475}, author = {James Phillips and David Hardy and Julio Maia and John Stone and Joao Ribeiro and Rafael Bernardi and Ronak Buch and Giacomo Fiorin and J{\'e}r{\^o}me H{\'e}nin and Wei Jiang and Ryan McGreevy and Melo, Marcelo Cardoso dos Reis and Brian Radak and Robert Skeel and Abhishek Singharoy and Yi Wang and Benoit Roux and Aleksei Aksimentiev and Zan Luthey-Schulten and Laxmikant Kale and Klaus Schulten and Christophe Chipot and Emad Tajkhorshid} } @article {2020|2098, title = {Scruter les mol{\'e}cules en r{\'e}alit{\'e} virtuelle, pour quoi faire ?}, journal = {L{\textquoteright}Actualit{\'e} Chimique}, year = {2020}, pages = {23{\textendash}26}, abstract = {

Les repr{\'e}sentations des mol{\'e}cules ont pris une place importante dans la communication d\’id{\'e}es, la g{\'e}n{\'e}ration d\’hypoth{\`e}ses sur les m{\'e}canismes biologiques et l\’analyse de simulations mol{\'e}culaires. Pourtant, les dispositifs pour les observer et les manipuler restent souvent cantonn{\'e}s aux deux dimensions des {\'e}crans et {\`a} l\’interaction limit{\'e}e d\’une souris et d\’un clavier. D\’autres solutions plus performantes et {\`a} port{\'e}e de tous existent, notamment avec les derni{\`e}res {\'e}volutions de la r{\'e}alit{\'e} virtuelle pour le grand public. Des adaptations sont n{\'e}anmoins n{\'e}cessaires pour b{\'e}n{\'e}ficier pleinement des avantages li{\'e}s {\`a} l\’utilisation de la r{\'e}alit{\'e} virtuelle pour la visualisation scientifique. Cet article pr{\'e}sente quelques exemples r{\'e}alis{\'e}s avec le logiciel UnityMol. En plus des applications directes dans l\’enseignement, le changement de paradigme d\’interaction et la perception accrue de la profondeur et des formes des mol{\'e}cules biologiques facilitent d{\`e}s {\`a} pr{\'e}sent la compr{\'e}hension de ces syst{\`e}mes complexes et am{\`e}neront certainement {\`a} la d{\'e}couverte de nouveaux savoirs scientifiques.

}, issn = {0151-9093}, url = {http://www.lactualitechimique.org/Scruter-les-molecules-en-realite-virtuelle-pour-quoi-faire}, author = {Martinez, Xavier and Marc Baaden} } @article {2020|2116, title = {Stability of Aβ11-40 Trimers with Parallel and Antiparallel β-Sheet Organizations in a Membrane-Mimicking Environment by Replica Exchange Molecular Dynamics Simulation}, journal = {The Journal of Physical Chemistry B}, year = {2020}, author = {Ngo, Son Tung and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2020|2140, title = {Structural transitions in the RNA 7SK 5{\textquoteright} hairpin and their effect on HEXIM binding}, journal = {Nucleic Acids Res}, volume = {48}, year = {2020}, month = {01}, pages = {373-389}, abstract = {

7SK RNA, as part of the 7SK ribonucleoprotein complex, is crucial to the regulation of transcription by RNA-polymerase II, via its interaction with the positive transcription elongation factor P-TEFb. The interaction is induced by binding of the protein HEXIM to the 5\&$\#$39; hairpin (HP1) of 7SK RNA. Four distinct structural models have been obtained experimentally for HP1. Here, we employ computational methods to investigate the relative stability of these structures, transitions between them, and the effects of mutations on the observed structural ensembles. We further analyse the results with respect to mutational binding assays, and hypothesize a mechanism for HEXIM binding. Our results indicate that the dominant structure in the wild type exhibits a triplet involving the unpaired nucleotide U40 and the base pair A43-U66 in the GAUC/GAUC repeat. This conformation leads to an open major groove with enough potential binding sites for peptide recognition. Sequence mutations of the RNA change the relative stability of the different structural ensembles. Binding affinity is consequently lost if these changes alter the dominant structure.

}, doi = {10.1093/nar/gkz1071}, author = {R{\"o}der, Konstantin and Guillaume Stirnemann and Dock-Bregeon, Anne-Catherine and Wales, David J and Pasquali, Samuela} } @article {2020|2131, title = {Tau R3-R4 Domain Dimer of the Wild Type and Phosphorylated Ser356 Sequences. I. In Solution by Atomistic Simulations.}, journal = {J Phys Chem B}, year = {2020}, month = {2020 Mar 27}, abstract = {

In Alzheimer\&$\#$39;s disease, neurofibrillary lesions correlate with cognitive deficits and consist of inclusions of tau protein with cross-β structure. A stable dimeric form of soluble tau has been evidenced in the cells, but its high-resolution structure is missing in solution. We know, however, that cryo-electron microscopy (c-EM) of full-length tau in the brain of an individual with AD displays a core of eight β-sheets with a C-shaped architecture spanning the R3-R4 repeat domain, while the rest of the protein is very flexible. To address the conformational ensemble of the dimer, we performed atomistic replica exchange molecular dynamics simulations on the tau R3-R4 domain starting from the c-EM configuration. We find that the wild type tau R3-R4 dimer explores elongated, U-shaped, V-shaped and globular forms rather than the C-shape. Phosphorylation of Ser356, pSer356, is known to block the interaction between the tau protein and the amyloid-β42 peptide. Standard molecular dynamics simulations of this phosphorylated sequence for a total of 5 microseconds compared to its wild type counterpart show a modulation of the population of β-helices and accessible topologies, and a decrease of intermediates near the fibril like conformers.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.0c00574}, author = {Philippe Derreumaux and Man, Viet Hoang and Wang, Junmei and Phuong Hoang Nguyen} } @article {2020|2124, title = {Temperature Unmasks Allosteric Propensity in a Thermophilic Malate Dehydrogenase via Dewetting and Collapse}, journal = {The Journal of Physical Chemistry B}, volume = {124}, year = {2020}, pages = {1001-1008}, doi = {10.1021/acs.jpcb.9b10776}, url = {https://doi.org/10.1021/acs.jpcb.9b10776}, author = {Katava, M. and Marchi, M. and Madern, D. and Sztucki, M. and Maccarini, M. and Sterpone, F.} } @article {2020|2077, title = {Visualizing biomolecular electrostatics in virtual reality with UnityMol-APBS.}, journal = {Protein Sci}, volume = {29}, year = {2020}, month = {2020 Jan}, pages = {237-246}, abstract = {

Virtual reality is a powerful tool with the ability to immerse a user within a completely external environment. This immersion is particularly useful when visualizing and analyzing interactions between small organic molecules, molecular inorganic complexes, and biomolecular systems such as redox proteins and enzymes. A common tool used in the biomedical community to analyze such interactions is the Adaptive Poisson-Boltzmann Solver (APBS) software, which was developed to solve the equations of continuum electrostatics for large biomolecular assemblages. Numerous applications exist for using APBS in the biomedical community including analysis of protein ligand interactions and APBS has enjoyed widespread adoption throughout the biomedical community. Currently, typical use of the full APBS toolset is completed via the command line followed by visualization using a variety of two-dimensional external molecular visualization software. This process has inherent limitations: visualization of three-dimensional objects using a two-dimensional interface masks important information within the depth component. Herein, we have developed a single application, UnityMol-APBS, that provides a dual experience where users can utilize the full range of the APBS toolset, without the use of a command line interface, by use of a simple graphical user interface (GUI) for either a standard desktop or immersive virtual reality experience.

}, issn = {1469-896X}, doi = {10.1002/pro.3773}, author = {Laureanti, Joseph and Brandi, Juan and Offor, Elvis and Engel, David and Rallo, Robert and Ginovska, Bojana and Martinez, Xavier and Marc Baaden and Baker, Nathan A} } @article {2020|2074, title = {Visualizing protein structures - tools and trends.}, journal = {Biochem Soc Trans}, year = {2020}, month = {2020 Mar 20}, abstract = {

Molecular visualization is fundamental in the current scientific literature, textbooks and dissemination materials. It provides an essential support for presenting results, reasoning on and formulating hypotheses related to molecular structure. Tools for visual exploration of structural data have become easily accessible on a broad variety of platforms thanks to advanced software tools that render a great service to the scientific community. These tools are often developed across disciplines bridging computer science, biology and chemistry. This mini-review was written as a short and compact overview for scientists who need to visualize protein structures and want to make an informed decision which tool they should use. Here, we first describe a few \&$\#$39;Swiss Army knives\&$\#$39; geared towards protein visualization for everyday use with an existing large user base, then focus on more specialized tools for peculiar needs that are not yet as broadly known. Our selection is by no means exhaustive, but reflects a diverse snapshot of scenarios that we consider informative for the reader. We end with an account of future trends and perspectives.

}, issn = {1470-8752}, doi = {10.1042/BST20190621}, author = {Martinez, Xavier and Chavent, Matthieu and Marc Baaden} } @article {2020|2141, title = {Water dynamics at electrified graphene interfaces: a jump model perspective}, journal = {Phys Chem Chem Phys}, year = {2020}, month = {Mar}, abstract = {

The reorientation dynamics of water at electrified graphene interfaces was recently shown [J. Phys. Chem. Lett., 2020, 11, 624-631] to exhibit a surprising and strongly asymmetric behavior: positive electrode potentials slow down interfacial water reorientation, while for increasingly negative potentials water dynamics first accelerates before reaching an extremum and then being retarded for larger potentials. Here we use classical molecular dynamics simulations to determine the molecular mechanisms governing water dynamics at electrified interfaces. We show that changes in water reorientation dynamics with electrode potential arise from the electrified interfaces\&$\#$39; impacts on water hydrogen-bond jump exchanges, and can be quantitatively described by the extended jump model. Finally, our simulations indicate that no significant dynamical heterogeneity occurs within the water interfacial layer next to the weakly interacting graphene electrode.

}, doi = {10.1039/d0cp00359j}, author = {Zhang, Yiwei and Guillaume Stirnemann and Hynes, James T and Laage, Damien} } @article {2019|2109, title = {Amyloid-β (29{\textendash}42) Dimeric Conformations in Membranes Rich in Omega-3 and Omega-6 Polyunsaturated Fatty Acids}, journal = {The Journal of Physical Chemistry B}, volume = {123}, year = {2019}, pages = {2687{\textendash}2696}, author = {Lu, Yan and Shi, Xiao-Feng and Phuong Hoang Nguyen and Sterpone, Fabio and Salsbury Jr, Freddie R and Philippe Derreumaux} } @article {2019|2061, title = {Coarse-grain simulations on NMR conformational ensembles highlight functional residues in proteins.}, journal = {J R Soc Interface}, volume = {16}, year = {2019}, month = {2019 Jul 26}, pages = {20190075}, abstract = {

Dynamics are a key feature of protein function, and this is especially true of gating residues, which occupy cavity or tunnel lining positions in the protein structure, and will reversibly switch between open and closed conformations in order to control the diffusion of small molecules within a protein\&$\#$39;s internal matrix. Earlier work on globins and hydrogenases have shown that these gating residues can be detected using a multiscale scheme combining all-atom classic molecular dynamics simulations and coarse-grain calculations of the resulting conformational ensemble mechanical properties. Here, we show that the structural variations observed in the conformational ensembles produced by NMR spectroscopy experiments are sufficient to induce noticeable mechanical changes in a protein, which in turn can be used to identify residues important for function and forming a mechanical nucleus in the protein core. This new approach, which combines experimental data and rapid coarse-grain calculations and no longer needs to resort to time-consuming all-atom simulations, was successfully applied to five different protein families.

}, issn = {1742-5662}, doi = {10.1098/rsif.2019.0075}, author = {S Sacquin-Mora} } @article {2019|2060, title = {Conformational Stability Adaptation of a Double-Stranded RNA-Binding Domain to Transfer RNA Ligand.}, journal = {Biochemistry}, volume = {58}, year = {2019}, month = {2019 May 21}, pages = {2463-2473}, abstract = {

The double-stranded RNA-binding domain (dsRBD) is a broadly distributed domain among RNA-maturing enzymes. Although this domain recognizes dsRNA\&$\#$39;s structures via a conserved canonical structure adopting an α-βββ-α topology, several dsRBDs can accommodate discrete structural extensions expanding further their functional repertoire. How these structural elements engage cooperative communications with the canonical structure and how they contribute to the dsRBD\&$\#$39;s overall folding are poorly understood. Here, we addressed these issues using the dsRBD of human dihydrouridine synthase-2 (hDus2) (hDus2-dsRBD) as a model. This dsRBD harbors N- and C-terminal extensions, the former being directly involved in the recognition of tRNA substrate of hDus2. These extensions engage residues that form a long-range hydrophobic network (LHN) outside the RNA-binding interface. We show by coarse-grain Brownian dynamics that the Nt-extension and its residues F359 and Y364 rigidify the major folding nucleus of the canonical structure via an indirect effect. hDus2-dsRBD unfolds following a two-state cooperative model, whereas both F359A and Y364A mutants, designed to destabilize this LHN, unfold irreversibly. Structural and computational analyses show that these mutants are unstable due to an increase in the dynamics of the two extensions favoring solvent exposure of α2-helix and weakening the main folding nucleus rigidity. This LHN appears essential for maintaining a thermodynamic stability of the overall system and eventually a functional conformation for tRNA recognition. Altogether, our findings suggest that functional adaptability of extended dsRBDs is promoted by a cooperative hydrophobic coupling between the extensions acting as effectors and the folding nucleus of the canonical structure.

}, issn = {1520-4995}, doi = {10.1021/acs.biochem.9b00111}, author = {Bou-Nader, Charles and Pecqueur, Ludovic and Barraud, Pierre and Fontecave, Marc and Tisn{\'e}, Carine and S Sacquin-Mora and Hamdane, Djemel} } @article {2019|2127, title = {C-Terminal Plays as the Possible Nucleation of the Self-Aggregation of the S-Shape Aβ Tetramer in Solution: Intensive MD Study.}, journal = {ACS Omega}, volume = {4}, year = {2019}, month = {2019 Jun 30}, pages = {11066-11073}, abstract = {

Amyloid beta (Aβ) peptides are characterized as the major factors associated with neuron death in Alzheimer\&$\#$39;s disease, which is listed as the most common form of neurodegeneration. Disordered Aβ peptides are released from proteolysis of the amyloid precursor protein. The Aβ self-assembly process roughly takes place via five steps: disordered forms \→ oligomers \→ photofibrils \→ mature fibrils \→ plaques. Although Aβ fibrils are often observed in patient brains, oligomers were recently indicated to be major neurotoxic elements. In this work, the neurotoxic compound S-shape Aβ tetramer (S4Aβ) was investigated over 10 μs of unbiased MD simulations. In particular, the S4Aβ oligomer adopted a high dynamics structure, resulting in unsuccessful determination of their structures in experiments. The C-terminal was suggested as the possible nucleation of the Aβ aggregation. The sequences 27-35 and 39-40 formed rich β-content, whereas other residues mostly adopted coil structures. The mean value of the β-content over the equilibrium interval is \∼42 \± 3\%. Furthermore, the dissociation free energy of the S4Aβ peptide was predicted using a biased sampling method. The obtained free energy is Δ = -58.44 kcal/mol which is roughly the same level as the corresponding value of the U-shape Aβ peptide. We anticipate that the obtained S4Aβ structures could be used as targets for AD inhibitor screening over the in silico study.

}, issn = {2470-1343}, doi = {10.1021/acsomega.9b00992}, author = {Tung, Nguyen Thanh and Philippe Derreumaux and Vu, Van V and Nam, Pham Cam and Ngo, Son Tung} } @article {2019|2070, title = {Design games and game design: Relations between design, codesign and serious games in adult education}, journal = {From UXD to LivXD: Living eXperience Design}, year = {2019}, pages = {229{\textendash}253}, author = {Alvarez, Julian and Irrmann, Olivier and Djaouti, Damien and Antoine Taly and Rampnoux, Olivier and Sauv{\'e}, Louise} } @article {2019|2139, title = {Effect of Ions on Water Dynamics in Dilute and Concentrated Aqueous Salt Solutions}, journal = {J Phys Chem B}, volume = {123}, year = {2019}, month = {Apr}, pages = {3312-3324}, abstract = {

Aqueous ionic solutions are ubiquitous in chemistry and in biology. Experiments show that ions affect water dynamics, but a full understanding of several questions remains needed: why some salts accelerate water dynamics while others slow it down, why the effect of a given salt can be concentration-dependent, whether the effect of ions is rather local or more global. Numerical simulations are particularly suited to disentangle these different effects, but current force fields suffer from limitations and often lead to a poor description of dynamics in several aqueous salt solutions. Here, we develop an improved classical force field for the description of alkali halides that yields dynamics in excellent agreement with experimental measurements for water reorientational and translational dynamics. These simulations are analyzed with an extended jump model, which allows to compare the effects of ions on local hydrogen-bond exchange dynamics and on more global properties like viscosity. Our results unambiguously show that the ion-induced changes in water dynamics are usually mostly due to a local effect on the hydrogen-bond exchange dynamics; in contrast, the change in viscosity leads to a smaller effect, which governs the retardation only for a minority of salts and at high concentrations. We finally show how the respective importance of these two effects can be directly determined from experimental measurements alone, thus providing guidelines for the selection of an electrolyte with specific dynamical properties.

}, doi = {10.1021/acs.jpcb.9b01053}, author = {Laage, Damien and Guillaume Stirnemann} } @article {2019|2110, title = {Effects of all-atom molecular mechanics force fields on amyloid peptide assembly: the case of aβ16{\textendash}22 dimer}, journal = {Journal of chemical theory and computation}, volume = {15}, year = {2019}, pages = {1440{\textendash}1452}, author = {Man, Viet Hoang and He, Xibing and Philippe Derreumaux and Ji, Beihong and Xie, Xiang-Qun and Phuong Hoang Nguyen and Wang, Junmei} } @article {2019|2076, title = {Glutathionylation primes soluble glyceraldehyde-3-phosphate dehydrogenase for late collapse into insoluble aggregates.}, journal = {Proc Natl Acad Sci U S A}, volume = {116}, year = {2019}, month = {2019 12 17}, pages = {26057-26065}, abstract = {

Protein aggregation is a complex physiological process, primarily determined by stress-related factors revealing the hidden aggregation propensity of proteins that otherwise are fully soluble. Here we report a mechanism by which glycolytic glyceraldehyde-3-phosphate dehydrogenase of (AtGAPC1) is primed to form insoluble aggregates by the glutathionylation of its catalytic cysteine (Cys149). Following a lag phase, glutathionylated AtGAPC1 initiates a self-aggregation process resulting in the formation of branched chains of globular particles made of partially misfolded and totally inactive proteins. GSH molecules within AtGAPC1 active sites are suggested to provide the initial destabilizing signal. The following removal of glutathione by the formation of an intramolecular disulfide bond between Cys149 and Cys153 reinforces the aggregation process. Physiological reductases, thioredoxins and glutaredoxins, could not dissolve AtGAPC1 aggregates but could efficiently contrast their growth. Besides acting as a protective mechanism against overoxidation, S-glutathionylation of AtGAPC1 triggers an unexpected aggregation pathway with completely different and still unexplored physiological implications.

}, issn = {1091-6490}, doi = {10.1073/pnas.1914484116}, author = {Zaffagnini, Mirko and Marchand, Christophe H and Malferrari, Marco and Murail, Samuel and Bonacchi, Sara and Genovese, Damiano and Montalti, Marco and Venturoli, Giovanni and Falini, Giuseppe and Marc Baaden and Lemaire, St{\'e}phane D and Fermani, Simona and Trost, Paolo} } @article {2019|2080, title = {Highlights from the Faraday Discussion on Artificial Water Channels, Glasgow, UK.}, journal = {Chem Commun (Camb)}, volume = {55}, year = {2019}, month = {2019 Apr 07}, pages = {3853-3858}, issn = {1364-548X}, doi = {10.1039/c9cc90112d}, author = {Barboiu, Mihail and Kumar, Manish and Marc Baaden and Gale, Philip A and Hinds, Bruce J} } @article {2019|2108, title = {Interaction mechanism between the focused ultrasound and lipid membrane at the molecular level}, journal = {The Journal of chemical physics}, volume = {150}, year = {2019}, pages = {215101}, author = {Man, Viet Hoang and Li, Mai Suan and Wang, Junmei and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2019|2067, title = {An inter-dimer allosteric switch controls NMDA receptor activity}, journal = {The EMBO journal}, volume = {38}, year = {2019}, author = {Esmenjaud, Jean-Baptiste and Stroebel, David and Chan, Kelvin and Grand, Teddy and David, M{\'e}lissa and Wollmuth, Lonnie P and Antoine Taly and Paoletti, Pierre} } @article {2019|2071, title = {Involvement of the GABAA receptor α subunit in the mode of action of etifoxine}, journal = {Pharmacological research}, volume = {145}, year = {2019}, pages = {104250}, author = {Mattei, C{\'e}sar and Antoine Taly and Soualah, Zineb and Saulais, Oph{\'e}lie and Henrion, Daniel and Gu{\'e}rineau, Nathalie C and Verleye, Marc and Legros, Christian} } @article {2019|2118, title = {Mesoscale biosimulations within a unified framework: from proteins to plasmids}, year = {2019}, pages = {1-12}, author = {P. Maiocchi and Philippe Derreumaux and F. Sterpone and S. Melchionna} } @article {2019|2122, title = {Modelling lipid systems in fluid with Lattice Boltzmann Molecular Dynamics simulations and hydrodynamics}, journal = {Scientific Reports}, volume = {9}, year = {2019}, pages = {16450}, abstract = {

In this work we present the coupling between Dry Martini, an efficient implicit solvent coarse-grained model for lipids, and the Lattice Boltzmann Molecular Dynamics (LBMD) simulation technique in order to include naturally hydrodynamic interactions in implicit solvent simulations of lipid systems. After validating the implementation of the model, we explored several systems where the action of a perturbing fluid plays an important role. Namely, we investigated the role of an external shear flow on the dynamics of a vesicle, the dynamics of substrate release under shear, and inquired the dynamics of proteins and substrates confined inside the core of a vesicle. Our methodology enables future exploration of a large variety of biological entities and processes involving lipid systems at the mesoscopic scale where hydrodynamics plays an essential role, e.g. by modulating the migration of proteins in the proximity of membranes, the dynamics of vesicle-based drug delivery systems, or, more generally, the behaviour of proteins in cellular compartments.

}, isbn = {2045-2322}, doi = {10.1038/s41598-019-52760-y}, url = {https://doi.org/10.1038/s41598-019-52760-y}, author = {F. Brandner, Astrid and Timr, Stepan and Melchionna, Simone and Philippe Derreumaux and Marc Baaden and Sterpone, Fabio} } @article {2019|2079, title = {Molecular Graphics: Bridging Structural Biologists and Computer Scientists.}, journal = {Structure}, volume = {27}, year = {2019}, month = {2019 11 05}, pages = {1617-1623}, abstract = {

Visualization of molecular structures is one of the most common tasks carried out by structural biologists, typically using software, such as Chimera, COOT, PyMOL, or VMD. In this Perspective article, we outline how past developments in computer graphics and data visualization have expanded the understanding of biomolecular function, and we summarize recent advances that promise to further transform structural biology. We also highlight how progress in molecular graphics has been impeded by communication barriers between two communities: the computer scientists driving these advances, and the structural and computational biologists who stand to benefit. By pointing to canonical papers and explaining technical progress underlying new graphical developments in simple terms, we aim to improve communication between these communities; this, in turn, would help shape future developments in molecular graphics.

}, issn = {1878-4186}, doi = {10.1016/j.str.2019.09.001}, author = {Martinez, Xavier and Krone, Michael and Alharbi, Naif and Rose, Alexander S and Laramee, Robert S and O{\textquoteright}Donoghue, Sean and Marc Baaden and Chavent, Matthieu} } @article {2019|2068, title = {Molecular modelling as the spark for active learning approaches for interdisciplinary biology teaching}, journal = {Interface focus}, volume = {9}, year = {2019}, pages = {20180065}, author = {Antoine Taly and Nitti, Francesco and Marc Baaden and Pasquali, S} } @article {2019|2073, title = {A molecular perspective on mitochondrial membrane fusion: from the key players to oligomerization and tethering of mitofusin}, journal = {The Journal of membrane biology}, volume = {252}, year = {2019}, pages = {293{\textendash}306}, author = {De Vecchis, Dario and Brandner, Astrid and Marc Baaden and Cohen, Micka{\"e}l M and Antoine Taly} } @article {2019|2120, title = {Multiscale Aggregation of the Amyloid Aβ16{\textendash}22 Peptide: From Disordered Coagulation and Lateral Branching to Amorphous Prefibrils}, journal = {The Journal of Physical Chemistry Letters}, volume = {10}, year = {2019}, pages = {1594-1599}, doi = {10.1021/acs.jpclett.9b00423}, url = {https://doi.org/10.1021/acs.jpclett.9b00423}, author = {Chiricotto, Mara and Melchionna, Simone and Philippe Derreumaux and Sterpone, Fabio} } @article {2019|2107, title = {Nonequilibrium atomistic molecular dynamics simulation of tubular nanomotor propelled by bubble propulsion}, journal = {The Journal of chemical physics}, volume = {151}, year = {2019}, pages = {024103}, author = {Man, Viet Hoang and Li, Mai Suan and Wang, Junmei and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2019|2121, title = {OPEP6: A New Constant-pH Molecular Dynamics Simulation Scheme with OPEP Coarse-Grained Force Field}, journal = {Journal of Chemical Theory and Computation}, volume = {15}, year = {2019}, pages = {3875-3888}, doi = {10.1021/acs.jctc.9b00202}, url = {https://doi.org/10.1021/acs.jctc.9b00202}, author = {Barroso da Silva, Fernando Luis and Sterpone, Fabio and Philippe Derreumaux} } @article {2019|2072, title = {Physics-based oligomeric models of the yeast mitofusin Fzo1 at the molecular scale in the context of membrane docking}, journal = {Mitochondrion}, volume = {49}, year = {2019}, pages = {234{\textendash}244}, author = {Brandner, Astrid and De Vecchis, Dario and Marc Baaden and Cohen, Micka{\"e}l M and Antoine Taly} } @article {2019|2062, title = {The positioning of Chi sites allows the RecBCD pathway to suppress some genomic rearrangements}, journal = {Nucleic Acids Res}, volume = {47}, year = {2019}, month = {02}, pages = {1836-1846}, abstract = {

Bacterial recombinational repair of double-strand breaks often begins with creation of initiating 3\&$\#$39; single-stranded DNA (ssDNA) tails on each side of a double-strand break (DSB). Importantly, if the RecBCD pathway is followed, RecBCD creates a gap between the sequences at 3\&$\#$39; ends of the initiating strands. The gap flanks the DSB and extends at least to the nearest Chi site on each strand. Once the initiating strands form ssDNA-RecA filaments, each ssDNA-RecA filament searches for homologous double-stranded DNA (dsDNA) to use as a template for the DNA synthesis needed to fill the gap created by RecBCD. Our experimental results show that the DNA synthesis requires formation of a heteroduplex dsDNA that pairs \>20 contiguous bases in the initiating strand with sequence matched bases in a strand from the original dsDNA. To trigger synthesis, the heteroduplex must be near the 3\&$\#$39; end of the initiating strand. Those experimentally determined requirements for synthesis combined with the Chi site dependence of the function of RecBCD and the distribution of Chi sites in bacterial genomes could allow the RecBCD pathway to avoid some genomic rearrangements arising from directly induced DSBs; however, the same three factors could promote other rearrangements.

}, doi = {10.1093/nar/gky1252}, author = {Li, Chastity and Danilowicz, Claudia and Tashjian, Tommy F and Godoy, Veronica G and Chantal Pr{\'e}vost and Prentiss, Mara} } @article {2019|2128, title = {Probable Transmembrane Amyloid α-Helix Bundles Capable of Conducting Ca Ions.}, journal = {J Phys Chem B}, volume = {123}, year = {2019}, month = {2019 Mar 28}, pages = {2645-2653}, abstract = {

Amyloid β (Aβ) peptides are considered the major causative agents of Alzheimer\&$\#$39;s disease (AD). In a widely accepted mechanism for AD pathogenesis, Aβ peptides are proposed to play multiple roles in damaging brain cells and their synaptic communications. Due to the heterogeneous nature of Aβ oligomers, their in vivo structures have not been understood. Most experimental and computational studies favored β-rich structures of Aβ as observed in Aβ fibrils. In this in silico study, we investigated an alternative perspective on the structures and function of Aβ oligomers in the cell membrane. Transmembrane α-helix bundles of the Aβ tetramer and trimer were observed in extensive temperature replica exchange molecular dynamics (REMD) simulations. We observed three minima on the free-energy landscape of each oligomer, namely, A, B, and C for the tetramer and D, E, and F for the trimer. Except for F, the minima consist of 4 or 3 parallel helices spanning across the membrane model dipalmitoylphosphatidylcholine. Replica exchange molecular dynamics-umbrella sampling (REMD-US) simulation was applied to study the process of a Ca crossing the pore formed by the α-helix bundles in A-E in comparison to that in a calcium channel and a proton channel. REMD-US reveals that A, C, and D allow Ca to cross their pore with a free-energy barrier comparable to that found for the calcium channel. In contrast, the free-energy barrier of a Ca ion crossing B, E, and the proton channel is significantly higher. This result suggests that Aβ peptide oligomers could form transmembrane α-helix bundles that provide feasible pathways for Ca transport. This is an intriguing observation that will stimulate further studies.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.8b10792}, author = {Ngo, Son Tung and Philippe Derreumaux and Vu, Van V} } @article {2019, title = {Quantifying the Strength of a Salt Bridge by Neutron Scattering and Molecular Dynamics}, journal = {J. Phys. Chem. Lett.}, volume = {10}, year = {2019}, chapter = {3254}, doi = {10.1021/acs.jpclett.9b01309}, url = {https://pubs.acs.org/doi/10.1021/acs.jpclett.9b01309}, author = {P.E. Mason and P. Jungwirth and Elise Dubou{\'e}-Dijon} } @conference {2019|2099, title = {QuickSES: A Library for Fast Computation of Solvent Excluded Surfaces}, booktitle = {Workshop on Molecular Graphics and Visual Analysis of Molecular Data}, year = {2019}, publisher = {The Eurographics Association}, organization = {The Eurographics Association}, isbn = {978-3-03868-085-7}, doi = {10.2312/molva.20191095}, author = {Martinez, Xavier and Krone, Michael and Marc Baaden}, editor = {Byska, Jan and Krone, Michael and Sommer, Bj{\"o}rn} } @article {2019|2063, title = {Residues in the fingers domain of the translesion DNA polymerase DinB enable its unique participation in error-prone double-strand break repair}, journal = {J Biol Chem}, volume = {294}, year = {2019}, month = {May}, pages = {7588-7600}, abstract = {

The evolutionarily conserved Escherichia coli translesion DNA polymerase IV (DinB) is one of three enzymes that can bypass potentially deadly DNA lesions on the template strand during DNA replication. Remarkably, however, DinB is the only known translesion DNA polymerase active in RecA-mediated strand exchange during error-prone double-strand break repair. In this process, a single-stranded DNA (ssDNA)-RecA nucleoprotein filament invades homologous dsDNA, pairing the ssDNA with the complementary strand in the dsDNA. When exchange reaches the 3\&$\#$39; end of the ssDNA, a DNA polymerase can add nucleotides onto the end, using one strand of dsDNA as a template and displacing the other. It is unknown what makes DinB uniquely capable of participating in this reaction. To explore this topic, we performed molecular modeling of DinB\&$\#$39;s interactions with the RecA filament during strand exchange, identifying key contacts made with residues in the DinB fingers domain. These residues are highly conserved in DinB, but not in other translesion DNA polymerases. Using a novel FRET-based assay, we found that DinB variants with mutations in these conserved residues are less effective at stabilizing RecA-mediated strand exchange than native DinB. Furthermore, these variants are specifically deficient in strand displacement in the absence of RecA filament. We propose that the amino acid patch of highly conserved residues in DinB-like proteins provides a mechanistic explanation for DinB\&$\#$39;s function in strand exchange and improves our understanding of recombination by providing evidence that RecA plays a role in facilitating DinB\&$\#$39;s activity during strand exchange.

}, keywords = {DinB, DNA damage, DNA polymerase, DNA polymerase IV, DNA repair, DNA synthesis, homologous recombination, RecA}, doi = {10.1074/jbc.RA118.006233}, author = {Tashjian, Tommy F and Danilowicz, Claudia and Molza, Anne-Elizabeth and Nguyen, Brian H and Chantal Pr{\'e}vost and Prentiss, Mara and Godoy, Veronica G} } @article {2019|2064, title = {Slow extension of the invading DNA strand in a D-loop formed by RecA-mediated homologous recombination may enhance recognition of DNA homology}, journal = {J Biol Chem}, volume = {294}, year = {2019}, month = {May}, pages = {8606-8616}, abstract = {

DNA recombination resulting from RecA-mediated strand exchange aided by RecBCD proteins often enables accurate repair of DNA double-strand breaks. However, the process of recombinational repair between short DNA regions of accidental similarity can lead to fatal genomic rearrangements. Previous studies have probed how effectively RecA discriminates against interactions involving a short similar sequence that is embedded in otherwise dissimilar sequences but have not yielded fully conclusive results. Here, we present results of in vitro experiments with fluorescent probes strategically located on the interacting DNA fragments used for recombination. Our findings suggest that DNA synthesis increases the stability of the recombination products. Fluorescence measurements can also probe the homology dependence of the extension of invading DNA strands in D-loops formed by RecA-mediated strand exchange. We examined the slow extension of the invading strand in a D-loop by DNA polymerase (Pol) IV and the more rapid extension by DNA polymerase LF-Bsu We found that when DNA Pol IV extends the invading strand in a D-loop formed by RecA-mediated strand exchange, the extension afforded by 82 bp of homology is significantly longer than the extension on 50 bp of homology. In contrast, the extension of the invading strand in D-loops by DNA LF-Bsu Pol is similar for intermediates with \≥50 bp of homology. These results suggest that fatal genomic rearrangements due to the recombination of small regions of accidental homology may be reduced if RecA-mediated strand exchange is immediately followed by DNA synthesis by a slow polymerase.

}, keywords = {cooperativity, DNA damage, DNA polymerase, DNA recombination, double-strand break (DSB), fluorescence resonance energy transfer (FRET), heteroduplex formation, molecular dynamics, RecA, strand displacement synthesis}, doi = {10.1074/jbc.RA119.007554}, author = {Lu, Daniel and Danilowicz, Claudia and Tashjian, Tommy F and Chantal Pr{\'e}vost and Godoy, Veronica G and Prentiss, Mara} } @article {2019|2119, title = {Stability Effect of Quinary Interactions Reversed by Single Point Mutations}, journal = {Journal of the American Chemical Society}, volume = {141}, year = {2019}, pages = {4660-4669}, doi = {10.1021/jacs.8b13025}, url = {https://doi.org/10.1021/jacs.8b13025}, author = {Gnutt, David and Timr, Stepan and Ahlers, Jonas and K{\"o}nig, Benedikt and Manderfeld, Emily and Heyden, Matthias and Sterpone, Fabio and Ebbinghaus, Simon} } @article {2019|2078, title = {Structural dataset from microsecond-long simulations of yeast mitofusin Fzo1 in the context of membrane docking.}, journal = {Data Brief}, volume = {26}, year = {2019}, month = {2019 Oct}, pages = {104460}, abstract = {

In this work we present a novel set of possible auto-oligomerisation states of yeast protein Fzo1 in the context of membrane docking. The dataset reports atomistic models and trajectories derived from a molecular dynamics study of the yeast mitofusin Fzo1, residues 101-855. The initial modelling was followed by coarse-grained molecular dynamics simulation to evaluate the stability and the dynamics of each structural model in a solvated membrane environment. Simulations were run for 1\ μs and collected with GROMACS v5.0.4 using the martini v2.1 force field. For each structural model, the dataset comprises the production phase under semi-isotropic condition at 1\ bar, 310 K and 150 mn NaCl. The integration step is 20 fs and coordinates have been saved every 1 ns. Each trajectory is associated with a ready-available visualization state for the VMD software. These structural detailed informations are a ready-available platform to plan integrative studies on the mitofusin Fzo1 and will aid the community to further elucidate the mitochondrial tethering process during membrane fusion. This dataset is based on the publication \"Physics-based oligomeric models of the yeast mitofusin Fzo1 at the molecular scale in the context of membrane docking.\" (Brandner and De Vecchis et\ al., 2019)\".

}, issn = {2352-3409}, doi = {10.1016/j.dib.2019.104460}, author = {Brandner, Astrid and De Vecchis, Dario and Marc Baaden and Cohen, Micka{\"e}l M and Antoine Taly} } @article {2019|2105, title = {Tetrameric Aβ40 and Aβ42 β-Barrel Structures by Extensive Atomistic Simulations. II. In Aqueous Solution.}, journal = {J Phys Chem B}, volume = {123}, year = {2019}, month = {2019 Aug 08}, pages = {6750-6756}, abstract = {

Alzheimer\&$\#$39;s disease (AD) is characterized by the accumulation of extracellular Aβ42 and Aβ40 oligomers and plaques. In a recent computational study, we found that the presence of the residues I41 and A42 increases significantly the propensity of Aβ to form a tetrameric β-barrel structure in a bilayer mimicking a neuronal membrane. In this work, we have determined the propensity of the two Aβ proteins to form tetrameric β-barrel structures in aqueous solution using four atomistic protein fields, that is, Amber99SB-ILDN/TIP3P, OPLS/TIP3P, CHARMM36m/TIP3P-modified, and Amber99SB/DISP. Extensive replica exchange molecular dynamics simulations make it clear that a β-barrel, made of two distinct β-hairpin motifs and an asymmetric arrangement of eight antiparallel β-strands with an inner pore diameter of 0.7 nm, exists transiently for Aβ42 peptide, but this is less the case for Aβ40 peptide, due to the change of the CHC-CHC and the Cter-Cter interfaces. This study has several implications in AD.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.9b05288}, author = {Phuong Hoang Nguyen and Campanera, Josep M and Ngo, Son Tung and Loquet, Antoine and Philippe Derreumaux} } @article {2019|2106, title = {Tetrameric Aβ40 and Aβ42 β-Barrel Structures by Extensive Atomistic Simulations. I. In a Bilayer Mimicking a Neuronal Membrane.}, journal = {J Phys Chem B}, volume = {123}, year = {2019}, month = {2019 May 02}, pages = {3643-3648}, abstract = {

The amyloid-β (Aβ) 42 oligomers are much more toxic than Aβ40 oligomers in Alzheimer\&$\#$39;s disease. Numerous experiments indicate that toxicity could involve the formation of pores in membranes, but experimental high-resolution structure determination of these pore-forming Aβ oligomers has been impeded by aggregate heterogeneity. Using extensive atomistic simulations, low-resolution data obtained in lipid bilayers, and other theoretical factors, we proposed atomic structures of Aβ40 and Aβ42 β-barrels in a bilayer mimicking a neuronal membrane. The 3D model, which consists of tetramer subunits, two distinct β-hairpin motifs and an asymmetric arrangement of eight antiparallel β-strands, is drastically destabilized for Aβ40 compared to its Aβ42 counterpart. Our computational modeling has several implications in Alzheimer\&$\#$39;s disease, sheds light on the amyloid pore hypothesis, and explains the higher deleterious property of Aβ42.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.9b01206}, author = {Phuong Hoang Nguyen and Campanera, Josep M and Ngo, Son Tung and Loquet, Antoine and Philippe Derreumaux} } @article {2019|2081, title = {Visualizing Biological Membrane Organization and Dynamics.}, journal = {J Mol Biol}, volume = {431}, year = {2019}, month = {2019 05 03}, pages = {1889-1919}, abstract = {

Biological membranes are fascinating. Santiago Ram{\'o}n y Cajal, who received the Nobel prize in 1906 together with Camillo Golgi for their work on the nervous system, wrote \"[\…]in the study of this membrane[\…] I felt more profoundly than in any other subject of study the shuddering sensation of the unfathomable mystery of life\". The visualization and conceptualization of these biological objects have profoundly shaped many aspects of modern biology, drawing inspiration from experiments, computer simulations, and the imagination of scientists and artists. The aim of this review is to provide a fresh look on current ideas of biological membrane organization and dynamics by discussing selected examples across fields.

}, keywords = {Animals, Cell Membrane, Humans, Lipid Bilayers, Microscopy, Atomic Force, Microscopy, Electron, Transmission, Molecular Dynamics Simulation}, issn = {1089-8638}, doi = {10.1016/j.jmb.2019.02.018}, author = {Marc Baaden} } @article {2019|2065, title = {Weaving DNA strands: structural insight on ATP hydrolysis in RecA-induced homologous recombination}, journal = {Nucleic Acids Res}, volume = {47}, year = {2019}, month = {Sep}, pages = {7798-7808}, abstract = {

Homologous recombination is a fundamental process in all living organisms that allows the faithful repair of DNA double strand breaks, through the exchange of DNA strands between homologous regions of the genome. Results of three decades of investigation and recent fruitful observations have unveiled key elements of the reaction mechanism, which proceeds along nucleofilaments of recombinase proteins of the RecA family. Yet, one essential aspect of homologous recombination has largely been overlooked when deciphering the mechanism: while ATP is hydrolyzed in large quantity during the process, how exactly hydrolysis influences the DNA strand exchange reaction at the structural level remains to be elucidated. In this study, we build on a previous geometrical approach that studied the RecA filament variability without bound DNA to examine the putative implication of ATP hydrolysis on the structure, position, and interactions of up to three DNA strands within the RecA nucleofilament. Simulation results on modeled intermediates in the ATP cycle bring important clues about how local distortions in the DNA strand geometries resulting from ATP hydrolysis can aid sequence recognition by promoting local melting of already formed DNA heteroduplex and transient reverse strand exchange in a weaving type of mechanism.

}, doi = {10.1093/nar/gkz667}, author = {Boyer, Benjamin and Danilowicz, Claudia and Prentiss, Mara and Chantal Pr{\'e}vost} } @article {2018|2113, title = {Amyloid-β/drug interactions from computer simulations and cell-based assays}, journal = {Journal of Alzheimer{\textquoteright}s Disease}, volume = {64}, year = {2018}, pages = {S659{\textendash}S672}, author = {Phuong Hoang Nguyen and Del Castillo-Frias, Maria P and Berthoumieux, Olivia and Faller, Peter and Doig, Andrew J and Philippe Derreumaux} } @article {2018|2086, title = {Analyzing protein topology based on Laguerre tessellation of a pore-traversing water network.}, journal = {Sci Rep}, volume = {8}, year = {2018}, month = {2018 09 10}, pages = {13540}, abstract = {

Given the tight relation between protein structure and function, we present a set of methods to analyze protein topology, implemented in the VLDP program, relying on Laguerre space partitions built from series of molecular dynamics snapshots. The Laguerre partition specifies inter-atomic contacts, formalized in graphs. The deduced properties are the existence and count of water aggregates, possible passage ways and constrictions, the structure, connectivity, stability and depth of the water network. As a test-case, the membrane protein FepA is investigated in its full environment, yielding a more precise description of the protein surface. Inside FepA, the solvent splits into isolated clusters and an intricate network connecting both sides of the lipid bilayer. The network is dynamic, connections set on and off, occasionally substantially relocating traversing paths. Subtle differences are detected between two forms of FepA, ligand-free and complexed with its natural iron carrier, the enterobactin. The complexed form has more constricted and more centered openings in the upper part whereas, in the lower part, constriction is released: two main channels between the plug and barrel lead directly to the periplasm. Reliability, precision and the variety of topological features are the main interest of the method.

}, keywords = {Bacterial Outer Membrane Proteins, Carrier Proteins, Enterobactin, Molecular Dynamics Simulation, Protein Stability, Protein Structure, Secondary, Receptors, Cell Surface, Structure-Activity Relationship, Water}, issn = {2045-2322}, doi = {10.1038/s41598-018-31422-5}, author = {Esque, J{\'e}r{\'e}my and Sansom, Mark S P and Marc Baaden and Oguey, Christophe} } @inbook {2018|2085, title = {Applications to water transport systems: general discussion.}, booktitle = {Faraday Discuss}, volume = {209}, year = {2018}, month = {2018 09 28}, pages = {389-414}, issn = {1364-5498}, doi = {10.1039/c8fd90022a}, author = {Marc Baaden and Barboiu, Mihail and Borthakur, Manash Pratim and Chen, Chun-Long and Coalson, Rob and Davis, Jeffery and Freger, Viatcheslav and Gong, Bing and H{\'e}lix-Nielsen, Claus and Hickey, Robert and Hinds, Bruce and Hirunpinyopas, Wisit and Horner, Andreas and Hou, Jun-Li and Hummer, Gerhard and Iamprasertkun, Pawin and Kazushi, Kinbara and Kumar, Manish and Legrand, Yves-Marie and Lokesh, Mahesh and Mi, Baoxia and Mitra, Sushanta and Murail, Samuel and Noy, Aleksandr and Nunes, Suzana and Pohl, Peter and Song, Qilei and Song, Woochul and T{\"o}rnroth-Horsefield, Susanna and Vashisth, Harish} } @inbook {2018|2082, title = {Biomimetic water channels: general discussion.}, booktitle = {Faraday Discuss}, volume = {209}, year = {2018}, month = {2018 09 28}, pages = {205-229}, issn = {1364-5498}, doi = {10.1039/c8fd90020e}, author = {Marc Baaden and Barboiu, Mihail and Bill, Roslyn M and Chen, Chun-Long and Davis, Jeffery and Di Vincenzo, Maria and Freger, Viatcheslav and Fr{\"o}ba, Michael and Gale, Philip A and Gong, Bing and H{\'e}lix-Nielsen, Claus and Hickey, Robert and Hinds, Bruce and Hou, Jun-Li and Hummer, Gerhard and Kumar, Manish and Legrand, Yves-Marie and Lokesh, Mahesh and Mi, Baoxia and Murail, Samuel and Pohl, Peter and Sansom, Mark and Song, Qilei and Song, Woochul and T{\"o}rnroth-Horsefield, Susanna and Vashisth, Harish and V{\"o}gele, Martin} } @conference {2018|2069, title = {Is the boundary of fun redefined in a mixed-reality serious game?}, year = {2018}, author = {Antoine Taly} } @article {2018|2112, title = {Breaking down cellulose fibrils with a mid-infrared laser}, journal = {Cellulose}, volume = {25}, year = {2018}, pages = {5553{\textendash}5568}, author = {Domin, Dominik and Man, Viet Hoang and Van-Oanh, Nguyen-Thi and Wang, Junmei and Kawasaki, Takayasu and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2018|2137, title = {Conformational entropy of a single peptide controlled under force governs protease recognition and catalysis}, journal = {Proc Natl Acad Sci U S A}, volume = {115}, year = {2018}, month = {11}, pages = {11525-11530}, abstract = {

An immense repertoire of protein chemical modifications catalyzed by enzymes is available as proteomics data. Quantifying the impact of the conformational dynamics of the modified peptide remains challenging to understand the decisive kinetics and amino acid sequence specificity of these enzymatic reactions in vivo, because the target peptide must be disordered to accommodate the specific enzyme-binding site. Here, we were able to control the conformation of a single-molecule peptide chain by applying mechanical force to activate and monitor its specific cleavage by a model protease. We found that the conformational entropy impacts the reaction in two distinct ways. First, the flexibility and accessibility of the substrate peptide greatly increase upon mechanical unfolding. Second, the conformational sampling of the disordered peptide drives the specific recognition, revealing force-dependent reaction kinetics. These results support a mechanism of peptide recognition based on conformational selection from an ensemble that we were able to quantify with a torsional free-energy model. Our approach can be used to predict how entropy affects site-specific modifications of proteins and prompts conformational and mechanical selectivity.

}, keywords = {enzymology, mechanics, proteases, single molecule, torsional free energy}, doi = {10.1073/pnas.1803872115}, author = {Guerin, Marcelo E and Guillaume Stirnemann and Giganti, David} } @article {2018|2046, title = {Controlling Redox Enzyme Orientation at Planar Electrodes}, journal = {Catalysts}, volume = {8}, year = {2018}, abstract = {

Redox enzymes, which catalyze reactions involving electron transfers in living organisms, are very promising components of biotechnological devices, and can be envisioned for sensing applications as well as for energy conversion. In this context, one of the most significant challenges is to achieve efficient direct electron transfer by tunneling between enzymes and conductive surfaces. Based on various examples of bioelectrochemical studies described in the recent literature, this review discusses the issue of enzyme immobilization at planar electrode interfaces. The fundamental importance of controlling enzyme orientation, how to obtain such orientation, and how it can be verified experimentally or by modeling are the three main directions explored. Since redox enzymes are sizable proteins with anisotropic properties, achieving their functional immobilization requires a specific and controlled orientation on the electrode surface. All the factors influenced by this orientation are described, ranging from electronic conductivity to efficiency of substrate supply. The specificities of the enzymatic molecule, surface properties, and dipole moment, which in turn influence the orientation, are introduced. Various ways of ensuring functional immobilization through tuning of both the enzyme and the electrode surface are then described. Finally, the review deals with analytical techniques that have enabled characterization and quantification of successful achievement of the desired orientation. The rich contributions of electrochemistry, spectroscopy (especially infrared spectroscopy), modeling, and microscopy are featured, along with their limitations.

}, issn = {2073-4344}, doi = {10.3390/catal8050192}, url = {http://www.mdpi.com/2073-4344/8/5/192}, author = {Hitaishi, Vivek Pratap and Clement, Romain and Bourassin, Nicolas and Marc Baaden and de Poulpiquet, Anne and S Sacquin-Mora and Ciaccafava, Alexandre and Lojou, Elisabeth} } @article {2018|2134, title = {DNA Binding Induces a Nanomechanical Switch in the RRM1 Domain of TDP-43}, journal = {J Phys Chem Lett}, volume = {9}, year = {2018}, month = {Jul}, pages = {3800-3807}, abstract = {

Understanding the molecular mechanisms governing protein-nucleic acid interactions is fundamental to many nuclear processes. However, how nucleic acid binding affects the conformation and dynamics of the substrate protein remains poorly understood. Here we use a combination of single molecule force spectroscopy AFM and biochemical assays to show that the binding of TG-rich ssDNA triggers a mechanical switch in the RRM1 domain of TDP-43, toggling between an entropic spring devoid of mechanical stability and a shock absorber bound-form that resists unfolding forces of \∼40 pN. The fraction of mechanically resistant proteins correlates with an increasing length of the TG n oligonucleotide, demonstrating that protein mechanical stability is a direct reporter of nucleic acid binding. Steered molecular dynamics simulations on related RNA oligonucleotides reveal that the increased mechanical stability fingerprinting the holo-form is likely to stem from a unique scenario whereby the nucleic acid acts as a \"mechanical staple\" that protects RRM1 from mechanical unfolding. Our approach highlights nucleic acid binding as an effective strategy to control protein nanomechanics.

}, doi = {10.1021/acs.jpclett.8b01494}, author = {Wang, Yong Jian and Rico-Lastres, Palma and Lezamiz, Ainhoa and Mora, Marc and Solsona, Carles and Guillaume Stirnemann and Garcia-Manyes, Sergi} } @article {2018|2093, title = {Dystrophin{\textquoteright}s central domain forms a complex filament that becomes disorganized by in-frame deletions.}, journal = {J Biol Chem}, volume = {293}, year = {2018}, month = {2018 05 04}, pages = {6637-6646}, abstract = {

Dystrophin, encoded by the gene, is critical for maintaining plasma membrane integrity during muscle contraction events. Mutations in the gene disrupting the reading frame prevent dystrophin production and result in severe Duchenne muscular dystrophy (DMD); in-frame internal deletions allow production of partly functional internally deleted dystrophin and result in less severe Becker muscular dystrophy (BMD). Many known BMD deletions occur in dystrophin\&$\#$39;s central domain, generally considered to be a monotonous rod-shaped domain based on the knowledge of spectrin family proteins. However, the effects caused by these deletions, ranging from asymptomatic to severe BMD, argue against the central domain serving only as a featureless scaffold. We undertook structural studies combining small-angle X-ray scattering and molecular modeling in an effort to uncover the structure of the central domain, as dystrophin has been refractory to characterization. We show that this domain appears to be a tortuous and complex filament that is profoundly disorganized by the most severe BMD deletion (loss of exons 45-47). Despite the preservation of large parts of the binding site for neuronal nitric oxide synthase (nNOS) in this deletion, computational approaches failed to recreate the association of dystrophin with nNOS. This observation is in agreement with a strong decrease of nNOS immunolocalization in muscle biopsies, a parameter related to the severity of BMD phenotypes. The structural description of the whole dystrophin central domain we present here is a first necessary step to improve the design of microdystrophin constructs toward the goal of a successful gene therapy for DMD.

}, keywords = {Binding Sites, Dystrophin, Exons, Gene Deletion, Humans, Molecular Docking Simulation, Muscular Dystrophy, Duchenne, Nitric Oxide Synthase Type I, Protein Domains, Reading Frames, Scattering, Small Angle, Solutions, X-Ray Diffraction}, issn = {1083-351X}, doi = {10.1074/jbc.M117.809798}, author = {Delalande, Olivier and Molza, Anne-Elisabeth and Dos Santos Morais, Raphael and Ch{\'e}ron, Ang{\'e}lique and Pollet, {\'E}meline and Raguenes-Nicol, C{\'e}line and Tascon, Christophe and Giudice, Emmanuel and Guilbaud, Marine and Nicolas, Aur{\'e}lie and Bondon, Arnaud and Leturcq, France and Nicolas F{\'e}rey and Marc Baaden and Perez, Javier and Roblin, Pierre and Pi{\'e}tri-Rouxel, France and Hubert, Jean-Fran{\c c}ois and Czjzek, Mirjam and Le Rumeur, Elisabeth} } @article {2018|2132, title = {The force-dependent mechanism of DnaK-mediated mechanical folding}, journal = {Sci Adv}, volume = {4}, year = {2018}, month = {Feb}, pages = {eaaq0243}, abstract = {

It is well established that chaperones modulate the protein folding free-energy landscape. However, the molecular determinants underlying chaperone-mediated mechanical folding remain largely elusive, primarily because the force-extended unfolded conformation fundamentally differs from that characterized in biochemistry experiments. We use single-molecule force-clamp spectroscopy, combined with molecular dynamics simulations, to study the effect that the Hsp70 system has on the mechanical folding of three mechanically stiff model proteins. Our results demonstrate that, when working independently, DnaJ (Hsp40) and DnaK (Hsp70) work as holdases, blocking refolding by binding to distinct substrate conformations. Whereas DnaK binds to molten globule-like forms, DnaJ recognizes a cryptic sequence in the extended state in an unanticipated force-dependent manner. By contrast, the synergetic coupling of the Hsp70 system exhibits a marked foldase behavior. Our results offer unprecedented molecular and kinetic insights into the mechanisms by which mechanical force finely regulates chaperone binding, directly affecting protein elasticity.

}, doi = {10.1126/sciadv.aaq0243}, author = {Perales-Calvo, Judit and Giganti, David and Guillaume Stirnemann and Garcia-Manyes, Sergi} } @article {2018|2136, title = {Forcing the reversibility of a mechanochemical reaction}, journal = {Nat Commun}, volume = {9}, year = {2018}, month = {08}, pages = {3155}, abstract = {

Mechanical force modifies the free-energy surface of chemical reactions, often enabling thermodynamically unfavoured reaction pathways. Most of our molecular understanding of force-induced reactivity is restricted to the irreversible homolytic scission of covalent bonds and ring-opening in polymer mechanophores. Whether mechanical force can by-pass thermodynamically locked reactivity in heterolytic bimolecular reactions and how this impacts the reaction reversibility remains poorly understood. Using single-molecule force-clamp spectroscopy, here we show that mechanical force promotes the thermodynamically disfavored SN2 cleavage of an individual protein disulfide bond by poor nucleophilic organic thiols. Upon force removal, the transition from the resulting high-energy unstable mixed disulfide product back to the initial, low-energy disulfide bond reactant becomes suddenly spontaneous, rendering the reaction fully reversible. By rationally varying the nucleophilicity of a series of small thiols, we demonstrate how force-regulated chemical kinetics can be finely coupled with thermodynamics to predict and modulate the reversibility of bimolecular mechanochemical reactions.

}, doi = {10.1038/s41467-018-05115-6}, author = {Beedle, Amy E M and Mora, Marc and Davis, Colin T and Snijders, Ambrosius P and Guillaume Stirnemann and Garcia-Manyes, Sergi} } @article {2018|2088, title = {From Virtual Reality to Immersive Analytics in Bioinformatics.}, journal = {J Integr Bioinform}, volume = {15}, year = {2018}, month = {2018 Jul 09}, abstract = {

Bioinformatics-related research produces huge heterogeneous amounts of data. This wealth of information includes data describing metabolic mechanisms and pathways, proteomics, transcriptomics, and metabolomics. Often, the visualization and exploration of related structural - usually molecular - data plays an important role in the aforementioned contexts. For decades, virtual reality (VR)-related technologies were developed and applied to Bioinformatics problems. Often, these approaches provide \"just\" visual support of the analysis, e.g. in the case of exploring and interacting with a protein on a 3D monitor and compatible interaction hardware. Moreover, in the past these approaches were limited to cost-intensive professional visualization facilities. The advent of new affordable, and often mobile technologies, provides high potential for using similar approaches on a regular basis for daily research. Visual Analytics is successfully being used for several years to analyze complex and heterogeneous datasets. Immersive Analytics combines these approaches now with new immersive and interactive technologies. This publication provides a short overview of related technologies, their history and Bioinformatics-related approaches. Six new applications on the path from VR to Immersive Analytics are being introduced and discussed.

}, keywords = {Computer Graphics, Imaging, Three-Dimensional, Molecular Conformation, Proteins, Software, User-Computer Interface, Virtual Reality}, issn = {1613-4516}, doi = {10.1515/jib-2018-0043}, author = {Sommer, Bj{\"o}rn and Marc Baaden and Krone, Michael and Woods, Andrew} } @article {2018|2045, title = {Hidden partners: Using cross-docking calculations to predict binding sites for proteins with multiple interactions}, journal = {Proteins: Structure, Function, and Bioinformatics}, volume = {00}, year = {2018}, pages = {1-15}, chapter = {1}, abstract = {

Abstract Protein-protein interactions control a large range of biological processes and their identification is essential to understand the underlying biological mechanisms. To complement experimental approaches, in silico methods are available to investigate protein-protein interactions. Cross-docking methods, in particular, can be used to predict protein binding sites. However, proteins can interact with numerous partners and can present multiple binding sites on their surface, which may alter the binding site prediction quality. We evaluate the binding site predictions obtained using complete cross-docking simulations of 358 proteins with 2 different scoring schemes accounting for multiple binding sites. Despite overall good binding site prediction performances, 68 cases were still associated with very low prediction quality, presenting individual area under the specificity-sensitivity ROC curve (AUC) values below the random AUC threshold of 0.5, since cross-docking calculations can lead to the identification of alternate protein binding sites (that are different from the reference experimental sites). For the large majority of these proteins, we show that the predicted alternate binding sites correspond to interaction sites with hidden partners, that is, partners not included in the original cross-docking dataset. Among those new partners, we find proteins, but also nucleic acid molecules. Finally, for proteins with multiple binding sites on their surface, we investigated the structural determinants associated with the binding sites the most targeted by the docking partners.

}, keywords = {alternate partners, binding site predictions, docking, multiple binding sites, protein-protein interfaces}, doi = {10.1002/prot.25506}, url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/prot.25506}, author = {Nathalie Lagarde and Alessandra Carbone and S Sacquin-Mora} } @article {2018|2094, title = {Holding the Nucleosome Together: A Quantitative Description of the DNA-Histone Interface in Solution.}, journal = {J Chem Theory Comput}, volume = {14}, year = {2018}, month = {2018 Feb 13}, pages = {1045-1058}, abstract = {

The nucleosome is the fundamental unit of eukaryotic genome packaging in the chromatin. In this complex, the DNA wraps around eight histone proteins to form a superhelical double helix. The resulting bending, stronger than anything observed in free DNA, raises the question of how such a distortion is stabilized by the proteic and solvent environments. In this work, the DNA-histone interface in solution was exhaustively analyzed from nucleosome structures generated by molecular dynamics. An original Voronoi tessellation technique, measuring the topology of interacting elements without any empirical or subjective adjustment, was used to characterize the interface in terms of contact area and occurrence. Our results revealed an interface more robust than previously known, combining extensive, long-lived nonelectrostatic and electrostatic interactions between DNA and both structured and unstructured histone regions. Cation accumulation makes the proximity of juxtaposed DNA gyres in the superhelix possible by shielding the strong electrostatic repulsion of the charged phosphate groups. Overall, this study provides new insights on the nucleosome cohesion, explaining how DNA distortions can be maintained in a nucleoprotein complex.

}, keywords = {DNA, Histones, Molecular Dynamics Simulation, Nucleosomes, Solutions, Static Electricity}, issn = {1549-9626}, doi = {10.1021/acs.jctc.7b00936}, author = {Elbahnsi, Ahmad and Retureau, Romain and Marc Baaden and Hartmann, Brigitte and Oguey, Christophe} } @article {2018|2034, title = {Influence of electric field on the amyloid-β(29-42) peptides embedded in a membrane bilayer.}, journal = {J Chem Phys}, volume = {148}, year = {2018}, month = {2018 Jan 28}, pages = {045105}, abstract = {

Alzheimer\&$\#$39;s disease is linked to various types of aggregates of amyloid-β (Aβ) peptide and their interactions with protein receptors and neuronal cell membranes. Little is known on the impact of the electric field on membrane-embedded Aβ. Here we use atomistic molecular dynamics simulations to study the effects of a constant electric field on the conformations of Aβdimer inside a membrane, where the electric field has a strength of 20 mV/nm which exists across the membrane of a human neuron. Starting from α-helix peptides, the transmembrane electric field (TMEF) accelerates the conversion from the Gly-out substate to the Gly-side and Gly-in substates. Starting from β-sheet peptides, TMEF induces changes of the kink and tilt angles at Gly33 and Gly37. Overall, in the simulations totaling 10 μs, TMEF establishes new ground states for the dimer, similar to induced-fit in ligand binding. Our findings indicate that TMEF can stabilize rare conformations of amyloid peptides, and this could influence the cleavage of the amyloid precursor protein and the formation of β-sheet oligomers in membrane bilayers.

}, issn = {1089-7690}, doi = {10.1063/1.5018459}, author = {Lu, Yan and Shi, Xiao-Feng and Salsbury, Freddie R and Philippe Derreumaux} } @article {2018|2087, title = {The major β-catenin/E-cadherin junctional binding site is a primary molecular mechano-transductor of differentiation .}, journal = {Elife}, volume = {7}, year = {2018}, month = {2018 07 19}, abstract = {

, the primary molecular mechanotransductive events mechanically initiating cell differentiation remain unknown. Here we find the molecular stretching of the highly conserved Y654-β-catenin-D665-E-cadherin binding site as mechanically induced by tissue strain. It triggers the increase of accessibility of the Y654 site, target of the Src42A kinase phosphorylation leading to irreversible unbinding. Molecular dynamics simulations of the β-catenin/E-cadherin complex under a force mimicking a 6 pN physiological mechanical strain predict a local 45\% stretching between the two α-helices linked by the site and a 15\% increase in accessibility of the phosphorylation site. Both are quantitatively observed using FRET lifetime imaging and non-phospho Y654 specific antibody labelling, in response to the mechanical strains developed by endogenous and magnetically mimicked early mesoderm invagination of gastrulating embryos. This is followed by the predicted release of 16\% of β-catenin from junctions, observed in FRAP, which initiates the mechanical activation of the β-catenin pathway process.

}, keywords = {Amino Acid Sequence, Animals, Armadillo Domain Proteins, Binding Sites, Cadherins, Cell Differentiation, Drosophila melanogaster, Drosophila Proteins, Fluorescence Resonance Energy Transfer, Mechanotransduction, Cellular, Molecular Dynamics Simulation, Phosphorylation, Protein Binding, Protein Conformation, Proto-Oncogene Proteins pp60(c-src), Sequence Homology, Transcription Factors}, issn = {2050-084X}, doi = {10.7554/eLife.33381}, author = {R{\"o}per, Jens-Christian and Mitrossilis, D{\'e}mosth{\`e}ne and Guillaume Stirnemann and Waharte, Fran{\c c}ois and Brito, Isabel and Fernandez-Sanchez, Maria-Elena and Marc Baaden and Salamero, Jean and Farge, Emmanuel} } @article {2018|2047, title = {Mechanical variations in proteins with large-scale motions highlight the formation of structural locks}, journal = {Journal of Structural Biology}, year = {2018}, keywords = {Coarse-grain simulations, Elastic network model, Protein domain motion, Proteins mechanics}, issn = {1047-8477}, doi = {https://doi.org/10.1016/j.jsb.2018.05.006}, url = {http://www.sciencedirect.com/science/article/pii/S1047847718301308}, author = {S Sacquin-Mora} } @article {2018|2044, title = {Meet-U: Educating through research immersion}, journal = {PLOS Computational Biology}, volume = {14}, year = {2018}, month = {03}, pages = {1-10}, abstract = {

We present a new educational initiative called Meet-U that aims to train students for collaborative work in computational biology and to bridge the gap between education and research. Meet-U mimics the setup of collaborative research projects and takes advantage of the most popular tools for collaborative work and of cloud computing. Students are grouped in teams of 4\–5 people and have to realize a project from A to Z that answers a challenging question in biology. Meet-U promotes \"coopetition,\" as the students collaborate within and across the teams and are also in competition with each other to develop the best final product. Meet-U fosters interactions between different actors of education and research through the organization of a meeting day, open to everyone, where the students present their work to a jury of researchers and jury members give research seminars. This very unique combination of education and research is strongly motivating for the students and provides a formidable opportunity for a scientific community to unite and increase its visibility. We report on our experience with Meet-U in two French universities with master\’s students in bioinformatics and modeling, with protein\–protein docking as the subject of the course. Meet-U is easy to implement and can be straightforwardly transferred to other fields and/or universities. All the information and data are available at www.meet-u.org.

}, doi = {10.1371/journal.pcbi.1005992}, url = {https://doi.org/10.1371/journal.pcbi.1005992}, author = {Abdollahi, Nika and Albani, Alexandre and Anthony, Eric and Baud, Agnes and Cardon, M{\'e}lissa and Clerc, Robert and Czernecki, Dariusz and Conte, Romain and David, Laurent and Delaune, Agathe and Djerroud, Samia and Fourgoux, Pauline and Guiglielmoni, Nad{\`e}ge and Laurentie, Jeanne and Lehmann, Nathalie and Lochard, Camille and Montagne, R{\'e}mi and Myrodia, Vasiliki and Opuu, Vaitea and Parey, Elise and Polit, L{\'e}lia and Priv{\'e}, Sylvain and Quignot, Chlo{\'e} and Ruiz-Cuevas, Maria and Sissoko, Mariam and Sompairac, Nicolas and Vallerix, Audrey and Verrecchia, Violaine and Delarue, Marc and Gu{\'e}rois, Raphael and Ponty, Yann and S Sacquin-Mora and Carbone, Alessandra and Froidevaux, Christine and Le Crom, St{\'e}phane and Lespinet, Olivier and Weigt, Martin and Abboud, Samer and Bernardes, Juliana and Bouvier, Guillaume and Dequeker, Chlo{\'e} and Ferr{\'e}, Arnaud and Fuchs, Patrick and Lelandais, Ga{\"e}lle and Poulain, Pierre and Richard, Hugues and Schweke, Hugo and Laine, Elodie and Lopes, Anne} } @article {2018|2091, title = {MinOmics, an Integrative and Immersive Tool for Multi-Omics Analysis.}, journal = {J Integr Bioinform}, volume = {15}, year = {2018}, month = {2018 Jun 21}, abstract = {

Proteomic and transcriptomic technologies resulted in massive biological datasets, their interpretation requiring sophisticated computational strategies. Efficient and intuitive real-time analysis remains challenging. We use proteomic data on 1417 proteins of the green microalga Chlamydomonas reinhardtii to investigate physicochemical parameters governing selectivity of three cysteine-based redox post translational modifications (PTM): glutathionylation (SSG), nitrosylation (SNO) and disulphide bonds (SS) reduced by thioredoxins. We aim to understand underlying molecular mechanisms and structural determinants through integration of redox proteome data from gene- to structural level. Our interactive visual analytics approach on an 8.3 m2 display wall of 25 MPixel resolution features stereoscopic three dimensions (3D) representation performed by UnityMol WebGL. Virtual reality headsets complement the range of usage configurations for fully immersive tasks. Our experiments confirm that fast access to a rich cross-linked database is necessary for immersive analysis of structural data. We emphasize the possibility to display complex data structures and relationships in 3D, intrinsic to molecular structure visualization, but less common for omics-network analysis. Our setup is powered by MinOmics, an integrated analysis pipeline and visualization framework dedicated to multi-omics analysis. MinOmics integrates data from various sources into a materialized physical repository. We evaluate its performance, a design criterion for the framework.

}, keywords = {Algal Proteins, Chlamydomonas reinhardtii, Computer Graphics, Imaging, Three-Dimensional, Models, Structural, Oxidation-Reduction, Protein Conformation, Protein Interaction Maps, Protein Processing, Post-Translational, Proteome, Proteomics, Software, Virtual Reality}, issn = {1613-4516}, doi = {10.1515/jib-2018-0006}, author = {Maes, Alexandre and Martinez, Xavier and Druart, Karen and Laurent, Benoist and Gu{\'e}gan, Sean and Marchand, Christophe H and Lemaire, St{\'e}phane D and Marc Baaden} } @inbook {2018|2084, title = {The modelling and enhancement of water hydrodynamics: general discussion.}, booktitle = {Faraday Discuss}, volume = {209}, year = {2018}, month = {2018 09 28}, pages = {273-285}, issn = {1364-5498}, doi = {10.1039/c8fd90021c}, author = {Marc Baaden and Borthakur, Manash Pratim and Casanova, Serena and Coalson, Rob and Freger, Viatcheslav and Gonzalez, Miguel and G{\'o}ra, Artur and Hinds, Bruce and Hirunpinyopas, Wisit and Hummer, Gerhard and Kumar, Manish and Lynch, Charlotte and Murail, Samuel and Noy, Aleksandr and Sansom, Mark and Song, Qilei and Vashisth, Harish and V{\"o}gele, Martin} } @article {2018|2035, title = {Molecular Mechanism of Protein Unfolding under Shear: A Lattice Boltzmann Molecular Dynamics Study.}, journal = {J Phys Chem B}, volume = {122}, year = {2018}, month = {2018 Feb 08}, pages = {1573-1579}, abstract = {

Proteins are marginally stable soft-matter entities that can be disrupted using a variety of perturbative stresses, including thermal, chemical, or mechanical ones. Fluid under extreme flow conditions is a possible route to probe the weakness of biomolecules and collect information on the molecular cohesive interactions that secure their stability. Moreover, in many cases, physiological flow triggers the functional response of specialized proteins as occurring in blood coagulation or cell adhesion. We deploy the Lattice Boltzmann molecular dynamics technique based on the coarse-grained model for protein OPEP to study the mechanism of protein unfolding under Couette flow. Our simulations provide a clear view of how structural elements of the proteins are affected by shear, and for the simple study case, the β-hairpin, we exploited the analogy to pulling experiments to quantify the mechanical forces acting on the protein under shear.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.7b10796}, author = {Sterpone, Fabio and Philippe Derreumaux and Melchionna, Simone} } @article {2018|2111, title = {Molecular mechanism of the cell membrane pore formation induced by bubble stable cavitation}, journal = {The Journal of Physical Chemistry B}, volume = {123}, year = {2018}, pages = {71{\textendash}78}, author = {Man, Viet Hoang and Truong, Phan Minh and Li, Mai Suan and Wang, Junmei and Van-Oanh, Nguyen-Thi and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2018|2092, title = {Oriented chiral water wires in artificial transmembrane channels.}, journal = {Sci Adv}, volume = {4}, year = {2018}, month = {2018 03}, pages = {eaao5603}, abstract = {

Aquaporins (AQPs) feature highly selective water transport through cell membranes, where the dipolar orientation of structured water wires spanning the AQP pore is of considerable importance for the selective translocation of water over ions. We recently discovered that water permeability through artificial water channels formed by stacked imidazole I-quartet superstructures increases when the channel water molecules are highly organized. Correlating water structure with molecular transport is essential for understanding the underlying mechanisms of (fast) water translocation and channel selectivity. Chirality adds another factor enabling unique dipolar oriented water structures. We show that water molecules exhibit a dipolar oriented wire structure within chiral I-quartet water channels both in the solid state and embedded in supported lipid bilayer membranes (SLBs). X-ray single-crystal structures show that crystallographic water wires exhibit dipolar orientation, which is unique for chiral I-quartets. The integration of I-quartets into SLBs was monitored with a quartz crystal microbalance with dissipation, quantizing the amount of channel water molecules. Nonlinear sum-frequency generation vibrational spectroscopy demonstrates the first experimental observation of dipolar oriented water structures within artificial water channels inserted in bilayer membranes. Confirmation of the ordered confined water is obtained via molecular simulations, which provide quantitative measures of hydrogen bond strength, connectivity, and the stability of their dipolar alignment in a membrane environment. Together, uncovering the interplay between the dipolar aligned water structure and water transport through the self-assembled I-quartets is critical to understanding the behavior of natural membrane channels and will accelerate the systematic discovery for developing artificial water channels for water desalting.

}, issn = {2375-2548}, doi = {10.1126/sciadv.aao5603}, author = {Kocsis, Istvan and Sorci, Mirco and Vanselous, Heather and Murail, Samuel and Sanders, Stephanie E and Licsandru, Erol and Legrand, Yves-Marie and van der Lee, Arie and Marc Baaden and Petersen, Poul B and Belfort, Georges and Barboiu, Mihail} } @article {2018|2129, title = {Probing the quality control mechanism of the twin-arginine translocase with folding variants of a -designed heme protein.}, journal = {J Biol Chem}, volume = {293}, year = {2018}, month = {2018 05 04}, pages = {6672-6681}, abstract = {

Protein transport across the cytoplasmic membrane of bacterial cells is mediated by either the general secretion (Sec) system or the twin-arginine translocase (Tat). The Tat machinery exports folded and cofactor-containing proteins from the cytoplasm to the periplasm by using the transmembrane proton motive force as a source of energy. The Tat apparatus apparently senses the folded state of its protein substrates, a quality-control mechanism that prevents premature export of nascent unfolded or misfolded polypeptides, but its mechanistic basis has not yet been determined. Here, we investigated the innate ability of the model Tat system to recognize and translocate -designed protein substrates with experimentally determined differences in the extent of folding. Water-soluble, four-helix bundle maquette proteins were engineered to bind two, one, or no heme cofactors, resulting in a concomitant reduction in the extent of their folding, assessed with temperature-dependent CD spectroscopy and one-dimensional H NMR spectroscopy. Fusion of the archetypal N-terminal Tat signal peptide of the trimethylamine--oxide (TMAO) reductase (TorA) to the N terminus of the protein maquettes was sufficient for the Tat system to recognize them as substrates. The clear correlation between the level of Tat-dependent export and the degree of heme -induced folding of the maquette protein suggested that the membrane-bound Tat machinery can sense the extent of folding and conformational flexibility of its substrates. We propose that these artificial proteins are ideal substrates for future investigations of the Tat system\&$\#$39;s quality-control mechanism.

}, keywords = {Amino Acid Sequence, Bacterial Proteins, Circular Dichroism, Escherichia coli, Escherichia coli Proteins, Heme-Binding Proteins, Hemeproteins, Membrane Transport Proteins, Methylamines, Models, Molecular, Oxidoreductases, N-Demethylating, Periplasm, Protein Folding, Protein Sorting Signals, Protein Stability, Protein Transport, Proton Magnetic Resonance Spectroscopy, Substrate Specificity, Temperature}, issn = {1083-351X}, doi = {10.1074/jbc.RA117.000880}, author = {Sutherland, George A and Grayson, Katie J and Adams, Nathan B P and Mermans, Daphne M J and Jones, Alexander S and Robertson, Angus J and Auman, Dirk B and Brindley, Amanda A and Sterpone, Fabio and Tuffery, Pierre and Philippe Derreumaux and Dutton, P Leslie and Robinson, Colin and Hitchcock, Andrew and Hunter, C Neil} } @article {2018|2114, title = {Rayleigh-Plesset equation of the bubble stable cavitation in water: A nonequilibrium all-atom molecular dynamics simulation study}, journal = {The Journal of Chemical Physics}, volume = {148}, year = {2018}, pages = {094505}, author = {Man, Viet Hoang and Li, Mai Suan and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2018, title = {RecA requires two molecules of Mg2+ ions for its optimal strand exchange activity in vitro}, journal = {Nucleic Acids Res}, volume = {ahead of print}, year = {2018}, month = {Jan}, abstract = {

Mg2+ ion stimulates the DNA strand exchange reaction catalyzed by RecA, a key step in homologous recombination. To elucidate the molecular mechanisms underlying the role of Mg2+ and the strand exchange reaction itself, we investigated the interaction of RecA with Mg2+ and sought to determine which step of the reaction is affected. Thermal stability, intrinsic fluorescence, and native mass spectrometric analyses of RecA revealed that RecA binds at least two Mg2+ ions with KD \‚{\^a}{\`a} 2 mM and 5 mM. Deletion of the C-terminal acidic tail of RecA made its thermal stability and fluorescence characteristics insensitive to Mg2+ and similar to those of full-length RecA in the presence of saturating Mg2+. These observations, together with the results of a molecular dynamics simulation, support the idea that the acidic tail hampers the strand exchange reaction by interacting with other parts of RecA, and that binding of Mg2+ to the tail prevents these interactions and releases RecA from inhibition. We observed that binding of the first Mg2+ stimulated joint molecule formation, whereas binding of the second stimulated progression of the reaction. Thus, RecA is actively involved in the strand exchange step as well as bringing the two DNAs close to each other.

}, doi = {10.1093/nar/gky048}, author = {Kim, Raeyeong and Kanamaru, Shuji and Mikawa, Tsutomu and Chantal Pr{\'e}vost and Ishii, Kentaro and Ito, Kentaro and Uchiyama, Susumu and Oda, Masayuki and Iwasaki, Hiroshi and Kim, Seog K and Takahashi, Masayuki} } @article {2018|2135, title = {Segmentation and the Entropic Elasticity of Modular Proteins}, journal = {J Phys Chem Lett}, volume = {9}, year = {2018}, month = {Aug}, pages = {4707-4713}, abstract = {

Single-molecule force spectroscopy utilizes polyproteins, which are composed of tandem modular domains, to study their mechanical and structural properties. Under the application of external load, the polyproteins respond by unfolding and refolding domains to acquire the most favored extensibility. However, unlike single-domain proteins, the sequential unfolding of the each domain modifies the free energy landscape (FEL) of the polyprotein nonlinearly. Here we use force-clamp (FC) spectroscopy to measure unfolding and collapse-refolding dynamics of polyubiquitin and poly(I91). Their reconstructed unfolding FEL involves hundreds of kB T in accumulating work performed against conformational entropy, which dwarfs the \∼30 kB T that is typically required to overcome the free energy difference of unfolding. We speculate that the additional entropic energy caused by segmentation of the polyprotein to individual proteins plays a crucial role in defining the \"shock absorber\" properties of elastic proteins such as the giant muscle protein titin.

}, doi = {10.1021/acs.jpclett.8b01925}, author = {Berkovich, Ronen and Fernandez, Vicente I and Guillaume Stirnemann and Valle-Orero, Jessica and Fernandez, Julio M} } @article {2018|2089, title = {Semantics for an Integrative and Immersive Pipeline Combining Visualization and Analysis of Molecular Data.}, journal = {J Integr Bioinform}, volume = {15}, year = {2018}, month = {2018 Jul 09}, abstract = {

The advances made in recent years in the field of structural biology significantly increased the throughput and complexity of data that scientists have to deal with. Combining and analyzing such heterogeneous amounts of data became a crucial time consumer in the daily tasks of scientists. However, only few efforts have been made to offer scientists an alternative to the standard compartmentalized tools they use to explore their data and that involve a regular back and forth between them. We propose here an integrated pipeline especially designed for immersive environments, promoting direct interactions on semantically linked 2D and 3D heterogeneous data, displayed in a common working space. The creation of a semantic definition describing the content and the context of a molecular scene leads to the creation of an intelligent system where data are (1) combined through pre-existing or inferred links present in our hierarchical definition of the concepts, (2) enriched with suitable and adaptive analyses proposed to the user with respect to the current task and (3) interactively presented in a unique working environment to be explored.

}, keywords = {Computer Graphics, Humans, Imaging, Three-Dimensional, Models, Structural, Semantics, Software, Statistics as Topic, User-Computer Interface}, issn = {1613-4516}, doi = {10.1515/jib-2018-0004}, author = {Trellet, Mikael and Nicolas F{\'e}rey and Floty{\'n}ski, Jakub and Marc Baaden and Bourdot, Patrick} } @article {2018|2059, title = {A Streamlined, General Approach for Computing Ligand Binding Free Energies and Its Application to GPCR-Bound Cholesterol.}, journal = {Journal of Chemical Theory and Computation}, volume = {14}, year = {2018}, pages = {6560{\textendash}6573}, abstract = {

The theory of receptor-ligand binding equilibria has long been well-established in biochemistry, and was primarily constructed to describe dilute aqueous solutions. Accordingly, few computational approaches have been developed for making quantitative predictions of binding probabilities in environments other than dilute isotropic solution. Existing techniques, ranging from simple automated docking procedures to sophisticated thermodynamics-based methods, have been developed with soluble proteins in mind. Biologically and pharmacologically relevant protein-ligand interactions often occur in complex environments, including lamellar phases like membranes and crowded, nondilute solutions. Here, we revisit the theoretical bases of ligand binding equilibria, avoiding overly specific assumptions that are nearly always made when describing receptor-ligand binding. Building on this formalism, we extend the asymptotically exact Alchemical Free Energy Perturbation technique to quantifying occupancies of sites on proteins in a complex bulk, including phase-separated, anisotropic, or nondilute solutions, using a thermodynamically consistent and easily generalized approach that resolves several ambiguities of current frameworks. To incorporate the complex bulk without overcomplicating the overall thermodynamic cycle, we simplify the common approach for ligand restraints by using a single distance-from-bound-configuration (DBC) ligand restraint during AFEP decoupling from protein. DBC restraints should be generalizable to binding modes of most small molecules, even those with strong orientational dependence. We apply this approach to compute the likelihood that membrane cholesterol binds to known crystallographic sites on three GPCRs (β -adrenergic, 5HT-2B, and μ-opioid) at a range of concentrations. Nonideality of cholesterol in a binary cholesterol:phosphatidylcholine (POPC) bilayer is characterized and consistently incorporated into the interpretation. We find that the three sites exhibit very different affinities for cholesterol: The site on the adrenergic receptor is predicted to be high affinity, with 50\% occupancy for 1:10 CHOL:POPC mixtures. The sites on the 5HT-2B and μ-opioid receptor are predicted to be lower affinity, with 50\% occupancy for 1:10 CHOL:POPC and 1:10 CHOL:POPC, respectively. These results could not have been predicted from the crystal structures alone.

}, issn = {1549-9626}, doi = {10.1021/acs.jctc.8b00447}, author = {Salari, Reza and Joseph, Thomas and Lohia, Ruchi and J{\'e}r{\^o}me H{\'e}nin and Brannigan, Grace} } @inbook {2018|2083, title = {Structure and function of natural proteins for water transport: general discussion.}, booktitle = {Faraday Discuss}, volume = {209}, year = {2018}, month = {2018 09 28}, pages = {83-95}, keywords = {Molecular Structure, Proteins, Water}, issn = {1364-5498}, doi = {10.1039/c8fd90019a}, author = {Marc Baaden and Barboiu, Mihail and Bill, Roslyn M and Casanova, Serena and Chen, Chun-Long and Conner, Matthew and Freger, Viatcheslav and Gong, Bing and G{\'o}ra, Artur and Hinds, Bruce and Horner, Andreas and Hummer, Gerhard and Kumar, Manish and Lokesh, Mahesh and Mitra, Sushanta and Noy, Aleksandr and Pohl, Peter and Sadet, Aude and Sansom, Mark and T{\"o}rnroth-Horsefield, Susanna and Vashisth, Harish} } @booklet {2018|2066, title = {Ten simple rules to create a serious game, illustrated with examples from structural biology}, year = {2018}, author = {Marc Baaden and Delalande, Olivier and Nicolas F{\'e}rey and Pasquali, Samuela and Waldisp{\"u}hl, J{\'e}r{\^o}me and Antoine Taly} } @article {2018|2138, title = {Three Weaknesses for Three Perturbations: Comparing Protein Unfolding Under Shear, Force, and Thermal Stresses}, journal = {J Phys Chem B}, volume = {122}, year = {2018}, month = {Dec}, pages = {11922-11930}, abstract = {

The perturbation of a protein conformation by a physiological fluid flow is crucial in various biological processes including blood clotting and bacterial adhesion to human tissues. Investigating such mechanisms by computer simulations is thus of great interest, but it requires development of ad hoc strategies to mimic the complex hydrodynamic interactions acting on the protein from the surrounding flow. In this study, we apply the Lattice Boltzmann Molecular Dynamics (LBMD) technique built on the implicit solvent coarse-grained model for protein Optimized Potential for Efficient peptide structure Prediction (OPEP) and a mesoscopic representation of the fluid solvent, to simulate the unfolding of a small globular cold-shock protein in shear flow and to compare it to the unfolding mechanisms caused either by mechanical or thermal perturbations. We show that each perturbation probes a specific weakness of the protein and causes the disruption of the native fold along different unfolding pathways. Notably, the shear flow and the thermal unfolding exhibit very similar pathways, while because of the directionality of the perturbation, the unfolding under force is quite different. For force and thermal disruption of the native state, the coarse-grained simulations are compared to all-atom simulations in explicit solvent, showing an excellent agreement in the explored unfolding mechanisms. These findings encourage the use of LBMD based on the OPEP model to investigate how a flow can affect the function of larger proteins, for example, in catch-bond systems.

}, doi = {10.1021/acs.jpcb.8b08711}, author = {Languin-Catto{\"e}n, Olivier and Melchionna, Simone and Philippe Derreumaux and Guillaume Stirnemann and Sterpone, Fabio} } @article {2018|2133, title = {Water dynamics in concentrated electrolytes: Local ion effect on hydrogen-bond jumps rather than collective coupling to ion clusters}, journal = {Proc Natl Acad Sci U S A}, volume = {115}, year = {2018}, month = {05}, pages = {E4953-E4954}, doi = {10.1073/pnas.1803988115}, author = {Guillaume Stirnemann and Jungwirth, Pavel and Laage, Damien} } @article {2018|2090, title = {Water permeation across artificial I-quartet membrane channels: from structure to disorder.}, journal = {Faraday Discuss}, volume = {209}, year = {2018}, month = {2018 09 28}, pages = {125-148}, abstract = {

Artificial water channels (AWCs) have been designed for water transport across membranes with the aim to mimic the high water permeability observed for biological systems such as aquaporins (\∼108-109 water molecules per s per channel), as well as their selectivity to reject ion permeation at the same time. Recent works on designed self-assembling alkylureido-ethylimidazole compounds forming imidazole-quartet channels (I-quartets), have shown both high water permeability and total ionic-rejection. I-quartets are thus promising candidates for further development of AWCs. However, the molecular mechanism of water permeation as well as I-quartet organization and stability in a membrane environment need to be fully understood to guide their optimal design. Here, we use a wide range of all-atom molecular dynamics (MD) simulations and their analysis to understand the structure/activity relationships of the I-quartet channels. Four different types with varying alkyl chain length or chirality have been studied in a complex fully hydrated lipid bilayer environment at both microsecond and nanosecond scale. Microsecond simulations show two distinct behaviors; (i) two out of four systems maintain chiral dipolar oriented water wires, but also undergo a strong reorganization of the crystal shape, (ii) the two other I-quartet channels completely lose the initial organization, nonetheless keeping a water transport activity. Short MD simulations with higher time resolution were conducted to characterize the dynamic properties of water molecules in these model channels and provided a detailed hypothesis on the molecular mechanism of water permeation. The ordered confined water was characterized with quantitative measures of hydrogen-bond life-time and single particle dynamics, showing variability among I-quartet channels. We will further discuss the underlying assumptions, currently based on self-aggregation simulations and crystal patches embedded in lipid bilayer simulations and attempt to describe possible alternative approaches to computationally capture the water permeation mechanism and the self-assembly process of these AWCs.

}, issn = {1364-5498}, doi = {10.1039/c8fd00046h}, author = {Murail, Samuel and Vasiliu, Tudor and Neamtu, Andrei and Barboiu, Mihail and Sterpone, Fabio and Marc Baaden} } @article {2017|2024, title = {Ab Initio Simulations of Water Dynamics in Aqueous TMAO Solutions: Temperature and Concentration Effects}, journal = {J Phys Chem B}, year = {2017}, month = {Dec}, abstract = {

We use ab initio molecular dynamics simulation to study the effect of hydrophobic groups on the dynamics of water molecules in aqueous solutions of trimethylamine N-oxide (TMAO). We show that hydrophobic groups induce a moderate (\<2-fold) slowdown of water reorientation and hydrogen-bond dynamics in dilute solutions, but that this slowdown rapidly increases with solute concentration. In addition, the slowdown factor is found to vary very little with temperature, thus suggesting an entropic origin. All of these results are in quantitative agreement with prior classical molecular dynamics simulations and with the previously suggested excluded-volume model. The hydrophilic TMAO headgroup is found to affect water dynamics more strongly than the hydrophobic moiety, and the magnitude of this slowdown is very sensitive to the strength of the water-solute hydrogen-bond.

}, doi = {10.1021/acs.jpcb.7b09989}, author = {Guillaume Stirnemann and Elise Dubou{\'e}-Dijon and Laage, Damien} } @article {2017|2022, title = {ATP hydrolysis provides functions that promote rejection of pairings between different copies of long repeated sequences}, journal = {Nucleic Acids Res}, volume = {45}, year = {2017}, pages = {8448-8462}, abstract = {

During DNA recombination and repair, RecA family proteins must promote rapid joining of homologous DNA. Repeated sequences with \>100 base pair lengths occupy more than 1\% of bacterial genomes; however, commitment to strand exchange was believed to occur after testing ~20-30 bp. If that were true, pairings between different copies of long repeated sequences would usually become irreversible. Our experiments reveal that in the presence of ATP hydrolysis even 75 bp sequence-matched strand exchange products remain quite reversible. Experiments also indicate that when ATP hydrolysis is present, flanking heterologous dsDNA regions increase the reversibility of sequence matched strand exchange products with lengths up to ~75 bp. Results of molecular dynamics simulations provide insight into how ATP hydrolysis destabilizes strand exchange products. These results inspired a model that shows how pairings between long repeated sequences could be efficiently rejected even though most homologous pairings form irreversible products.

}, doi = {10.1093/nar/gkx582}, author = {Danilowicz, Claudia and Hermans, Laura and Coljee, Vincent and Chantal Pr{\'e}vost and Prentiss, Mara} } @article {2017|2039, title = {A Computational Methodology to Overcome the Challenges Associated With the Search for Specific Enzyme Targets to Develop Drugs Against.}, journal = {Bioinform Biol Insights}, volume = {11}, year = {2017}, month = {2017}, pages = {1177932217712471}, abstract = {

We present an approach for detecting enzymes that are specific ofcompared withand provide targets that may assist research in drug development. This approach is based on traditional techniques of sequence homology comparison by similarity search and Markov modeling; it integrates the characterization of enzymatic functionality, secondary and tertiary protein structures, protein domain architecture, and metabolic environment. From 67 enzymes represented by 42 enzymatic activities classified by AnEnPi (Analogous Enzymes Pipeline) as specific forcompared with, only 40 (23 Enzyme Commission [EC] numbers) could actually be considered as strictly specific ofand 27 enzymes (19 EC numbers) were disregarded for having ambiguous homologies or analogies with. Among the 40 strictly specific enzymes, we identified sterol 24-C-methyltransferase, pyruvate phosphate dikinase, trypanothione synthetase, and RNA-editing ligase as 4 essential enzymes forthat may serve as targets for drug development.

}, issn = {1177-9322}, doi = {10.1177/1177932217712471}, author = {Catharina, Larissa and Lima, Carlyle Ribeiro and Franca, Alexander and Guimar{\~a}es, Ana Carolina Ramos and Alves-Ferreira, Marcelo and Tuffery, Pierre and Philippe Derreumaux and Carels, Nicolas} } @article {2017|2033, title = {Configurational Disorder of Water Hydrogen Bond Network at the Protein Dynamical Transition}, volume = {121}, year = {2017}, pages = {6792-6798}, author = {O. Rahaman and M. Kalimeri and M. Katava and A. Paciaroni and F. Sterpone} } @article {2017|2032, title = {Conformational Ensembles of the Wild-Type and S8C Aβ1-42 Dimers.}, journal = {J Phys Chem B}, volume = {121}, year = {2017}, month = {2017 Mar 23}, pages = {2434-2442}, abstract = {

We characterized the dimer of the amyloid-β wild-type (WT) peptide, Aβ, of 42 residues and its disulfide-bond-locked double mutant (S8C) by replica exchange molecular dynamics simulations. Aβ dimers are known to be the smallest toxic species in Alzheimer\&$\#$39;s disease, and the S8C mutant has been shown experimentally to form an exclusive homogeneous and neurotoxic dimer. Our 50 μs all-atom simulations reveal similar secondary structures and collision cross-sections but very different intramolecular and intermolecular conformations upon double S8C mutation. Both dimers are very dynamic with hundreds of free-energy minima that differ from the U-shape and S-shape conformations of the peptides in the fibrils. The only common structural feature, shared by both species with a probability of 4\% in WT and 12\% in S8C-S8C, is a three-stranded β-sheet spanning the 17-23, 29-36, and 39-41 residues, which does not exist in the Aβ40 WT dimers.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.7b00267}, author = {Man, Viet Hoang and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2017|2025, title = {Critical structural fluctuations of proteins upon thermal unfolding challenge the Lindemann criterion}, journal = {Proc Natl Acad Sci U S A}, volume = {114}, year = {2017}, month = {Aug}, pages = {9361-9366}, abstract = {

Internal subnanosecond timescale motions are key for the function of proteins, and are coupled to the surrounding solvent environment. These fast fluctuations guide protein conformational changes, yet their role for protein stability, and for unfolding, remains elusive. Here, in analogy with the Lindemann criterion for the melting of solids, we demonstrate a common scaling of structural fluctuations of lysozyme protein embedded in different environments as the thermal unfolding transition is approached. By combining elastic incoherent neutron scattering and advanced molecular simulations, we show that, although different solvents modify the protein melting temperature, a unique dynamical regime is attained in proximity of thermal unfolding in all solvents that we tested. This solvation shell-independent dynamical regime arises from an equivalent sampling of the energy landscape at the respective melting temperatures. Thus, we propose that a threshold for the conformational entropy provided by structural fluctuations of proteins exists, beyond which thermal unfolding is triggered.

}, keywords = {cell thermal stability, Lindemann criterion, Molecular Dynamics Simulation, neutron scattering, protein dynamics}, doi = {10.1073/pnas.1707357114}, author = {Katava, Marina and Guillaume Stirnemann and Zanatta, Marco and Capaccioli, Simone and Pachetti, Maria and Ngai, K L and Sterpone, Fabio and Paciaroni, Alessandro} } @article {2017|2020, title = {Determinants of neuroglobin plasticity highlighted by joint coarse-grained simulations and high pressure crystallography}, journal = {Sci Rep}, volume = {7}, year = {2017}, month = {May}, pages = {1858}, author = {Colloc{\textquoteright}h, N. and S Sacquin-Mora and Avella, G. and Dhaussy, A. C. and Prange, T. and Vallone, B. and Girard, E.} } @article {2017|2041, title = {Fast coarse-grained model for RNA titration.}, journal = {J Chem Phys}, volume = {146}, year = {2017}, month = {2017 Jan 21}, pages = {035101}, abstract = {

A new numerical scheme for RNA (ribonucleic acid) titration based on the Debye-H{\"u}ckel framework for the salt description is proposed in an effort to reduce the computational costs for further applications to study protein-RNA systems. By means of different sets of Monte Carlo simulations, we demonstrated that this new scheme is able to correctly reproduce the experimental titration behavior and salt pKshifts. In comparison with other theoretical approaches, similar or even better outcomes are achieved at much lower computational costs. The model was tested on the lead-dependent ribozyme, the branch-point helix, and the domain 5 from Azotobacter vinelandii Intron 5.

}, keywords = {Azotobacter vinelandii, Introns, Models, Chemical, Molecular Dynamics Simulation, Monte Carlo Method, Protein Structure, Secondary, Protons, RNA, RNA, Catalytic, Titrimetry}, issn = {1089-7690}, doi = {10.1063/1.4972986}, author = {Barroso da Silva, Fernando Luis and Philippe Derreumaux and Pasquali, Samuela} } @article {2017|2031, title = {High-Resolution Structures of the Amyloid-β 1-42 Dimers from the Comparison of Four Atomistic Force Fields.}, journal = {J Phys Chem B}, volume = {121}, year = {2017}, month = {2017 Jun 22}, pages = {5977-5987}, abstract = {

The dimer of the amyloid-β peptide Aβ of 42 residues is the smallest toxic species in Alzheimer\&$\#$39;s disease, but its equilibrium structures are unknown. Here we determined the equilibrium ensembles generated by the four atomistic OPLS-AA, CHARMM22*, AMBER99sb-ildn, and AMBERsb14 force fields with the TIP3P water model. On the basis of 144 μs replica exchange molecular dynamics simulations (with 750 ns per replica), we find that the four force fields lead to random coil ensembles with calculated cross-collision sections, hydrodynamics properties, and small-angle X-ray scattering profiles independent of the force field. There are, however, marked differences in secondary structure, with the AMBERsb14 and CHARMM22* ensembles overestimating the CD-derived helix content, and the OPLS-AA and AMBER99sb-ildn secondary structure contents in agreement with CD data. Also the intramolecular beta-hairpin content spanning residues 17-21 and 30-36 varies between 1.5\% and 13\%. Overall, there are significant differences in tertiary and quaternary conformations among all force fields, and the key finding, irrespective of the force field, is that the dimer is stabilized by nonspecific interactions, explaining therefore its possible transient binding to multiple cellular partners and, in part, its toxicity.

}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.7b04689}, author = {Man, Viet Hoang and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2017|2023, title = {Mechanics of Protein Adaptation to High Temperatures}, journal = {J Phys Chem Lett}, volume = {8}, year = {2017}, month = {Dec}, pages = {5884-5890}, abstract = {

Inspired by Somero\&$\#$39;s corresponding state principle that relates protein enhanced thermal stability with mechanical rigidity, we deployed state of the art computational techniques (based on atomistic steered molecular dynamics and Hamiltonian-replica exchange simulations) to study the in silico realization of mechanical and thermal unfolding of two homologous Csp proteins that have evolved to thrive in different thermal environments. By complementing recent single-molecule experiments, we unambiguously show that, for these homologues whose structures are very similar, the increased thermal resistance of the thermophilic variant is not associated with an increased mechanical stability. Our approach provides microscopic insights that are otherwise inaccessible to experimental techniques, and explains why the protein weak spots for thermal and mechanical denaturation are distinct.

}, doi = {10.1021/acs.jpclett.7b02611}, author = {Guillaume Stirnemann and Sterpone, Fabio} } @article {2017|2021, title = {A membrane-inserted structural model of the yeast mitofusin Fzo1}, journal = {Sci Rep}, volume = {7}, year = {2017}, month = {2017 Aug 31}, pages = {10217}, type = {Research Article}, abstract = {

Mitofusins are large transmembrane GTPases of the dynamin-related protein family, and are required for the tethering and fusion of mitochondrial outer membranes. Their full-length structures remain unknown, which is a limiting factor in the study of outer membrane fusion. We investigated the structure and dynamics of the yeast mitofusin Fzo1 through a hybrid computational and experimental approach, combining molecular modelling and all-atom molecular dynamics simulations in a lipid bilayer with site-directed mutagenesis and in vivo functional assays. The predicted architecture of Fzo1 improves upon the current domain annotation, with a precise description of the helical spans linked by flexible hinges, which are likely of functional significance. In vivo site-directed mutagenesis validates salient aspects of this model, notably, the long-distance contacts and residues participating in hinges. GDP is predicted to interact with Fzo1 through the G1 and G4 motifs of the GTPase domain. The model reveals structural determinants critical for protein function, including regions that may be involved in GTPase domain-dependent rearrangements.

}, issn = {2045-2322}, doi = {10.1038/s41598-017-10687-2}, author = {De Vecchis, Dario and Cavellini, Laetitia and Marc Baaden and J{\'e}r{\^o}me H{\'e}nin and Cohen, Micka{\"e}l M and Antoine Taly} } @article {2017, title = {Mobility and core-protein binding patterns of disordered C-terminal tails in β-tubulin isotypes.}, journal = {Biochemistry}, volume = { 56}, year = {2017}, pages = {1746{\textendash}1756}, chapter = {1746}, abstract = {

Although they play a significant part in the regulation of microtubule structure, dynamics and function, the disordered C-terminal tails of tubulin remain invisible to experimental structural methods and do not appear in the crystallographic structures that are currently available in the Protein Data Bank. Interestingly, these tails concentrate most of the sequence variability between tubulin isotypes, and are the sites of the principal post-translational modifications undergone by this protein. Using homology modeling, we developed two complete models for the human αI/βI and αI/βIII tubulin isotypes that include their C-terminal tails. We then investigated the conformational variability of the two β-tails using long time-scale classical Molecular Dynamics (MD) simulations that revealed similar features, notably the unexpected presence of common anchoring regions on the surface of the tubulin dimer, but also distinctive mobility or interaction patterns, some of which could be related to the tail lengths and charge distributions. We also observed in our simulations that the C-terminal tail from the βI isotype, but not the βIII, formed contacts in the putative binding site of a recently discovered peptide that disrupts microtubule formation in glioma cells. Hindering the binding site in the βI isotype would be consistent with this peptide\’s preferential disruption of microtubule formation in glioma, whose cells overexpress βIII, compared to normal glial cells. While these observations need to be confirmed with more intensive sampling, our study opens up new perspectives for the development of isotype-specific chemotherapy drugs.

}, doi = {10.1021/acs.biochem.6b00988}, author = {Laurin, Yoann and Eyer, Joel and Charles H. Robert and Chantal Pr{\'e}vost and S Sacquin-Mora} } @conference {2017|2101, title = {Molecular Visualization of Computational Biology Data: A Survey of Surveys}, booktitle = {EuroVis 2017 - Short Papers}, year = {2017}, publisher = {The Eurographics Association}, organization = {The Eurographics Association}, isbn = {978-3-03868-043-7}, doi = {10.2312/eurovisshort.20171146}, author = {Alharbi, Naif and Alharbi, Mohammad and Martinez, Xavier and Krone, Michael and Rose, Alexander S. and Marc Baaden and Laramee, Robert S. and Chavent, Matthieu}, editor = {Barbora Kozlikova and Tobias Schreck and Thomas Wischgoll} } @article {2017|2037, title = {Multifunctional energy landscape for a DNA G-quadruplex: An evolved molecular switch.}, journal = {J Chem Phys}, volume = {147}, year = {2017}, month = {2017 Oct 21}, pages = {152715}, abstract = {

We explore the energy landscape for a four-fold telomere repeat, obtaining interconversion pathways between six experimentally characterised G-quadruplex topologies. The results reveal a multi-funnel system, with a variety of intermediate configurations and misfolded states. This organisation is identified with the intrinsically multi-functional nature of the system, suggesting a new paradigm for the classification of such biomolecules and clarifying issues regarding apparently conflicting experimental results.

}, issn = {1089-7690}, doi = {10.1063/1.4997377}, author = {Cragnolini, Tristan and Chakraborty, Debayan and Sponer, Jiri and Philippe Derreumaux and Pasquali, Samuela and Wales, David J} } @article {2017|2029, title = {Multi-scale simulations of biological systems using the OPEP coarse-grained model.}, journal = {Biochem Biophys Res Commun}, year = {2017}, month = {2017 Sep 14}, abstract = {

Biomolecules are complex machines that are optimized by evolution to properly fulfill or contribute to a variety of biochemical tasks in the cellular environment. Computer simulations based on quantum mechanics and atomistic force fields have been proven to be a powerful microscope for obtaining valuable insights into many biological, physical, and chemical processes. Many interesting phenomena involve, however, a time scale and a number of degrees of freedom, notably if crowding is considered, that cannot be explored at an atomistic resolution. To bridge the gap between reality and simulation, many different advanced computational techniques and coarse-grained (CG) models have been developed. Here, we report some applications of the CG OPEP protein model to amyloid fibril formation, the response of catch-bond proteins to two types of fluid flow, and interactive simulations to fold peptides with well-defined 3D structures or with intrinsic disorder.

}, issn = {1090-2104}, doi = {10.1016/j.bbrc.2017.08.165}, author = {Sterpone, Fabio and Doutreligne, S{\'e}bastien and Tran, Thanh Thuy and Melchionna, Simone and Marc Baaden and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2017|2028, title = {New Coarse Variables for the Accurate Determination of Standard Binding Free Energies}, journal = {J Chem Theory Comput}, volume = {13}, year = {2017}, month = {2017 Nov 14}, pages = {5173-5178}, abstract = {

To improve sampling of the configurational entropy change upon protein-ligand binding, we have introduced a new set of coarse variables describing the relative orientation and position of the ligand via a global macromolecular orientational procedure, onto which geometrical restraints are applied. Evaluating the potential of mean force for the different coarse variables, the experimental standard binding free energy for three decapeptides associated with the SH3 domain of the Abl kinase is reproduced quantitatively.

}, issn = {1549-9626}, doi = {10.1021/acs.jctc.7b00791}, author = {Fu, Haohao and Cai, Wensheng and J{\'e}r{\^o}me H{\'e}nin and Roux, Beno{\^\i}t and Chipot, Christophe} } @article {2017|2038, title = {Protein-RNA complexation driven by the charge regulation mechanism.}, journal = {Biochem Biophys Res Commun}, year = {2017}, month = {2017 Jul 12}, abstract = {

Electrostatic interactions play a pivotal role in many (bio)molecular association processes. The molecular organization and function in biological systems are largely determined by these interactions from pure Coulombic contributions to more peculiar mesoscopic forces due to ion-ion correlation and proton fluctuations. The latter is a general electrostatic mechanism that gives attraction particularly at low electrolyte concentrations. This charge regulation mechanism due to titrating amino acid and nucleotides residues is discussed here in a purely electrostatic framework. By means of constant-pH Monte Carlo simulations based on a fast coarse-grained titration proton scheme, a new computer molecular model was devised to study protein-RNA interactions. The complexation between the RNA silencing suppressor p19 viral protein and the 19-bp small interfering RNA was investigated at different solution pH and salt conditions. The outcomes illustrate the importance of the charge regulation mechanism that enhances the association between these macromolecules in a similar way as observed for other protein-polyelectrolyte systems typically found in colloidal science. Due to the highly negative charge of RNA, the effect is more pronounced in this system as predicted by the Kirkwood-Shumaker theory. Our results contribute to the general physico-chemical understanding of macromolecular complexation and shed light on the extensive role of RNA in the cell\&$\#$39;s life.

}, issn = {1090-2104}, doi = {10.1016/j.bbrc.2017.07.027}, author = {Barroso da Silva, Fernando Luis and Philippe Derreumaux and Pasquali, Samuela} } @article {2017|2095, title = {Residues of Alpha Helix H3 Determine Distinctive Features of Transforming Growth Factor β3.}, journal = {J Phys Chem B}, volume = {121}, year = {2017}, month = {2017 06 08}, pages = {5483-5498}, abstract = {

Transforming growth factors (TGF-βs) are proteins that regulate cell growth by binding to their receptors. In contrast to transforming growth factor (TGF) β1, TGF-β3 homodimer is believed to exist also in an open conformation, in which both of its monomers are loosely packed against each other. At the origin of this difference is the H3-helix. Its sequence and degree of structuration seem to govern the outcome of TGF dimerization. We docked two monomers of TGF-β3 with intact and altered H3 α-helix against each other using HADDOCK. TGF-β3 monomer with an intact H3-helix exclusively forms closed conformations of homodimer, whereas the open conformation may coexist with the closed one when a part of the H3 α-helix is destabilized. We quantify the difference in its conformational preference for the open versus the closed structure by calculating the binding energy between monomers using the MMPBSA approach. We compare the wild type (wt) TGFβ3/TGFβ1 homodimers in the Protein Data Bank to a swapped mutant where all residues of the H3-helix were mutated to the respective TGFβ1/TGFβ3 sequence. Swapping stabilizes the closed conformation and destabilizes the open conformation of TGFβ3. Further detailed insight is derived from molecular dynamics simulation studies suggesting that Val 61 of the H3-helix may act as an anchor residue for the closed conformation of TGFβ3. Computational alanine scanning mutagenesis confirms that several residues of the H3-helix are the hot residues for the closed conformation of TGFβ3. These observations may bear relevance to general conformational transitions in proteins and specifically in the TGFβ superfamily.

}, keywords = {Molecular Dynamics Simulation, Protein Conformation, alpha-Helical, Transforming Growth Factor beta3}, issn = {1520-5207}, doi = {10.1021/acs.jpcb.7b01867}, author = {Nayeem, Shahid M and Oteri, Francesco and Marc Baaden and Deep, Shashank} } @article {2017|2040, title = {Small static electric field strength promotes aggregation-prone structures in amyloid-β(29-42).}, journal = {J Chem Phys}, volume = {146}, year = {2017}, month = {2017 Apr 14}, pages = {145101}, abstract = {

The formation of senile plaques in central neural system resulting from the aggregation of the amyloid β (Aβ) of 40 and 42 residues is one of the two hallmarks of Alzheimer\&$\#$39;s disease. Numerous experiments and computational studies have shown that the aggregation of Aβ peptides in vitro is very complex and depends on many factors such as pH, agitation, temperature, and peptide concentration. The impact of a static electric field (EF) on amyloid peptide aggregation has been much less studied, although EFs may have some applications to treat Parkinson\&$\#$39;s disease symptoms. Here, we study the influence of an EF strength of 20 mV/nm, present in the human brains, on the conformation of the Aβdimer. Our 7 μs non-equilibrium atomistic simulations in aqueous solution show that this field-strength promotes substantially the formation of β-hairpins, believed to be a very important intermediate state during aggregation. This work also suggests that structural biology experiments conducted under appropriate EF strengths may help reduce the conformational heterogeneity of Aβ/Aβdimers and provide significant insights into their structures that may be disease-causing.

}, issn = {1089-7690}, doi = {10.1063/1.4979866}, author = {Lu, Yan and Shi, Xiao-Feng and Salsbury, Freddie R and Philippe Derreumaux} } @article {2017|1686, title = {Smoothed biasing forces yield unbiased free energies with the extended-system Adaptive Biasing Force method}, journal = {J. Phys. Chem. B}, volume = {121}, year = {2017}, month = {dec}, pages = {3676{\textendash}3685}, doi = {10.1021/acs.jpcb.6b10055}, author = {Lesage, A. and Leli{\`e}vre, T. and Stoltz, G. and J{\'e}r{\^o}me H{\'e}nin} } @article {2017|2096, title = {String method solution of the gating pathways for a pentameric ligand-gated ion channel.}, journal = {Proc Natl Acad Sci U S A}, volume = {114}, year = {2017}, month = {2017 05 23}, pages = {E4158-E4167}, abstract = {

Pentameric ligand-gated ion channels control synaptic neurotransmission by converting chemical signals into electrical signals. Agonist binding leads to rapid signal transduction via an allosteric mechanism, where global protein conformational changes open a pore across the nerve cell membrane. We use all-atom molecular dynamics with a swarm-based string method to solve for the minimum free-energy gating pathways of the proton-activated bacterial GLIC channel. We describe stable wetted/open and dewetted/closed states, and uncover conformational changes in the agonist-binding extracellular domain, ion-conducting transmembrane domain, and gating interface that control communication between these domains. Transition analysis is used to compute free-energy surfaces that suggest allosteric pathways; stabilization with pH; and intermediates, including states that facilitate channel closing in the presence of an agonist. We describe a switching mechanism that senses proton binding by marked reorganization of subunit interface, altering the packing of β-sheets to induce changes that lead to asynchronous pore-lining M2 helix movements. These results provide molecular details of GLIC gating and insight into the allosteric mechanisms for the superfamily of pentameric ligand-gated channels.

}, keywords = {Computer Simulation, Ligand-Gated Ion Channels, Models, Biological, Models, Chemical}, issn = {1091-6490}, doi = {10.1073/pnas.1617567114}, author = {Lev, Bogdan and Murail, Samuel and Poitevin, Fr{\'e}d{\'e}ric and Cromer, Brett A and Marc Baaden and Delarue, Marc and Allen, Toby W} } @article {2017|2026, title = {Tailoring protein nanomechanics with chemical reactivity}, journal = {Nat Commun}, volume = {8}, year = {2017}, month = {Jun}, pages = {15658}, abstract = {

The nanomechanical properties of elastomeric proteins determine the elasticity of a variety of tissues. A widespread natural tactic to regulate protein extensibility lies in the presence of covalent disulfide bonds, which significantly enhance protein stiffness. The prevalent in vivo strategy to form disulfide bonds requires the presence of dedicated enzymes. Here we propose an alternative chemical route to promote non-enzymatic oxidative protein folding via disulfide isomerization based on naturally occurring small molecules. Using single-molecule force-clamp spectroscopy, supported by DFT calculations and mass spectrometry measurements, we demonstrate that subtle changes in the chemical structure of a transient mixed-disulfide intermediate adduct between a protein cysteine and an attacking low molecular-weight thiol have a dramatic effect on the protein\&$\#$39;s mechanical stability. This approach provides a general tool to rationalize the dynamics of S-thiolation and its role in modulating protein nanomechanics, offering molecular insights on how chemical reactivity regulates protein elasticity.

}, doi = {10.1038/ncomms15658}, author = {Beedle, Amy E M and Mora, Marc and Lynham, Steven and Guillaume Stirnemann and Garcia-Manyes, Sergi} } @article {2017|2102, title = {Visualization of Biomolecular Structures: State of the Art Revisited: Visualization of Biomolecular Structures}, journal = {Computer Graphics Forum}, volume = {36}, year = {2017}, pages = {178{\textendash}204}, issn = {01677055}, doi = {10.1111/cgf.13072}, url = {http://doi.wiley.com/10.1111/cgf.13072}, author = {Kozlikova, B. and Krone, M. and Falk, M. and Lindow, N. and Marc Baaden and Baum, D. and Viola, I. and Parulek, J. and Hege, H.-C.} } @article {2017|2036, title = {VLITL is a major cross-β-sheet signal for fibrinogen Aα-chain frameshift variants.}, journal = {Blood}, volume = {130}, year = {2017}, month = {2017 12 21}, pages = {2799-2807}, abstract = {

The first case of hereditary fibrinogen Aα-chain amyloidosis was recognized \>20 years ago, but disease mechanisms still remain unknown. Here we report detailed clinical and proteomics studies of a French kindred with a novel amyloidogenic fibrinogen Aα-chain frameshift variant, Phe521Leufs, causing a severe familial form of renal amyloidosis. Next, we focused our investigations to elucidate the molecular basis that render this Aα-chain variant amyloidogenic. We show that a 49-mer peptide derived from the C-terminal part of the Phe521Leufs chain is deposited as fibrils in the patient\&$\#$39;s kidneys, establishing that only a small portion of Phe521Leufs directly contributes to amyloid formation in vivo. In silico analysis indicated that this 49-mer Aα-chain peptide contained a motif (VLITL), with a high intrinsic propensity for β-aggregation at residues 44 to 48 of human renal fibrils. To experimentally verify the amyloid propensity of VLITL, we generated synthetic Phe521Leufs-derived peptides and compared their capacity for fibril formation in vitro with that of their VLITL-deleted counterparts. We show that VLITL forms typical amyloid fibrils in vitro and is a major signal for cross-β-sheet self-association of the 49-mer Phe521Leufs peptide identified in vivo, whereas its absence abrogates fibril formation. This study provides compelling evidence that VLITL confers amyloidogenic properties to Aα-chain frameshift variants, yielding a previously unknown molecular basis for the pathogenesis of Aα-chain amyloidosis.

}, keywords = {Amino Acid Motifs, Amino Acid Sequence, Amyloid, Amyloidosis, Familial, Fibrinogen, Frameshift Mutation, Humans, Kidney, Protein Conformation, beta-Strand}, issn = {1528-0020}, doi = {10.1182/blood-2017-07-796185}, author = {Garnier, Cyrille and Briki, Fatma and Nedelec, Brigitte and Le Pogamp, Patrick and Dogan, Ahmet and Rioux-Leclercq, Nathalie and Goude, Renan and Beugnet, Caroline and Martin, Laurent and Delpech, Marc and Bridoux, Frank and Grateau, Gilles and Doucet, Jean and Philippe Derreumaux and Valleix, Sophie} } @article {2017|2043, title = {Weak nanoscale chaos and anomalous relaxation in DNA}, journal = {Phys. Rev. E}, volume = {95}, year = {2017}, pages = {062417}, doi = {https://doi.org/10.1103/PhysRevE.95.062417}, author = {Alexey K. Mazur} } @article {2017|2042, title = {What Can Human-Guided Simulations Bring to RNA Folding?}, journal = {Biophys J}, volume = {113}, year = {2017}, month = {2017 Jul 25}, pages = {302-312}, abstract = {

Inspired by the recent success of scientific-discovery games for predicting protein tertiary and RNA secondary structures, we have developed an open software for coarse-grained RNA folding simulations, guided by human intuition. To determine the extent to which interactive simulations can accurately predict 3D RNA structures of increasing complexity and lengths (four RNAs with 22-47 nucleotides), an interactive experiment was conducted with 141 participants who had very little knowledge of nucleic acids systems and computer simulations, and had received only a brief description of the important forces stabilizing RNA structures. Their structures and full trajectories have been analyzed statistically and compared to standard replica exchange molecular dynamics simulations. Our analyses show that participants gain easily chemical intelligence to fold simple and nontrivial topologies, with little computer time, and this result opens the door for the use of human-guided simulations to RNA folding. Our experiment shows that interactive simulations have better chances of success when the user widely explores the conformational space. Interestingly, providing on-the-fly feedback of the root mean square deviation with respect to the experimental structure did not improve the quality of the proposed models.

}, keywords = {Access to Information, Computer Simulation, Feedback, Psychological, Humans, Internet, Models, Genetic, Models, Molecular, RNA, RNA Folding, Software, Solvents}, issn = {1542-0086}, doi = {10.1016/j.bpj.2017.05.047}, author = {Mazzanti, Liuba and Doutreligne, S{\'e}bastien and Gageat, Cedric and Philippe Derreumaux and Antoine Taly and Marc Baaden and Pasquali, Samuela} } @article {2017|2030, title = {Why Is Research on Amyloid-β Failing to Give New Drugs for Alzheimer{\textquoteright}s Disease?}, journal = {ACS Chem Neurosci}, volume = {8}, year = {2017}, month = {2017 Jul 19}, pages = {1435-1437}, abstract = {

The two hallmarks of Alzheimer\&$\#$39;s disease (AD) are the presence of neurofibrillary tangles (NFT) made of aggregates of the hyperphosphorylated tau protein and of amyloid plaques composed of amyloid-β (Aβ) peptides, primarily Aβ1-40 and Aβ1-42. Targeting the production, aggregation, and toxicity of Aβ with small molecule drugs or antibodies is an active area of AD research due to the general acceptance of the amyloid cascade hypothesis, but thus far all drugs targeting Aβ have failed. From a review of the recent literature and our own experience based on in vitro, in silico, and in vivo studies, we present some reasons to explain this repetitive failure.

}, keywords = {Alzheimer Disease, Amyloid beta-Peptides, Animals, Drug Discovery, Humans, Neuroprotective Agents}, issn = {1948-7193}, doi = {10.1021/acschemneuro.7b00188}, author = {Doig, Andrew J and Del Castillo-Frias, Maria P and Berthoumieu, Olivia and Tarus, Bogdan and Nasica-Labouze, Jessica and Sterpone, Fabio and Phuong Hoang Nguyen and Hooper, Nigel M and Faller, Peter and Philippe Derreumaux} } @conference {2016|1606, title = {Alzheimer{\textquoteright}s Disease: Insights into Amyloid Fibril Formation from Lattice Monte Carlo Simulations}, booktitle = {Biophys. J.}, volume = {110}, number = {3, 1}, year = {2016}, note = {60th Annual Meeting of the Biophysical-Society, Los Angeles, CA, FEB 27-MAR 02, 2016}, month = {feb}, pages = {219A}, publisher = {Biophys Soc}, organization = {Biophys Soc}, issn = {0006-3495}, author = {Thanh-Thuy Tran and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2016|2115, title = {Aβ41 Aggregates More Like Aβ40 than Like Aβ42: In Silico and in Vitro Study}, journal = {The Journal of Physical Chemistry B}, volume = {120}, year = {2016}, pages = {7371{\textendash}7379}, author = {Nguyen, Hoang Linh and Thi Minh Thu, Tran and Truong, Phan Minh and Lan, Pham Dang and Man, Viet Hoang and Phuong Hoang Nguyen and Tu, Ly Anh and Chen, Yi-Cheng and Li, Mai Suan} } @inbook {2016|1721, title = {Bridging Enzymatic Structure Function via Mechanics: A Coarse-Grain Approach}, booktitle = {Methods in Enzymology}, year = {2016}, pages = {227{\textendash}248}, publisher = {Academic Press}, organization = {Academic Press}, keywords = {Coarse-grain simulations}, issn = {0076-6879}, doi = {10.1016/bs.mie.2016.05.022}, url = {http://www.sciencedirect.com/science/article/pii/S007668791630057X}, author = {S Sacquin-Mora} } @article {2016|1656, title = {Coarse-grained and All-atom Simulations towards the Early and Late Steps of Amyloid Fibril Formation}, journal = {Isr. J. Chem.}, volume = {DOI: 10.1002/ijch.201600048.}, year = {2016}, author = {M. Chiricotto and Thanh-Thuy Tran and Phuong Hoang Nguyen and S. Melchionna and Fabio Sterpone and Philippe Derreumaux} } @article {2016|1707, title = {Coarse-Grained Simulations Complemented by Atomistic Molecular Dynamics Provide New Insights into Folding and Unfolding of Human Telomeric G-Quadruplexes}, journal = {J. Chem. Theory Comput.}, volume = {12}, number = {12}, year = {2016}, month = {dec}, pages = {6077{\textendash}6097}, abstract = {G-quadruplexes are the most important non canonical DNA architectures. Many quadruplex-forming sequences, including the human telomeric sequence d(GGGTTA)(n), have been investigated due to their implications in cancer and other diseases, and because of their potential in DNA-based nanotechnology. Despite the availability of atomistic structural studies of folded G-quadruplexes, their folding pathways remain mysterious, and mutually contradictory models of folding coexist in the literature. Recent experiments convincingly demonstrated that G-quadruplex folding often takes days to reach thermodynamic equilibrium. Based on atomistic simulations of diverse classes of intermediates in G-quadruplex folding, we have suggested that the folding is an extremely multipathway process combining a kinetic partitioning mechanism with conformational diffusion. However, complete G-quadruplex folding is far beyond the time scale of atomistic simulations. Here we use high-resolution coarse-grained simulations to investigate potential unfolding intermediates, whose structural dynamics are then further explored with all-atom simulations. This multiscale approach indicates how various pathways are interconnected in a complex network. Spontaneous conversions between different folds are observed. We demonstrate the inability of simple order parameters, such as radius of gyration or the number of native H-bonds, to describe the folding landscape of the G-quadruplexes. Our study also provides information relevant to further development of the coarse grained force field.}, issn = {1549-9618}, doi = {10.1021/acs.jctc.6b00667}, author = {Stadlbauer, Petr and Mazzanti, Liuba and Cragnolini, Tristan and Wales, David J. and Philippe Derreumaux and Pasquali, Samuela and Sponer, Jiri} } @article {2016|1712, title = {Dimerization Mechanism of Alzheimer A beta(40) Peptides: The High Content of Intrapeptide-Stabilized Conformations in A2V and A2T Heterozygous Dimers Retards Amyloid Fibril Formation}, journal = {J. Phys. Chem. B}, volume = {120}, number = {47}, year = {2016}, pages = {12111{\textendash}12126}, abstract = {Amyloid beta (A beta) oligomerization is associated with the origin and progression of Alzheimer{\textquoteright}s disease (AD). While the A2V mutation enhances aggregation kinetics and toxicity, mixtures of wild-type (WT) and A2V, and also WT and A2T, peptides retard fibril formation and protect against AD. In this study, we simulate the equilibrium ensemble of WT:A2T A beta(40) dimer by means of extensive atomistic replica exchange molecular dynamics and compare our results with previous equivalent simulations of A2V:A2V, WT:WT, and WT:A2V A beta(40) dimers for a total time scale of nearly 0.1 ms. Qualitative comparison of the resulting thermodynamic properties, such as the relative binding free energies, with the reported experimental kinetic and thermodynamic data affords us important insight into the conversion from slow-pathway to fast-pathway dimer conformations. The crucial reaction coordinate or driving force of such transformation turns out to be related to hydrophobic interpeptide interactions. Analysis of the equilibrium ensembles shows that the fast-pathway conformations contain interpeptide out-of-register antiparallel beta-sheet structures at short interpeptide distances. In contrast, the slow-pathway conformations are formed by the association of peptides at large interpeptide distances and high intrapeptide compactness, such as conformations containing intramolecular three-stranded beta-sheets which sharply distinguish fast (A2V:A2V and WT:WT) and slow (WT:A2T and WT:A2V) amyloid-forming sequences. Also, this analysis leads us to predict that a molecule stabilizing the intramolecular three-stranded beta-sheet or inhibiting the formation of an interpeptide beta-sheet spanning residues 17-20 and 31-37 would further reduce fibril formation and probably the cytotoxicity of A beta species.}, issn = {1520-6106}, doi = {10.1021/acs.jpcp.6b10722}, author = {Phuong Hoang Nguyen and Fabio Sterpone and Pouplana, Ramon and Philippe Derreumaux and Campanera, Josep M.} } @article {2016|1765, title = {Electrostatics analysis of the mutational and pH effects of the N-terminal domain self-association of the major ampullate spidroin}, journal = {Soft Matter}, volume = {12}, number = {25}, year = {2016}, pages = {5600{\textendash}5612}, abstract = {Spider silk is a fascinating material combining mechanical properties such as maximum strength and high toughness comparable or better than man-made materials, with biocompatible degradability characteristics. Experimental measurements have shown that pH triggers the dimer formation of the N-terminal domain (NTD) of the major ampullate spidroin 1 (MaSp 1). A coarse-grained model accounting for electrostatics, van der Waals and pH-dependent charge-fluctuation interactions, by means of Monte Carlo simulations, gave us a more comprehensive view of the NTD dimerization process. A detailed analysis of the electrostatic properties and free energy derivatives for the NTD homoassociation was carried out at different pH values and salt concentrations for the protein wild type and for several mutants. We observed an enhancement of dipole-dipole interactions at pH 6 due to the ionization of key amino acids, a process identified as the main driving force for dimerization. Analytical estimates based on the DVLO theory framework corroborate our findings. Molecular dynamics simulations using the OPEP coarse-grained force field for proteins show that the mutant E17Q is subject to larger structural fluctuations when compared to the wild type. Estimates of the association rate constants for this mutant were evaluated by the Debye-Smoluchowski theory and are in agreement with the experimental data when thermally relaxed structures are used instead of the crystallographic data. Our results can contribute to the design of new mutants with specific association properties.}, issn = {1744-683X}, doi = {10.1039/c6sm00860g}, author = {Barroso da Silva, Fernando Luis and Pasquali, Samuela and Philippe Derreumaux and Dias, Luis Gustavo} } @article {2016|1630, title = {Evaluation of the coarse-grained OPEP force field for protein-protein docking}, journal = {Bmc Biophysics}, volume = {9}, year = {2016}, month = {apr}, abstract = {Background: Knowing the binding site of protein-protein complexes helps understand their function and shows possible regulation sites. The ultimate goal of protein-protein docking is the prediction of the three-dimensional structure of a protein-protein complex. Docking itself only produces plausible candidate structures, which must be ranked using scoring functions to identify the structures that are most likely to occur in nature. Methods: In this work, we rescore rigid body protein-protein predictions using the optimized potential for efficient structure prediction (OPEP), which is a coarse-grained force field. Using a force field based on continuous functions rather than a grid-based scoring function allows the introduction of protein flexibility during the docking procedure. First, we produce protein-protein predictions using ZDOCK, and after energy minimization via OPEP we rank them using an OPEP-based soft rescoring function. We also train the rescoring function for different complex classes and demonstrate its improved performance for an independent dataset. Results: The trained rescoring function produces a better ranking than ZDOCK for more than 50 \% of targets, rising to over 70 \% when considering only enzyme/inhibitor complexes. Conclusions: This study demonstrates for the first time that energy functions derived from the coarse-grained OPEP force field can be employed to rescore predictions for protein-protein complexes.}, issn = {2046-1682}, doi = {10.1186/s13628-016-0029-y}, author = {Kynast, Philipp and Philippe Derreumaux and Strodel, Birgit} } @article {2016|1746, title = {Evolution of Pentameric Ligand-Gated Ion Channels: Pro-Loop Receptors.}, journal = {Plos One}, volume = {11}, year = {2016}, pages = {e0151934}, abstract = {

Pentameric ligand-gated ion channels (pLGICs) are ubiquitous neurotransmitter receptors in Bilateria, with a small number of known prokaryotic homologues. Here we describe a new inventory and phylogenetic analysis of pLGIC genes across all kingdoms of life. Our main finding is a set of pLGIC genes in unicellular eukaryotes, some of which are metazoan-like Cys-loop receptors, and others devoid of Cys-loop cysteines, like their prokaryotic relatives. A number of such \"Cys-less\" receptors also appears in invertebrate metazoans. Together, those findings draw a new distribution of pLGICs in eukaryotes. A broader distribution of prokaryotic channels also emerges, including a major new archaeal taxon, Thaumarchaeota. More generally, pLGICs now appear nearly ubiquitous in major taxonomic groups except multicellular plants and fungi. However, pLGICs are sparsely present in unicellular taxa, suggesting a high rate of gene loss and a non-essential character, contrasting with their essential role as synaptic receptors of the bilaterian nervous system. Multiple alignments of these highly divergent sequences reveal a small number of conserved residues clustered at the interface between the extracellular and transmembrane domains. Only the \"Cys-loop\" proline is absolutely conserved, suggesting the more fitting name \"Pro loop\" for that motif, and \"Pro-loop receptors\" for the superfamily. The infered molecular phylogeny shows a Cys-loop and a Cys-less clade in eukaryotes, both containing metazoans and unicellular members. This suggests new hypotheses on the evolutionary history of the superfamily, such as a possible origin of the Cys-loop cysteines in an ancient unicellular eukaryote. Deeper phylogenetic relationships remain uncertain, particularly around the split between bacteria, archaea, and eukaryotes.

}, issn = {1932-6203}, doi = {10.1371/journal.pone.0151934}, author = {Jaiteh, Mariama and Antoine Taly and J{\'e}r{\^o}me H{\'e}nin} } @article {2016|1759, title = {Great interactions: How binding incorrect partners can teach us about protein recognition and function}, journal = {Proteins: Struct., Funct., Bioinf.}, year = {2016}, pages = {n/a-n/a}, keywords = {binding sites prediction, coarse grain models, docking, protein-protein interaction, protein-protein interfaces}, issn = {1097-0134}, doi = {10.1002/prot.25086}, author = {Vamparys, Lydie and B. Laurent and Carbone, A. and S Sacquin-Mora} } @article {2016|1742, title = {Homologous Pairing between Long DNA Double Helices}, journal = {Phys. Rev. Lett.}, volume = {116}, year = {2016}, pages = {158101}, author = {Alexey K Mazur} } @article {2016|1661, title = {Hybridizing Rapidly Exploring Random Trees and Basin Hopping Yields an Improved Exploration of Energy Landscapes}, journal = {J. Comput. Chem.}, volume = {37}, year = {2016}, month = {mar}, pages = {752}, chapter = {739}, abstract = {

The number of local minima of the potential energy landscape (PEL) of molecular systems generally grows exponentially with the number of degrees of freedom, so that a crucial property of PEL exploration algorithms is their ability to identify local minima, which are low lying and diverse. In this work, we pres- ent a new exploration algorithm, retaining the ability of basin hopping (BH) to identify local minima, and that of transition based rapidly exploring random trees (T-RRT) to foster the exploration of yet unexplored regions. This ability is obtained by interleaving calls to the extension procedures of BH and T- RRT, and we show tuning the balance between these two types of calls allows the algorithm to focus on low lying regions. Computational efficiency is obtained using state-of- the art data structures, in particular for searching approximate nearest neighbors in metric spaces. We present results for the BLN69, a protein model whose conformational space has dimension 207 and whose PEL has been studied exhaustively. On this system, we show that the propensity of our algorithm to explore low lying regions of the landscape significantly out- performs those of BH and T-RRT.

}, doi = {10.1002/jcc.24256}, author = {Christine A. Roth and Tom Dreyfus and Charles H. Robert and Fr{\'e}d{\'e}ric Cazals} } @conference {2016|1607, title = {Hydrodynamic Effects on Amyloid-beta Aggregation}, booktitle = {Biophys. J.}, volume = {110}, number = {3, 1}, year = {2016}, note = {60th Annual Meeting of the Biophysical-Society, Los Angeles, CA, FEB 27-MAR 02, 2016}, month = {feb}, pages = {219A}, publisher = {Biophys Soc}, organization = {Biophys Soc}, issn = {0006-3495}, author = {Chiricotto, Mara and Melchionna, Simone and Philippe Derreumaux and Fabio Sterpone} } @article {2016|1702, title = {Hydrodynamic effects on beta-amyloid (16-22) peptide aggregation}, journal = {J. Chem. Phys.}, volume = {145}, number = {3}, year = {2016}, month = {jul}, abstract = {Computer simulations based on simplified representations are routinely used to explore the early steps of amyloid aggregation. However, when protein models with implicit solvent are employed, these simulations miss the effect of solvent induced correlations on the aggregation kinetics and lifetimes of metastable states. In this work, we apply the multi-scale Lattice Boltzmann Molecular Dynamics technique (LBMD) to investigate the initial aggregation phases of the amyloid A beta(16-22) peptide. LBMD includes naturally hydrodynamic interactions (HIs) via a kinetic on-lattice representation of the fluid kinetics. The peptides are represented by the flexible OPEP coarse-grained force field. First, we have tuned the essential parameters that control the coupling between the molecular and fluid evolutions in order to reproduce the experimental diffusivity of elementary species. The method is then deployed to investigate the effect of HIs on the aggregation of 100 and 1000 A beta(16-22) peptides. We show that HIs clearly impact the aggregation process and the fluctuations of the oligomer sizes by favouring the fusion and exchange dynamics of oligomers between aggregates. HIs also guide the growth of the leading largest cluster. For the 100 A beta(16-22) peptide system, the simulation of similar to 300 ns allowed us to observe the transition from ellipsoidal assemblies to an elongated and slightly twisted aggregate involving almost the totality of the peptides. For the 1000 A beta(16-22) peptides, a system of unprecedented size at quasi-atomistic resolution, we were able to explore a branched disordered fibril-like structure that has never been described by other computer simulations, but has been observed experimentally. Published by AIP Publishing.}, issn = {0021-9606}, doi = {10.1063/1.4958323}, author = {Chiricotto, Mara and Melchionna, Simone and Philippe Derreumaux and Fabio Sterpone} } @article {2016|1578, title = {Impact of the A2V Mutation on the Heterozygous and Homozygous A beta 1-40 Dimer Structures from Atomistic Simulations}, journal = {Acs Chem. Neurosci.}, volume = {7}, number = {6}, year = {2016}, month = {jun}, pages = {823{\textendash}832}, abstract = {The A2V mutation was reported to protect from Alzheimer{\textquoteright}s disease in its heterozygous form and cause an early Alzheimer{\textquoteright}s disease type dementia in its homozygous form. Experiments showed that the aggregation rate follows the order A2V > WT (wild-type) > A2V-WT. To understand the impact of this mutation, we carried out replica exchange molecular dynamics simulations of A beta 1-40 WT-A2V and A2V-A2V dimers and compared to the WT dimer. Our atomistic simulations reveal that the mean secondary structure remains constant, but there are substantial differences in the intramolecular and intermolecular conformations upon single and double A2V mutation. Upon single mutation, the intrinsic disorder is reduced, the intermolecular potential energies are reduced, the population of intramolecular three-stranded beta-sheets is increased, and the number of all a dimer topologies is decreased. Taken together, these results offer an explanation for the reduced aggregation rate of the A beta 1-40 A2V-WT peptides and the protective effect of A2V in heterozygotes.}, issn = {1948-7193}, doi = {10.1021/acschemneuro.6b00053}, author = {Phuong Hoang Nguyen and Fabio Sterpone and Campanera, Josep M. and Nasica-Labouze, Jessica and Philippe Derreumaux} } @article {2016|1711, title = {In silico structural characterization of protein targets for drug development against Trypanosoma cruzi}, journal = {J. Mol. Model.}, volume = {22}, number = {10}, year = {2016}, month = {oct}, abstract = {Trypanosoma cruzi is the protozoan pathogen responsible for Chagas disease, which is a major public health problem in tropical and subtropical regions of developing countries and particularly in Brazil. Despite many studies, there is no efficient treatment against Chagas disease, and the search for new therapeutic targets specific to T. cruzi is critical for drug development. Here, we have revisited 41 protein sequences proposed by the analogous enzyme pipeline, and found that it is possible to provide structures for T. cruzi sequences with clear homologs or analogs in H. sapiens and likely associated with trypanothione reductase, cysteine synthase, and ATPase functions, and structures for sequences specific to T. cruzi and absent in H. sapiens associated with 2,4-dienoyl-CoA reductase, and leishmanolysin activities. The implications of our structures refined by atomistic molecular dynamics (monomer or dimer states) in their in vitro environments (aqueous solution or membrane bilayers) are discussed for drug development and suggest that all protein targets, except cysteine synthase, merit further investigation.}, issn = {1610-2940}, doi = {10.1007/s00894-016-3115-9}, author = {Lima, Carlyle Ribeiro and Carels, Nicolas and Ramos Guimaraes, Ana Carolina and Pierre Tuffery and Philippe Derreumaux} } @conference {2016|1415, title = {Interactive visual analytics of molecular data in immersive environments via a semantic definition of the content and the context}, booktitle = {2016 Workshop on Immersive Analytics (IA)}, year = {2016}, month = {March}, abstract = {

Bringing together, in a unique immersive environment, visualization and analysis of scientific and complex data requires a thorough approach in order to fulfill scientists\&$\#$39; specific expectations. Such an approach needs to consider the highly heterogeneous nature of data, the dynamic interactions between experts and data, and the large amount of data involved in scientific studies. Whereas small and static scientific datasets can quickly be deciphered thanks to standard immersive tools such as 3D visualization software packages, bigger and dynamic datasets exceed the analytical capacity of these tools, requiring an efficient platform for their manipulation. Through the example of the structural biology field we discuss the need for an approach based on a high-level definition of the content (scientific data) and the context (immersive environments and interfaces). Our design is illustrated by a platform for dynamic and intelligent representation of data to the user. The data hierarchical classification will provide new ways to interact with the data via intelligent and direct relationships between them. This approach is based on the semantic definition of all the concepts manipulated in the virtual environment, either abstract or concrete, which allows for an adaptive and interactive experience of both visualization and analysis.

}, keywords = {Computer Graphics [I.3.7]: Three-Dimensional Graphics and Realism-Virtual Reality, content high-level definition, content management, content semantic definition, Context, context high-level definition, context semantic definition, data analysis, data dynamic representation, data intelligent representation, data visualisation, Data visualization, molecular data interactive visual analysis, Ontologies, Resource description framework, Semantics, static scientific datasets, structural biology field, Three-dimensional displays, Tools, virtual environment, Virtual Reality}, doi = {10.1109/IMMERSIVE.2016.7932383}, author = {M. Trellet and Nicolas F{\'e}rey and Marc Baaden and P. Bourdot} } @article {2016|1703, title = {Lattice model for amyloid peptides: OPEP force field parametrization and applications to the nucleus size of Alzheimer{\textquoteright}s peptides}, journal = {J. Chem. Phys.}, volume = {144}, number = {20}, year = {2016}, month = {may}, abstract = {Coarse-grained protein lattice models approximate atomistic details and keep the essential interactions. They are, therefore, suitable for capturing generic features of protein folding and amyloid formation at low computational cost. As our aim is to study the critical nucleus sizes of two experimentally well-characterized peptide fragments A beta(16-22) and A beta(37-42) of the full length A beta(1-42) Alzheimer{\textquoteright}s peptide, it is important that simulations with the lattice model reproduce all-atom simulations. In this study, we present a comprehensive force field parameterization based on the OPEP (Optimized Potential for Efficient protein structure Prediction) force field for an on-lattice protein model, which incorporates explicitly the formation of hydrogen bonds and directions of side-chains. Our bottom-up approach starts with the determination of the best lattice force parameters for the A beta(16-22) dimer by fitting its equilibrium parallel and anti-parallel beta-sheet populations to all-atom simulation results. Surprisingly, the calibrated force field is transferable to the trimer of A beta(16-22) and the dimer and trimer of A beta(37-42). Encouraged by this finding, we characterized the free energy landscapes of the two decamers. The dominant structure of the A beta(16-22) decamer matches the microcrystal structure. Pushing the simulations for aggregates between 4-mer and 12-mer suggests a nucleus size for fibril formation of 10 chains. In contrast, the A beta(37-42) decamer is largely disordered with mixed by parallel and antiparallel chains, suggesting that the nucleus size is >10 peptides. Our refined force field coupled to this on-lattice model should provide useful insights into the critical nucleation number associated with neurodegenerative diseases. Published by AIP Publishing.}, issn = {0021-9606}, doi = {10.1063/1.4951739}, author = {Thanh-Thuy Tran and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2016|1639, title = {MP2 and DFT studies of beta-D-neocarrabiose and beta-D-neocarrabiose monohydrate}, journal = {Comput. Theor. Chem.}, volume = {1091}, year = {2016}, month = {sep}, pages = {24{\textendash}30}, abstract = {MP2 and density functional theory calculations have been carried out on beta-D-neocarrabiose and its mono hydrate in order to determine the conformational preferences of these molecules in the gas phase and in solvent. Relaxed iso-energetic maps were first obtained using B3LYP/6-31G(d). Then, the lower energy conformers were further fully optimized using B3LYP, B3PW91 and MP2 methods. Overall, it was demonstrated that a lower energy conformer corresponding to the couple of dihedral angles (Phi,Psi)= (69 degrees,-117 degrees) is detected either in the gas phase or in solvent provided that full optimizations are performed on the conformers corresponding to the minima detected from the iso-energetic maps. (C) 2016 Elsevier B.V. All rights reserved.}, issn = {2210-271X}, doi = {10.1016/j.comptc.2016.07.009}, author = {Bestaoui-Berrekhchi-Berrahma, N. and Sekkal-Rahal, M. and Philippe Derreumaux and Yousfi, N.} } @article {2016|1735, title = {Multiscale simulation of molecular processes in cellular environments}, journal = {Philosophical Transactions of the Royal Society A-mathematical Physical and Engineering Sciences}, volume = {374}, number = {2080}, year = {2016}, abstract = {We describe the recent advances in studying biological systems via multiscale simulations. Our scheme is based on a coarse-grained representation of the macromolecules and a mesoscopic description of the solvent. The dual technique handles particles, the aqueous solvent and their mutual exchange of forces resulting in a stable and accurate methodology allowing biosystems of unprecedented size to be simulated. This article is part of the themed issue {\textquoteleft}Multiscale modelling at the physics-chemistry-biology interface{\textquoteright}.}, issn = {1364-503X}, doi = {10.1098/rsta.2016.0225}, author = {Chiricotto, Mara and Fabio Sterpone and Philippe Derreumaux and Melchionna, Simone} } @article {2016|1703, title = {Nonequilibrium all-atom molecular dynamics simulation of the bubble cavitation and application to dissociate amyloid fibrils}, journal = {J. Chem. Phys.}, volume = {145}, number = {17}, year = {2016}, month = {nov}, abstract = {The cavitation of gas bubbles in liquids has been applied to different disciplines in life and natural sciences, and in technologies. To obtain an appropriate theoretical description of effects induced by the bubble cavitation, we develop an all-atom nonequilibrium molecular-dynamics simulation method to simulate bubbles undergoing harmonic oscillation in size. This allows us to understand the mechanism of the bubble cavitation-induced liquid shear stress on surrounding objects. The method is then employed to simulate an A beta fibril model in the presence of bubbles, and the results show that the bubble expansion and contraction exert water pressure on the fibril. This yields to the deceleration and acceleration of the fibril kinetic energy, facilitating the conformational transition between local free energy minima, and leading to the dissociation of the fibril. Our work, which is a proof-of-concept, may open a new, efficient way to dissociate amyloid fibrils using the bubble cavitation technique, and new venues to investigate the complex phenomena associated with amyloidogenesis. Published by AIP Publishing.}, issn = {0021-9606}, doi = {10.1063/1.4966263}, author = {Man Hoang Viet and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2016|1750, title = {Non-equivalent binding sites for Abeta1-40 on PrP determine the oligomerisation pathway}, journal = {Prion}, volume = {10}, number = {1}, year = {2016}, pages = {S40}, issn = {1933-6896}, author = {Grznarova, Katarina and Torrent, Joan and Munoz-Montesino, Carola and Nasica, Jessica and Philippe Derreumaux and Beringue, Vincent and Deslys, Jean-Philippe and Rezaei, Human} } @article {2016|1672, title = {A Novel Bifunctional Alkylphenol Anesthetic Allows Characterization of gamma-Aminobutyric Acid, Type A (GABAA), Receptor Subunit Binding Selectivity in Synaptosomes.}, journal = {J. Biol. Chem}, volume = {291}, year = {2016}, month = {sep}, pages = {20473{\textendash}86}, abstract = {

Propofol, an intravenous anesthetic, is a positive modulator of the GABAA receptor, but the mechanistic details, including the relevant binding sites and alternative targets, remain disputed. Here we undertook an in-depth study of alkylphenol-based anesthetic binding to synaptic membranes. We designed, synthesized, and characterized a chemically active alkylphenol anesthetic (2-((prop-2-yn-1-yloxy)methyl)-5-(3-(trifluoromethyl)-3H-diazirin-3-yl)phenol, AziPm-click (1)), for affinity-based protein profiling (ABPP) of propofol-binding proteins in their native state within mouse synaptosomes. The ABPP strategy captured approximately 4\% of the synaptosomal proteome, including the unbiased capture of five alpha or beta GABAA receptor subunits. Lack of gamma2 subunit capture was not due to low abundance. Consistent with this, independent molecular dynamics simulations with alchemical free energy perturbation calculations predicted selective propofol binding to interfacial sites, with higher affinities for alpha/beta than gamma-containing interfaces. The simulations indicated hydrogen bonding is a key component leading to propofol-selective binding within GABAA receptor subunit interfaces, with stable hydrogen bonds observed between propofol and alpha/beta cavity residues but not gamma cavity residues. We confirmed this by introducing a hydrogen bond-null propofol analogue as a protecting ligand for targeted-ABPP and observed a lack of GABAA receptor subunit protection. This investigation demonstrates striking interfacial GABAA receptor subunit selectivity in the native milieu, suggesting that asymmetric occupancy of heteropentameric ion channels by alkylphenol-based anesthetics is sufficient to induce modulation of activity.

}, keywords = {anesthesia, anesthetic, click chemistry, GABA receptor, photoaffinity labeling}, doi = {10.1074/jbc.M116.736975}, author = {Woll, Kellie A. and Murlidaran, Sruthi and Pinch, Benika J. and J{\'e}r{\^o}me H{\'e}nin and Wang, Xiaoshi and Salari, Reza and Covarrubias, Manuel and Dailey, William P. and Grace Brannigan and Garcia, Benjamin A. and Roderic G Eckenhoff} } @article {2016|2027, title = {Orientational Dynamics of Water at an Extended Hydrophobic Interface}, journal = {J Am Chem Soc}, volume = {138}, year = {2016}, month = {May}, pages = {5551-60}, abstract = {

We report on the orientational dynamics of water at an extended hydrophobic interface with an octadecylsilane self-assembled monolayer on fused silica. The interfacial dangling OH stretch mode is excited with a resonant pump, and its evolution followed in time by a surface-specific, vibrationally resonant, infrared-visible sum-frequency probe. High sensitivity pump-probe anisotropy measurements and isotopic dilution clearly reveal that the decay of the dangling OH stretch excitation is almost entirely due to a jump to a hydrogen-bonded configuration that occurs in 1.61 $\pm$ 0.10 ps. This is more than twice as fast as the jump time from one hydrogen-bonded configuration to another in bulk H2O but about 50\% slower than the reported out-of-plane reorientation at the air/water interface. In contrast, the intrinsic population lifetime of the dangling OH stretch in the absence of such jumps is found to be \>10 ps. Molecular dynamics simulations of air/water and hexane/water interfaces reproduce the fast jump dynamics of interfacial dangling OH with calculated jump times of 1.4 and 1.7 ps for the air and hydrophobic interfaces, respectively. The simulations highlight that while the air/water and hydrophobic/water surfaces exhibit great structural similarities, a small stabilization of the OH groups by the hydrophobic interface produces the pronounced difference in the dynamics of dangling bonds.

}, doi = {10.1021/jacs.6b01820}, author = {Xiao, Shunhao and Figge, Florian and Guillaume Stirnemann and Laage, Damien and McGuire, John A} } @article {2016|1733, title = {PEP-FOLD3: faster denovo structure prediction for linear peptides in solution and in complex}, journal = {Nucleic Acids Res.}, volume = {44}, number = {W1}, year = {2016}, pages = {W449-W454}, abstract = {Structure determination of linear peptides of 5-50 amino acids in aqueous solution and interacting with proteins is a key aspect in structural biology. PEP-FOLD3 is a novel computational framework, that allows both (i) de novo free or biased prediction for linear peptides between 5 and 50 amino acids, and (ii) the generation of native-like conformations of peptides interacting with a protein when the interaction site is known in advance. PEP-FOLD3 is fast, and usually returns solutions in a few minutes. Testing PEP-FOLD3 on 56 peptides in aqueous solution led to experimental-like conformations for 80\% of the targets. Using a benchmark of 61 peptide-protein targets starting from the unbound form of the protein receptor, PEP-FOLD3 was able to generate peptide poses deviating on average by 3.3 angstrom from the experimental conformation and return a native-like pose in the first 10 clusters for 52\% of the targets. PEP-FOLD3 is available at http://bioserv.rpbs.univ-paris-diderot.fr/services/PEP-FOLD3.}, issn = {0305-1048}, doi = {10.1093/nar/gkw329}, author = {Lamiable, Alexis and Thevenet, Pierre and Rey, Julien and Vavrusa, Marek and Philippe Derreumaux and Pierre Tuffery} } @article {2016|1744, title = {Picosecond infrared laser-induced all-atom nonequilibrium molecular dynamics simulation of dissociation of viruses}, journal = {Phys. Chem. Chem. Phys.}, volume = {18}, number = {17}, year = {2016}, month = {may}, pages = {11951{\textendash}11958}, abstract = {Since the discovery of the plant pathogen tobacco mosaic virus as the first viral entity in the late 1800s, viruses traditionally have been mainly thought of as pathogens for disease-resistances. However, viruses have recently been exploited as nanoplatforms with applications in biomedicine and materials science. To this aim, a large majority of current methods and tools have been developed to improve the physical stability of viral particles, which may be critical to the extreme physical or chemical conditions that viruses may encounter during purification, fabrication processes, storage and use. However, considerably fewer studies are devoted to developing efficient methods to degrade or recycle such enhanced stability biomaterials. With this in mind, we carry out all-atom nonequilibriummolecular dynamics simulation, inspired by the recently developed mid-infrared free-electron laser pulse technology, to dissociate viruses. Adopting the poliovirus as a representative example, we find that the primary step in the dissociation process is due to the strong resonance between the amide I vibrational modes of the virus and the tuned laser frequencies. This process is determined by a balance between the formation and dissociation of the protein shell, reflecting the highly plasticity of the virus. Furthermore, our method should provide a feasible approach to simulate viruses, which is otherwise too expensive for conventional equilibrium all-atom simulations of such very large systems. Our work shows a proof of concept which may open a new, efficient way to cleave or to recycle virus-based materials, provide an extremely valuable tool for elucidating mechanical aspects of viruses, and may well play an important role in future fighting against virus-related diseases.}, issn = {1463-9076}, doi = {10.1039/c5cp07711g}, author = {Viet Hoang Man and Van-Oanh, Nguyen-Thi and Philippe Derreumaux and Li, Mai Suan and Roland, Christopher and Sagui, Celeste and Phuong Hoang Nguyen} } @article {2016|1447, title = {{S}alt-{E}xcluding {A}rtificial {W}ater {C}hannels {E}xhibiting {E}nhanced {D}ipolar {W}ater and {P}roton {T}ranslocation}, journal = {J. Am. Chem. Soc.}, volume = {138}, number = {16}, year = {2016}, month = {apr}, pages = {5403{\textendash}5409}, author = {Licsandru, E. and Kocsis, I. and Shen, Y. X. and Murail, S. and Legrand, Y. M. and van der Lee, A. and Tsai, D. and Marc Baaden and Kumar, M. and Barboiu, M.} } @article {2016|1550, title = {{S}ites of {A}nesthetic {I}nhibitory {A}ction on a {C}ationic {L}igand-{G}ated {I}on {C}hannel}, journal = {Structure}, volume = {24a}, number = {4}, year = {2016}, month = {apr}, pages = {595{\textendash}605}, author = {Laurent, B. and Murail, S. and Shahsavar, A. and Sauguet, L. and Delarue, M. and Marc Baaden} } @article {2016|1687, title = {Stability and Function at High Temperature. What Makes a Thermophilic GTPase Different from Its Mesophilic Homologue}, journal = {J. Phys. Chem. B}, volume = {120}, year = {2016}, pages = {2721{\textendash}2730}, abstract = {

Comparing homologous enzymes adapted to different thermal environments aids to shed light on their delicate stability/function trade-off. Protein mechanical rigidity was postulated to secure stability and high-temperature functionality of thermophilic proteins. In this work, we challenge the corresponding-state principle for a pair of homologous GTPase domains by performing extensive molecular dynamics simulations, applying conformational and kinetic clustering, as well as exploiting an enhanced sampling technique (REST2). While it was formerly shown that enhanced protein flexibility and high temperature stability can coexist in the apo hyperthermophilic variant, here we focus on the holo states of both homologues by mimicking the enzymatic turnover. We clearly show that the presence of the ligands affects the conformational landscape visited by the proteins, and that the corresponding state principle applies for some functional modes. Namely, in the hyperthermophilic species, the flexibility of the effec...

}, issn = {15205207}, doi = {10.1021/acs.jpcb.6b00306}, author = {Katava, Marina and Kalimeri, Maria and Guillaume Stirnemann and Fabio Sterpone} } @article {2016|1763, title = {Structure of ring-shaped Aβ42 oligomers determined by conformational selection}, journal = {Sci. Rep.}, volume = {6}, year = {2016}, pages = {21429}, abstract = {

The oligomerization of amyloid beta (Aβ) peptides into soluble non-fibrillar species plays a critical role in the pathogenesis of Alzheimer\&$\#$39;s disease. However, it has been challenging to characterize the tertiary and quaternary structures of Aβ peptides due to their disordered nature and high aggregation propensity. In this work, replica exchange molecular dynamics simulations were used to explore the conformational space of Aβ42 monomer. Among the most populated transient states, we identified a particular conformation which was able to generate ring-shaped pentamers and hexamers, when docked onto itself. The structures of these aggregates were stable during microsecond all-atom MD simulations in explicit solvent. In addition to high resolution models of these oligomers, this study provides support for the conformational selection mechanism of Aβ peptide self-assembly.

}, issn = {2045-2322}, doi = {10.1038/srep21429}, author = {Tran, Linh and Basdevant, Nathalie and Chantal Pr{\'e}vost and Ha-Duong, T{\^a}p} } @article {2016|1764, title = {Thermal activation of {\textquoteleft}allosteric-like{\textquoteright} large-scale motions in a eukaryotic Lactate Dehydrogenase.}, journal = {Sci. Reports}, volume = {7}, year = {2016}, pages = {41092}, author = {M. Katava and M. Maccarini and G. Villain and A. Paciaroni and M. Sztucki and O. Ivanova and D. Madern and Fabio Sterpone} } @conference {2016|1608, title = {Toward Microscopic Simulations of Proteins in Cell-Like Environments}, booktitle = {Biophys. J.}, volume = {110}, number = {3, 1}, year = {2016}, note = {60th Annual Meeting of the Biophysical-Society, Los Angeles, CA, FEB 27-MAR 02, 2016}, month = {feb}, pages = {386A}, publisher = {Biophys Soc}, organization = {Biophys Soc}, issn = {0006-3495}, author = {Fabio Sterpone and Philippe Derreumaux and Melchionna, Simone} } @article {2016, title = {Visual Analysis of Biomolecular Cavities: State of the Art}, journal = {Comput. Graphics Forum}, volume = {35}, number = {3}, year = {2016}, month = {jun}, pages = {527{\textendash}551}, keywords = {AMBIENT OCCLUSION, ANALYTICAL SHAPE, BINDING-SITE IDENTIFICATION, LIGAND-BINDING, PORE DIMENSIONS, PROTEIN CAVITIES, SURFACE, TIME MOLECULAR VISUALIZATION, TRAVEL DEPTH, WEB SERVER}, url = {https://hal.archives-ouvertes.fr/hal-01400464}, author = {Krone, M. and Kozlikova, B. and Lindow, N. and Marc Baaden and Baum, D. and Parulek, J. and Hege, H.-C. and Viola, I.} } @article {2016|1401, title = {Visualization of Biomolecular Structures: State of the Art Revisited}, journal = {Comput. Graphics Forum}, year = {2016}, month = {nov}, url = {https://hal.archives-ouvertes.fr/hal-01400465}, author = {Kozlikova, B. and Krone, M. and Falk, M. and Lindow, N. and Marc Baaden and Baum, D. and Viola, I. and Parulek, J. and Hege, H.-C.} } @article {2016|1633, title = {Water Determines the Structure and Dynamics of Proteins}, journal = {Chem. Rev.}, volume = {116}, year = {2016}, pages = {7673{\textendash}7697}, author = {M-C. Bellissent-Funel and A. Hassanali and M. Havenith and R. Henchman and P. Pohl and Fabio Sterpone and D. van der Spoel and Y. Xu and A. E. Garcia} } @article {2015|1716, title = {Ab initio RNA folding}, journal = {Journal of Physics-condensed Matter}, volume = {27}, number = {23}, year = {2015}, month = {jun}, pages = {233102}, doi = {10.1088/0953-8984/27/23/233102}, author = {Cragnolini, Tristan and Philippe Derreumaux and Pasquali, Samuela} } @article {2015|1667, title = {The adaptive biasing force method: everything you always wanted to know but were afraid to ask.}, journal = {J. Phys. Chem. B}, volume = {119}, year = {2015}, month = {jan}, pages = {1129{\textendash}51}, abstract = {

In the host of numerical schemes devised to calculate free energy differences by way of geometric transformations, the adaptive biasing force algorithm has emerged as a promising route to map complex free-energy landscapes. It relies upon the simple concept that as a simulation progresses, a continuously updated biasing force is added to the equations of motion, such that in the long-time limit it yields a Hamiltonian devoid of an average force acting along the transition coordinate of interest. This means that sampling proceeds uniformly on a flat free-energy surface, thus providing reliable free-energy estimates. Much of the appeal of the algorithm to the practitioner is in its physically intuitive underlying ideas and the absence of any requirements for prior knowledge about free-energy landscapes. Since its inception in 2001, the adaptive biasing force scheme has been the subject of considerable attention, from in-depth mathematical analysis of convergence properties to novel developments and extensions. The method has also been successfully applied to many challenging problems in chemistry and biology. In this contribution, the method is presented in a comprehensive, self-contained fashion, discussing with a critical eye its properties, applicability, and inherent limitations, as well as introducing novel extensions. Through free-energy calculations of prototypical molecular systems, many methodological aspects are examined, from stratification strategies to overcoming the so-called hidden barriers in orthogonal space, relevant not only to the adaptive biasing force algorithm but also to other importance-sampling schemes. On the basis of the discussions in this paper, a number of good practices for improving the efficiency and reliability of the computed free-energy differences are proposed.

}, issn = {1520-5207}, doi = {10.1021/jp506633n}, author = {Comer, Jeffrey and Gumbart, James C and J{\'e}r{\^o}me H{\'e}nin and Leli{\`e}vre, Tony and Pohorille, Andrew and Christophe Chipot} } @article {2015|1737, title = {Algebraic Statistics of Poincar{\'e} Recurrences in a DNA Molecule.}, journal = {Phys. Rev. Lett.}, volume = {115}, year = {2015}, month = {oct}, pages = {188104}, abstract = {

The statistics of Poincar{\'e} recurrences is studied for the base-pair breathing dynamics of an all-atom DNA molecule in a realistic aqueous environment with thousands of degrees of freedom. It is found that at least over five decades in time the decay of recurrences is described by an algebraic law with the Poincar{\'e} exponent close to β=1.2. This value is directly related to the correlation decay exponent ν=β-1, which is close to ν\≈0.15 observed in the time resolved Stokes shift experiments. By applying the virial theorem we analyze the chaotic dynamics in polynomial potentials and demonstrate analytically that an exponent β=1.2 is obtained assuming the dominance of dipole-dipole interactions in the relevant DNA dynamics. Molecular dynamics simulations also reveal the presence of strong low frequency noise with the exponent η=1.6. We trace parallels with the chaotic dynamics of symplectic maps with a few degrees of freedom characterized by the Poincar{\'e} exponent β\∼1.5.

}, issn = {1079-7114}, doi = {10.1103/PhysRevLett.115.188104}, author = {Alexey K Mazur and Shepelyansky, D L} } @article {2015|1634, title = {Amyloid beta Protein and Alzheimer{\textquoteright}s Disease: When Computer Simulations Complement Experimental Studies}, journal = {Chem. Rev.}, volume = {115}, number = {9}, year = {2015}, month = {may}, pages = {3518{\textendash}3563}, doi = {10.1021/cr500638n}, author = {Nasica-Labouze, Jessica and Phuong Hoang Nguyen and Fabio Sterpone and Berthoumieu, Olivia and Buchete, Nicolae-Viorel and Cote, Sebastien and De Simone, Alfonso and Doig, Andrew J. and Faller, Peter and Garcia, Angel and Laio, Alessandro and Li, Mai Suan and Melchionna, Simone and Mousseau, Normand and Mu, Yuguang and Paravastu, Anant and Pasquali, Samuela and Rosenman, David J. and Strodel, Birgit and Tarus, Bogdan and Viles, John H. and Zhang, Tong and Wang, Chunyu and Philippe Derreumaux} } @article {2015|1910, title = {Are coarse-grained models apt to detect protein thermal stability? The case of \{OPEP\} force field}, journal = {J. Non-cryst. Solids}, volume = {407}, year = {2015}, note = {7th IDMRCS: Relaxation in Complex Systems}, pages = {494{\textendash}501}, keywords = {Conformational substates network}, doi = {10.1016/j.jnoncrysol.2014.07.005}, url = {http://www.sciencedirect.com/science/article/pii/S0022309314002889}, author = {Maria Kalimeri and Philippe Derreumaux and Fabio Sterpone} } @article {2015|1657, title = {Changes in protein structure at the interface accompanying complex formation.}, journal = {Iucrj}, volume = {2}, number = {Pt 6}, year = {2015}, month = {nov}, pages = {643{\textendash}652}, publisher = {Department of Biochemistry, Bose Institute , P-1/12 CIT Scheme VIIM, Kolkata 700 054, India.}, abstract = {Protein interactions are essential in all biological processes. The changes brought about in the structure when a free component forms a complex with another molecule need to be characterized for a proper understanding of molecular recognition as well as for the successful implementation of docking algorithms. Here, unbound (U) and bound (B) forms of protein structures from the Protein-Protein Interaction Affinity Database are compared in order to enumerate the changes that occur at the interface atoms/residues in terms of the solvent-accessible surface area (ASA), secondary structure, temperature factors (B factors) and disorder-to-order transitions. It is found that the interface atoms optimize contacts with the atoms in the partner protein, which leads to an increase in their ASA in the bound interface in the majority (69\%) of the proteins when compared with the unbound interface, and this is independent of the root-mean-square deviation between the U and B forms. Changes in secondary structure during the transition indicate a likely extension of helices and strands at the expense of turns and coils. A reduction in flexibility during complex formation is reflected in the decrease in B factors of the interface residues on going from the U form to the B form. There is, however, no distinction in flexibility between the interface and the surface in the monomeric structure, thereby highlighting the potential problem of using B factors for the prediction of binding sites in the unbound form for docking another protein. 16\% of the proteins have missing (disordered) residues in the U form which are observed (ordered) in the B form, mostly with an irregular conformation; the data set also shows differences in the composition of interface and non-interface residues in the disordered polypeptide segments as well as differences in their surface burial.}, doi = {10.1107/S2052252515015250}, author = {Chakravarty, Devlina and Janin, Jo{\"e}l and Charles H. Robert and Chakrabarti, Pinak} } @article {2015|1708, title = {Coarse-Grained HiRE-RNA Model for ab Initio RNA Folding beyond Simple Molecules, Including Noncanonical and Multiple Base Pairings}, journal = {J. Chem. Theory Comput.}, volume = {11}, number = {7}, year = {2015}, pages = {3510{\textendash}3522}, doi = {10.1021/acs.jctc.5b00200}, author = {Cragnolini, Tristan and Laurin, Yoann and Philippe Derreumaux and Pasquali, Samuela} } @article {2015|1635, title = {Combined Experimental and Simulation Studies Suggest a Revised Mode of Action of the Anti-Alzheimer Disease Drug NQ-Trp}, journal = {Chemistry-a European Journal}, volume = {21}, number = {36}, year = {2015}, pages = {12657{\textendash}12666}, doi = {10.1002/chem.201500888}, author = {Berthoumieu, Olivia and Phuong Hoang Nguyen and del Castillo-Frias, Maria P. and Ferre, Sabrina and Tarus, Bogdan and Nasica-Labouze, Jessica and Noel, Sabrina and Saurel, Olivier and Rampon, Claire and Doig, Andrew J. and Philippe Derreumaux and Faller, Peter} } @article {2015|1768, title = {Communication: Multiple atomistic force fields in a single enhanced sampling simulation.}, journal = {The Journal of Chemical Physics}, volume = {143}, number = {2}, year = {2015}, month = {jul}, pages = {021101{\textendash}021101}, doi = {10.1063/1.4926535}, author = {Hoang Viet, Man and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2015|1704, title = {Communication: Multiple atomistic force fields in a single enhanced sampling simulation}, journal = {J. Chem. Phys.}, volume = {143}, number = {2}, year = {2015}, month = {jul}, pages = {021101}, doi = {10.1063/1.4926535}, author = {Man Hoang Viet and Philippe Derreumaux and Phuong Hoang Nguyen} } @article {2015|1679, title = {Conformational ensembles and sampled landscapes: analysis and comparison}, journal = {J. Comp. Chem.}, volume = {36}, year = {2015}, pages = {1213{\textendash}31}, author = {Fr{\'e}d{\'e}ric Cazals and A Roth and T Dreyfus and D Mazauric and Charles H. Robert} } @conference {2015|1556, title = {Content and task based navigation for structural biology in 3D environments}, booktitle = {Virtual and Augmented Reality for Molecular Science (VARMS@IEEEVR), 2015 IEEE 1st International Workshop on}, year = {2015}, month = {mar}, pages = {31{\textendash}36}, keywords = {3D environment, biology computing, Cameras, content navigation, data visualisation, feature extraction, molecular biology, molecule visualisation, Navigation, Pro, rendering (computer graphics), stereoscopic rendering feature, structural biology, task based navigation}, author = {M. Trellet and Nicolas F{\'e}rey and Marc Baaden and P. Bourdot} } @article {2015|1766, title = {Docking Peptides on Proteins: How to Open a Lock, in the Dark, with a Flexible Key}, journal = {Structure}, volume = {23}, number = {8}, year = {2015}, month = {aug}, pages = {1373{\textendash}1374}, doi = {10.1016/j.str.2015.07.004}, author = {S Sacquin-Mora and Chantal Pr{\'e}vost} } @article {2015|1780, title = {{E}pock: rapid analysis of protein pocket dynamics}, journal = {Bioinformatics}, volume = {31}, number = {9}, year = {2015}, month = {may}, pages = {1478{\textendash}1480}, doi = {10.1093/bioinformatics/btu822}, author = {Laurent, Benoist and Matthieu Chavent and Cragnolini, Tristan and Dahl, Anna Caroline E. and Pasquali, Samuela and Philippe Derreumaux and Sansom, Mark S. P. and Marc Baaden} } @article {2015|1582, title = {The elastic free energy of a tandem modular protein under force.}, journal = {Biochem. Biophys. Res. Comm.}, year = {2015}, pages = {1{\textendash}5}, keywords = {free energy landscape, tandem modular protein}, issn = {0006291X}, doi = {10.1016/j.bbrc.2015.03.051}, url = {http://linkinghub.elsevier.com/retrieve/pii/S0006291X15004866}, author = {Valle-Orero, Jessica and Eckels, Edward and Guillaume Stirnemann and Popa, Ionel and Berkovich, Ronen and Fernandez, Julio M.} } @article {2015|1833, title = {{F}old and flexibility: what can proteins{\textquoteright} mechanical properties tell us about their folding nucleus?}, journal = {J. R. Soc. Interface}, volume = {12}, number = {112}, year = {2015}, month = {nov}, author = {S Sacquin-Mora} } @article {2015|1713, title = {Folding Atomistic Proteins in Explicit Solvent Using Simulated Tempering}, journal = {J. Phys. Chem. B}, volume = {119}, number = {23}, year = {2015}, month = {jun}, pages = {6941{\textendash}6951}, author = {Zhang, Tong and Phuong Hoang Nguyen and Nasica-Labouze, Jessica and Mu, Yuguang and Philippe Derreumaux} } @article {2015|1755, title = {How osmolytes influence hydrophobic polymer conformations: A unified view from experiment and theory.}, journal = {Proc. Natl. Acad. Sci. Usa}, volume = {112}, year = {2015}, pages = {9270{\textendash}5}, abstract = {

It is currently the consensus belief that protective osmolytes such as trimethylamine N-oxide (TMAO) favor protein folding by being excluded from the vicinity of a protein, whereas denaturing osmolytes such as urea lead to protein unfolding by strongly binding to the surface. Despite there being consensus on how TMAO and urea affect proteins as a whole, very little is known as to their effects on the individual mechanisms responsible for protein structure formation, especially hydrophobic association. In the present study, we use single-molecule atomic force microscopy and molecular dynamics simulations to investigate the effects of TMAO and urea on the unfolding of the hydrophobic homopolymer polystyrene. Incorporated with interfacial energy measurements, our results show that TMAO and urea act on polystyrene as a protectant and a denaturant, respectively, while complying with Tanford-Wyman preferential binding theory. We provide a molecular explanation suggesting that TMAO molecules have a greater thermodynamic binding affinity with the collapsed conformation of polystyrene than with the extended conformation, while the reverse is true for urea molecules. Results presented here from both experiment and simulation are in line with earlier predictions on a model Lennard-Jones polymer while also demonstrating the distinction in the mechanism of osmolyte action between protein and hydrophobic polymer. This marks, to our knowledge, the first experimental observation of TMAO-induced hydrophobic collapse in a ternary aqueous system.

}, keywords = {Atomic Force, Computer Simulation, Hydrophobic and Hydrophilic Interactions, Mechanical, Methylamines, Methylamines: chemistry, Microscopy, Molecular Dynamics Simulation, Normal Distribution, Polymers, Polymers: chemistry, Polystyrenes, Polystyrenes: chemistry, Protein Binding, Protein Conformation, Protein Folding, Proteins, Proteins: chemistry, Software, Solvents, Solvents: chemistry, Stress, Thermodynamics, Urea, Urea: chemistry, Water, Water: chemistry}, isbn = {1215421109}, issn = {1091-6490}, doi = {10.1073/pnas.1511780112}, url = {http://www.pnas.org/content/112/30/9270}, author = {Mondal, Jagannath and Halverson, Duncan and Li, Isaac T S and Guillaume Stirnemann and Walker, Gilbert C and Berne, Bruce J} } @article {2015|1643, title = {Inhibition of protein aggregation and amyloid formation by small molecules}, journal = {Curr. Opin. Struct. Biol.}, volume = {30}, year = {2015}, month = {feb}, pages = {50{\textendash}56}, doi = {10.1016/j.sbi.2014.12.004}, author = {Doig, Andrew J. and Philippe Derreumaux} } @article {2015|1731, title = {Integrating multi-scale data on homologous recombination into a new recognition mechanism based on simulations of the RecA-ssDNA/dsDNA structure}, journal = {Nucleic Acids Res.}, volume = {43}, year = {2015}, month = {dec}, pages = {10251{\textendash}63}, abstract = {

RecA protein is the prototypical recombinase. Members of the recombinase family can accurately repair double strand breaks in DNA. They also provide crucial links between pairs of sister chromatids in eukaryotic meiosis. A very broad outline of how these proteins align homologous sequences and promote DNA strand exchange has long been known, as are the crystal structures of the RecA-DNA pre- and postsynaptic complexes; however, little is known about the homology searching conformations and the details of how DNA in bacterial genomes is rapidly searched until homologous alignment is achieved. By integrating a physical model of recognition to new modeling work based on docking exploration and molecular dynamics simulation, we present a detailed structure/function model of homology recognition that reconciles extremely quick searching with the efficient and stringent formation of stable strand exchange products and which is consistent with a vast body of previously unexplained experimental results.

}, doi = {10.1093/nar/gkv883}, author = {Yang, Darren and Boyer, Benjamin and Chantal Pr{\'e}vost and Danilowicz, Claudia and Prentiss, Mara} } @article {2015|1965, title = {An integrative approach to the study of filamentous oligomeric assemblies, with application to {R}ec{A}}, journal = {Plos One}, volume = {in press}, year = {2015}, pages = {e0116414}, abstract = {

Oligomeric macromolecules in the cell self-organize into a wide variety of geometrical motifs such as helices, rings or linear filaments. The recombinase proteins involved in homologous recombination present many such assembly motifs. Here, we examine in particular the polymorphic characteristics of RecA, the most studied member of the recombinase family, using an integrative approach that relates local modes of monomer/monomer association to the global architecture of their screw-type organization. In our approach, local modes of association are sampled via docking or Monte Carlo simulations. This enables shedding new light on fiber morphologies that may be adopted by the RecA protein. Two distinct RecA helical morphologies, the so-called \"extended\" and \"compressed\" forms, are known to play a role in homologous recombination. We investigate the variability within each form in terms of helical parameters and steric accessibility. We also address possible helical discontinuities in RecA filaments due to multiple monomer-monomer association modes. By relating local interface organization to global filament morphology, the strategies developed here to study RecA self-assembly are particularly well suited to other DNA-binding proteins and to filamentous protein assemblies in general.

}, doi = {10.1371/journal.pone.0116414}, author = {Benjamin Boyer and Johann Ezelin and Pierre Poulain and A Saladin and Martin Zacharias and Charles H. Robert and Chantal Pr{\'e}vost} } @article {2015|1586, title = {Investigating the Structural Variability and Binding Modes of the Glioma Targeting NFL-TBS.40-63 Peptide on Tubulin}, journal = {Biochemistry}, volume = {54}, number = {23}, year = {2015}, month = {jun}, pages = {3660{\textendash}3669}, doi = {10.1021/acs.biochem5b00146}, author = {Laurin, Y. and Savarin, P. and Charles H. Robert and M. Takahashi and Eyer, J. and Chantal Pr{\'e}vost and S Sacquin-Mora} } @article {2015|1975, title = {{A}llosteric and hyperekplexic mutant phenotypes investigated on an α1 glycine receptor transmembrane structure}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {112}, number = {9}, year = {2015}, month = {mar}, pages = {2865{\textendash}2870}, author = {Moraga-Cid, G. and Sauguet, L. and Huon, C. and Malherbe, L. and Girard-Blanc, C. and Petres, S. and Murail, S. and Antoine Taly and Marc Baaden and Delarue, M. and Corringer, P. J.} } @article {2015|1729, title = {The mechanochemistry of copper reports on the directionality of unfolding in model cupredoxin proteins.}, journal = {Nature Comm.}, volume = {6}, year = {2015}, pages = {7894}, abstract = {

Understanding the directionality and sequence of protein unfolding is crucial to elucidate the underlying folding free energy landscape. An extra layer of complexity is added in metalloproteins, where a metal cofactor participates in the correct, functional fold of the protein. However, the precise mechanisms by which organometallic interactions are dynamically broken and reformed on (un)folding are largely unknown. Here we use single molecule force spectroscopy AFM combined with protein engineering and MD simulations to study the individual unfolding pathways of the blue-copper proteins azurin and plastocyanin. Using the nanomechanical properties of the native copper centre as a structurally embedded molecular reporter, we demonstrate that both proteins unfold via two independent, competing pathways. Our results provide experimental evidence of a novel kinetic partitioning scenario whereby the protein can stochastically unfold through two distinct main transition states placed at the N and C termini that dictate the direction in which unfolding occurs.

}, isbn = {doi:10.1038/ncomms8894}, issn = {2041-1723}, doi = {10.1038/ncomms8894}, url = {http://www.nature.com/ncomms/2015/150803/ncomms8894/abs/ncomms8894.html}, author = {Beedle, Amy E M and Lezamiz, Ainhoa and Guillaume Stirnemann and Garcia-Manyes, Sergi} } @article {2015|1664, title = {Membrane Protein Structure, Function, and Dynamics: a Perspective from Experiments and Theory.}, journal = {J. Membr. Biol.}, volume = {248}, year = {2015}, publisher = {Biomedical Research Foundation, Academy of Athens, 4 Soranou Ephessiou, 11527, Athens, Greece, zcournia@bioacademy.gr.}, chapter = {611}, abstract = {

Membrane proteins mediate processes that are fundamental for the flourishing of biological cells. Membrane-embedded transporters move ions and larger solutes across membranes; receptors mediate communication between the cell and its environment and membrane-embedded enzymes catalyze chemical reactions. Understanding these mechanisms of action requires knowledge of how the proteins couple to their fluid, hydrated lipid membrane environment. We present here current studies in computational and experimental membrane protein biophysics, and show how they address outstanding challenges in understanding the complex environmental effects on the structure, function, and dynamics of membrane proteins.

}, doi = {10.1007/s00232-015-9802-0}, author = {Cournia, Zoe and Allen, Toby W. and Andricioaei, Ioan and Antonny, Bruno and Baum, Daniel and Grace Brannigan and Buchete, Nicolae-Viorel and Deckman, Jason T. and Delemotte, Lucie and Del Val, Coral and Friedman, Ran and Gkeka, Paraskevi and Hege, Hans-Christian and J{\'e}r{\^o}me H{\'e}nin and Kasimova, Marina A. and Kolocouris, Antonios and Michael L Klein and Khalid, Syma and Lemieux, M Joanne and Lindow, Norbert and Roy, Mahua and Selent, Jana and Mounir Tarek and Tofoleanu, Florentina and Vanni, Stefano and Urban, Sinisa and Wales, David J. and Smith, Jeremy C. and Bondar, Ana-Nicoleta} } @article {2015|1646, title = {Molecular structure of the NQTrp inhibitor with the Alzheimer A beta 1-28 monomer}, journal = {Eur. J. Med. Chem.}, volume = {91}, year = {2015}, month = {feb}, pages = {43{\textendash}50}, doi = {10.1016/j.ejmech.2014.07.002}, author = {Tarus, Bogdan and Phuong Hoang Nguyen and Berthoumieu, Olivia and Faller, Peter and Doig, Andrew J. and Philippe Derreumaux} } @article {2015|1549, title = {{N}othing to sneeze at: a dynamic and integrative computational model of an influenza {A} virion}, journal = {Structure}, volume = {23}, number = {3}, year = {2015}, month = {mar}, pages = {584{\textendash}597}, author = {Reddy, T. and Shorthouse, D. and Parton, D. L. and Jefferys, E. and Fowler, P. W. and Matthieu Chavent and Marc Baaden and Sansom, M. S.} } @article {2015|1449, title = {{P}redicting and exploring complex nucleic acids architectures through a coarse-grained model}, journal = {J. Biomol. Struct. Dyn.}, volume = {33 Suppl 1}, year = {2015}, pages = {30{\textendash}31}, author = {Cragnolini, T. and Doutreligne, S. and Marc Baaden and Philippe Derreumaux and Pasquali, S.} } @article {2015|1705, title = {Picosecond dissociation of amyloid fibrils with infrared laser: A nonequilibrium simulation study}, journal = {J. Chem. Phys.}, volume = {143}, number = {15}, year = {2015}, month = {oct}, pages = {155101}, doi = {10.1063/1.4933207}, author = {Man Hoang Viet and Philippe Derreumaux and Mai Suan Li and Roland, Christopher and Sagui, Celeste and Phuong Hoang Nguyen} } @article {2015|1745, title = {Picosecond melting of peptide nanotubes using an infrared laser: a nonequilibrium simulation study}, journal = {Phys. Chem. Chem. Phys.}, volume = {17}, number = {41}, year = {2015}, pages = {27275{\textendash}27280}, doi = {10.1039/c5cp04401d}, author = {Viet, Man Hoang and Phan Minh Truong and Philippe Derreumaux and Li, Mai Suan and Roland, Christopher and Sagui, Celeste and Phuong Hoang Nguyen} } @article {2015|1732, title = {The poor homology stringency in the heteroduplex allows strand exchange to incorporate desirable mismatches without sacrificing recognition in vivo}, journal = {Nucleic Acids Res.}, volume = {43}, year = {2015}, month = {jul}, pages = {6473{\textendash}85}, abstract = {

RecA family proteins are responsible for homology search and strand exchange. In bacteria, homology search begins after RecA binds an initiating single-stranded DNA (ssDNA) in the primary DNA-binding site, forming the presynaptic filament. Once the filament is formed, it interrogates double-stranded DNA (dsDNA). During the interrogation, bases in the dsDNA attempt to form Watson-Crick bonds with the corresponding bases in the initiating strand. Mismatch dependent instability in the base pairing in the heteroduplex strand exchange product could provide stringent recognition; however, we present experimental and theoretical results suggesting that the heteroduplex stability is insensitive to mismatches. We also present data suggesting that an initial homology test of 8 contiguous bases rejects most interactions containing more than 1/8 mismatches without forming a detectable 20 bp product. We propose that, in vivo, the sparsity of accidental sequence matches allows an initial 8 bp test to rapidly reject almost all non-homologous sequences. We speculate that once the initial test is passed, the mismatch insensitive binding in the heteroduplex allows short mismatched regions to be incorporated in otherwise homologous strand exchange products even though sequences with less homology are eventually rejected.

}, doi = {10.1093/nar/gkv610}, author = {Danilowicz, Claudia and Yang, Darren and Kelley, Craig and Chantal Pr{\'e}vost and Prentiss, Mara} } @article {2015|1701, title = {Predicting and exploring complex nucleic acids architectures through a coarse-grained model}, journal = {Journal of Biomolecular Structure \& Dynamics}, volume = {33}, year = {2015}, pages = {30{\textendash}31}, doi = {10.1080/07391102.2015.1032593}, author = {Cragnolini, T. and Doutreligne, S. and Marc Baaden and Philippe Derreumaux and Pasquali, S.} } @article {2015|1709, title = {Protein Simulations in Fluids: Coupling the OPEP Coarse-Grained Force Field with Hydrodynamics}, journal = {J. Chem. Theory Comput.}, volume = {11}, number = {4}, year = {2015}, month = {apr}, pages = {1843{\textendash}1853}, doi = {10.1021/ct501015h}, author = {Fabio Sterpone and Philippe Derreumaux and Melchionna, Simone} } @article {2015|1677, title = {Recovering protein thermal stability using all-atom Hamiltonian replica-exchange simulations in explicit solvent}, journal = {J. Chem. Theo. Comput.}, volume = {11}, year = {2015}, pages = {5573{\textendash}5577}, abstract = {

The REST2 method is successfully applied to investigate the thermal stability of chignolin CLN025 and of Trp-cage. As opposed to temperature replica exchange, REST2 relies on the rescaling of the protein potential energy, which allows a smaller number of replicas. The shape of the stability curve reconstructed on the basis of the corresponding-state principle is in very good agreement with experimental data; for chignolin, the effect of mutations is also recovered.

}, issn = {15499626}, doi = {10.1021/acs.jctc.5b00954}, author = {Guillaume Stirnemann and Fabio Sterpone} } @article {2015|1727, title = {Replica-exchange molecular dynamics simulation for understanding the initial process of amyloid peptide aggregation}, journal = {Mol. Simul.}, volume = {41}, number = {10-12}, year = {2015}, month = {aug}, pages = {1041{\textendash}1044}, author = {Nishikawa, Naohiro and Phuong Hoang Nguyen and Philippe Derreumaux and Okamoto, Yuko} } @article {2015|1668, title = {Role of Internal Water on Protein Thermal Stability: The Case of Homologous G Domains.}, journal = {J. Phys. Chem. B}, volume = {119}, year = {2015}, month = {jul}, pages = {8939{\textendash}49}, abstract = {

In this work, we address the question of whether the enhanced stability of thermophilic proteins has a direct connection with internal hydration. Our model systems are two homologous G domains of different stability: the mesophilic G domain of the elongation factor thermal unstable protein from E. coli and the hyperthermophilic G domain of the EF-1α protein from S. solfataricus. Using molecular dynamics simulation at the microsecond time scale, we show that both proteins host water molecules in internal cavities and that these molecules exchange with the external solution in the nanosecond time scale. The hydration free energy of these sites evaluated via extensive calculations is found to be favorable for both systems, with the hyperthermophilic protein offering a slightly more favorable environment to host water molecules. We estimate that, under ambient conditions, the free energy gain due to internal hydration is about 1.3 kcal/mol in favor of the hyperthermophilic variant. However, we also find that, at the high working temperature of the hyperthermophile, the cavities are rather dehydrated, meaning that under extreme conditions other molecular factors secure the stability of the protein. Interestingly, we detect a clear correlation between the hydration of internal cavities and the protein conformational landscape. The emerging picture is that internal hydration is an effective observable to probe the conformational landscape of proteins. In the specific context of our investigation, the analysis confirms that the hyperthermophilic G domain is characterized by multiple states and it has a more flexible structure than its mesophilic homologue.

}, issn = {1520-5207}, doi = {10.1021/jp507571u}, author = {Rahaman, Obaidur and Kalimeri, Maria and Melchionna, Simone and J{\'e}r{\^o}me H{\'e}nin and Fabio Sterpone} } @article {2015|1769, title = {Stay Wet, Stay Stable? How Internal Water Helps the Stability of Thermophilic Proteins}, journal = {The Journal of Physical Chemistry B}, volume = {119}, number = {40}, year = {2015}, pages = {12760{\textendash}12770}, publisher = {American Chemical Society}, author = {Chakraborty, Debashree and Antoine Taly and Fabio Sterpone} } @article {2015|1641, title = {Structure/function relationships in RecA protein-mediated homology recognition and strand exchange}, journal = {Crit. Rev. Biochem. Mol. Biol.}, volume = {50}, year = {2015}, pages = {453{\textendash}76}, abstract = {RecA family proteins include RecA, Rad51, and Dmc1. These recombinases are responsible for homology search and strand exchange. Homology search and strand exchange occur during double-strand break repair and in eukaryotes during meiotic recombination. In bacteria, homology search begins when RecA binds an initiating single-stranded DNA (ssDNA) in the primary DNA-binding site to form the presynaptic filament. The filament is a right-handed helix, where the initiating strand is bound deep within the filament. Once the presynaptic filament is formed, it interrogates nearby double-stranded DNA (dsDNA) to find a homologous sequence; therefore, we provide a detailed discussion of structural features of the presynaptic filament that play important functional roles. The discussion includes many diagrams showing multiple filament turns. These diagrams illustrate interactions that are not evident in single turn structures. The first dsDNA interactions with the presynaptic filament are insensitive to mismatches. The mismatch insensitive interactions lead to dsDNA deformation that triggers a homology testing process governed by kinetics. The first homology test involves {\^a}ˆ{\textonequarter}8 bases. Almost all interactions are rejected by this initial rapid test, leading to a new cycle of homology testing. Interactions that pass the initial rapid test proceed to a slower testing stage. That slower stage induces nonhomologous dsDNA to reverse strand exchange and begin a new cycle of homology testing. In contrast, homologous dsDNA continues to extend the heteroduplex strand-exchange product until ATP hydrolysis makes strand exchange irreversible.}, keywords = {Double-strand break repair, meiosis, meiotic recombination, Rad51, recombinase}, doi = {10.3109/10409238.2015.1092943}, author = {Prentiss, Mara and Chantal Pr{\'e}vost and Danilowicz, Claudia} } @article {2015|1714, title = {Structures of the Alzheimer{\textquoteright}s Wild-Type A beta 1-40 Dimer from Atomistic Simulations}, journal = {J. Phys. Chem. B}, volume = {119}, number = {33}, year = {2015}, pages = {10478{\textendash}10487}, doi = {10.1021/acs.jpcb.5b05593}, author = {Tarus, Bogdan and Thanh-Thuy Tran and Nasica-Labouze, Jessica and Fabio Sterpone and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2015, title = {{T}aming molecular flexibility to tackle rare diseases}, journal = {Biochimie}, volume = {113}, year = {2015}, pages = {54{\textendash}58}, author = {Cubellis, M. V. and Marc Baaden and Andreotti, G.} } @article {2015|2000, title = {{T}he plastid terminal oxidase: its elusive function points to multiple contributions to plastid physiology}, journal = {Annu. Rev. Plant Biol.}, volume = {66}, number = {1}, year = {2015}, pages = {49{\textendash}74}, publisher = {Annual Reviews}, author = {Nawrocki, W. J. and Tourasse, N. J. and Antoine Taly and Rappaport, F. and Wollman, F. A.} } @article {2015|1414, title = {{T}hree-dimensional representations of complex carbohydrates and polysaccharides{\textendash}{S}weet{U}nity{M}ol: a video game-based computer graphic software}, journal = {Glycobiology}, volume = {25}, number = {5}, year = {2015}, month = {may}, pages = {483{\textendash}491}, author = {Perez, S. and Tubiana, T. and Imberty, A. and Marc Baaden} } @conference {2015|1555, title = {UnityMol: interactive and ludic visual manipulation of coarse-grained RNA and other biomolecules}, booktitle = {Virtual and Augmented Reality for Molecular Science (VARMS@IEEEVR), 2015 IEEE 1st International Workshop on}, year = {2015}, month = {mar}, pages = {1{\textendash}6}, keywords = {biomolecular systems, coarse-grained RNA, collaborative research applications, data visualisation, feature extracti, HireRNA physics engine, interactive systems, Ludic visual manipulation, molecular biophysics, RNA, software architecture, teaching, UnityMol framework}, author = {S. Doutreligne and C. Gageat and T. Cragnolini and Antoine Taly and S. Pasquali and Philippe Derreumaux and Marc Baaden} } @conference {2015|1408, title = {Visualization of Biomolecular Structures: State of the Art}, booktitle = {Eurographics Conference on Visualization (EuroVis) - STARs}, year = {2015}, publisher = {The Eurographics Association}, organization = {The Eurographics Association}, author = {Kozlikova, Barbora and Krone, Michael and Lindow, Norbert and Falk, Martin and Marc Baaden and Baum, Daniel and Viola, Ivan and Parulek, Julius and Hege, Hans-Christian}, editor = {R. Borgo and F. Ganovelli and I. Viola} } @conference {2015|1609, title = {What Computational Methods can Teach us about the Alzheimer-Protective Nature of A2V-and A2T-Mutant Amyloid-Beta Oligomers}, booktitle = {Biophys. J.}, volume = {108}, number = {2}, year = {2015}, pages = {204A-204A}, author = {Nasica-Labouze, Jessica and Tarus, Bogdan and Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2014|1792, title = {Allosteric regulation of pentameric ligand-gated ion channels: An emerging mechanistic perspective}, journal = {Channels}, volume = {8}, number = {4}, year = {2014}, pages = {350{\textendash}360}, keywords = {Allosteric Regulation, Animals, chemistry/metabolism, Humans, Ion Channel Gating, Ligand-Gated Ion Channels, metabolism, Models, Molecular, Protein Multimerization, Small Molecule Libraries}, author = {Antoine Taly and J{\'e}r{\^o}me H{\'e}nin and Changeux, Jean-Pierre and Cecchini, Marco} } @article {2014|1888, title = {Amyloid oligomer structure characterization from simulations: A general method}, journal = {J. Chem. Phys.}, volume = {140}, number = {9}, year = {2014}, month = {mar}, pages = {094105}, doi = {10.1063/1.4866902}, author = {Phuong Hoang Nguyen and Li, Mai Suan and Philippe Derreumaux} } @article {2014|1931, title = {Assessing the effect of dynamics on the closed-loop protein-folding hypothesis}, journal = {Journal of the Royal Society Interface}, volume = {11}, number = {91}, year = {2014}, pages = {20130935}, doi = {10.1098/rsif.2013.0935}, url = {http://rsif.royalsocietypublishing.org/content/11/91/20130935.abstract}, author = {Chintapalli, Sree V. and Illingworth, Christopher J. R. and Upton, Graham J. G. and S Sacquin-Mora and Reeves, Philip J. and Mohammedali, Hani S. and Reynolds, Christopher A.} } @article {2014|1380, title = {Atomic and Dynamic Insights into the Beneficial Effect of the 1,4-Naphthoquinon-2-yl-L-tryptophan Inhibitor on Alzheimer{\textquoteright}s A beta 1-42 Dimer in Terms of Aggregation and Toxicity}, journal = {Acs Chem. Neurosci.}, volume = {5}, number = {2}, year = {2014}, month = {feb}, pages = {148{\textendash}159}, author = {Zhang, Tong and Xu, Weixin and Mu, Yuguang and Philippe Derreumaux} } @article {2014|1945, title = {Atomic force microscopy study of DNA flexibility on short length scales: Smooth bending versus kinking}, journal = {Nucleic. Acids. Res.}, volume = {42}, year = {2014}, pages = {14006{\textendash}14012}, author = {Alexey K Mazur and Mounir Maaloum} } @proceedings {2014|1577, title = {{BIOIMAGING} 2014 - Proceedings of the International Conference on Bioimaging, ESEO, Angers, Loire Valley, France, 3-6 March, 2014}, year = {2014}, publisher = {SciTePress}, editor = {M{\'a}rio Forjaz Secca and Jan Schier and Guy Plantier and Tanja Schultz and Ana L. N. Fred and Hugo Gamboa} } @article {2014|1669, title = {CHARMM36 united atom chain model for lipids and surfactants.}, journal = {J. Phys. Chem. B}, volume = {118}, number = {2}, year = {2014}, month = {jan}, pages = {547{\textendash}556}, publisher = {, Maryland 20742, United States.}, abstract = {Molecular simulations of lipids and surfactants require accurate parameters to reproduce and predict experimental properties. Previously, a united atom (UA) chain model was developed for the CHARMM27/27r lipids (H{\'e}nin, J., et al. J. Phys. Chem. B. 2008, 112, 7008-7015) but suffers from the flaw that bilayer simulations using the model require an imposed surface area ensemble, which limits its use to pure bilayer systems. A UA-chain model has been developed based on the CHARMM36 (C36) all-atom lipid parameters, termed C36-UA, and agreed well with bulk, lipid membrane, and micelle formation of a surfactant. Molecular dynamics (MD) simulations of alkanes (heptane and pentadecane) were used to test the validity of C36-UA on density, heat of vaporization, and liquid self-diffusion constants. Then, simulations using C36-UA resulted in accurate properties (surface area per lipid, X-ray and neutron form factors, and chain order parameters) of various saturated- and unsaturated-chain bilayers. When mixed with the all-atom cholesterol model and tested with a series of 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC)/cholesterol mixtures, the C36-UA model performed well. Simulations of self-assembly of a surfactant (dodecylphosphocholine, DPC) using C36-UA suggest an aggregation number of 53 {\textpm} 11 DPC molecules at 0.45 M of DPC, which agrees well with experimental estimates. Therefore, the C36-UA force field offers a useful alternative to the all-atom C36 lipid force field by requiring less computational cost while still maintaining the same level of accuracy, which may prove useful for large systems with proteins.}, keywords = {analogs /\&/ derivatives/chemistry, chemistry, Cholesterol, Dimyristoylphosphatidylcholine, Lipid Bilayers, Lipids, Micelles, Molecular Dynamics Simulation, Phosphorylcholine, Surface-Active Agents}, doi = {10.1021/jp410344g}, author = {Lee, Sarah and Tran, Alan and Allsopp, Matthew and Lim, Joseph B. and J{\'e}r{\^o}me H{\'e}nin and Klauda, Jeffery B.} } @conference {2014|1784, title = {Coarse-Grain RNA Folding: Towards More Complex Structures}, booktitle = {Biophys. J.}, volume = {106}, number = {2, 1}, year = {2014}, note = {58th Annual Meeting of the Biophysical-Society, San Francisco, CA, FEB 15-19, 2014}, month = {jan}, pages = {283A}, author = {Cragnolini, Tristan and Laurin, Yoann and Philippe Derreumaux and Pasquali, Samuela} } @conference {2014|1385, title = {Content-guided Navigation in Multimeric Molecular Complexes}, booktitle = {{BIOIMAGING} 2014 - Proceedings of the International Conference on Bioimaging, ESEO, Angers, Loire Valley, France, 3-6 March, 2014}, year = {2014}, pages = {76{\textendash}81}, doi = {10.5220/0004914300760081}, author = {M. Trellet and Nicolas F{\'e}rey and Marc Baaden and P. Bourdot} } @article {2014|1433, title = {{A} cooperative mechanism of clotrimazoles in {P}450 revealed by the dissociation picture of clotrimazole from {P}450}, journal = {J. Chem. Inf. Model.}, volume = {54}, number = {4}, year = {2014}, note = {[DOI:\href{http://dx.doi.org/10.1021/ci400660e}{10.1021/ci400660e}] [PubMed:\href{http://www.ncbi.nlm.nih.gov/pubmed/24611729}{24611729}]}, month = {apr}, pages = {1218{\textendash}1225}, author = {Wang, M. and Marc Baaden and Wang, J. and Liang, Z.} } @article {2014|1951, title = {DNA flexibility on short length scales probed by atomic force microscopy}, journal = {Phys. Rev. Lett.}, volume = {112}, year = {2014}, pages = {068104}, author = {Alexey K Mazur and Mounir Maaloum} } @article {2014|1412, title = {{E}xa{V}iz: a flexible framework to analyse, steer and interact with molecular dynamics simulations}, journal = {Faraday Discuss.}, volume = {169}, year = {2014}, note = {[DOI:\href{http://dx.doi.org/10.1039/c3fd00142c}{10.1039/c3fd00142c}] [PubMed:\href{http://www.ncbi.nlm.nih.gov/pubmed/25340956}{25340956}]}, pages = {119{\textendash}142}, author = {Dreher, M and Prevoteau-Jonquet, J and Trellet, M and Piuzzi, M and Marc Baaden and Raffin, B and Nicolas F{\'e}rey and Robert, S and Limet, S.} } @article {2014|1379, title = {Effect of the English Familial Disease Mutation (H6R) on the Monomers and Dimers of A beta 40 and A beta 42}, journal = {Acs Chem. Neurosci.}, volume = {5}, number = {8}, year = {2014}, month = {aug}, pages = {646{\textendash}657}, author = {Man Hoang Viet and Phuong Hoang Nguyen and Philippe Derreumaux and Li, Mai Suan} } @article {2014|1927, title = {Familial Alzheimer A2 V Mutation Reduces the Intrinsic Disorder and Completely Changes the Free Energy Landscape of the A beta 1-28 Monomer}, journal = {J. Phys. Chem. B}, volume = {118}, number = {2}, year = {2014}, month = {jan}, pages = {501{\textendash}510}, doi = {10.1021/jp4115404}, author = {Phuong Hoang Nguyen and Tarus, Bogdan and Philippe Derreumaux} } @inbook {2014|1720, title = {Foundations of Biomolecular Simulations: A Critical Introduction to Homology Modeling, Molecular Dynamics Simulations, and Free Energy Calculations of Membrane Proteins}, booktitle = {Membrane Proteins Production for Structural Analysis}, year = {2014}, pages = {347{\textendash}392}, publisher = {Springer New York}, organization = {Springer New York}, author = {J{\'e}r{\^o}me H{\'e}nin and Marc Baaden and Antoine Taly} } @article {2014|1751, title = {How force unfolding differs from chemical denaturation.}, journal = {Proc. Natl. Acad. Sci. U.s.a}, volume = {111}, year = {2014}, pages = {3413{\textendash}8}, abstract = {

Single-molecule force spectroscopies are remarkable tools for studying protein folding and unfolding, but force unfolding explores protein configurations that are potentially very different from the ones traditionally explored in chemical or thermal denaturation. Understanding these differences is crucial because such configurations serve as starting points of folding studies, and thus can affect both the folding mechanism and the kinetics. Here we provide a detailed comparison of both chemically induced and force-induced unfolded state ensembles of ubiquitin based on extensive, all-atom simulations of the protein either extended by force or denatured by urea. As expected, the respective unfolded states are very different on a macromolecular scale, being fully extended under force with no contacts and partially extended in urea with many nonnative contacts. The amount of residual secondary structure also differs: A significant population of $\alpha$-helices is found in chemically denatured configurations but such helices are absent under force, except at the lowest applied force of 30 pN where short helices form transiently. We see that typical-size helices are unstable above this force, and $\beta$-sheets cannot form. More surprisingly, we observe striking differences in the backbone dihedral angle distributions for the protein unfolded under force and the one unfolded by denaturant. A simple model based on the dialanine peptide is shown to not only provide an explanation for these striking differences but also illustrates how the force dependence of the protein dihedral angle distributions give rise to the worm-like chain behavior of the chain upon force.

}, keywords = {Chemical, Hydrogen-Ion Concentration, Models, Molecular Dynamics Simulation, Protein Conformation, Protein Denaturation, Protein Folding, Protein Unfolding, Ubiquitin, Ubiquitin: chemistry, Urea, Urea: chemistry}, issn = {1091-6490}, url = {http://www.ncbi.nlm.nih.gov/pubmed/24550471}, author = {Guillaume Stirnemann and Kang, Seung-gu and Zhou, Ruhong and Berne, Bruce J} } @article {2014|1411, title = {{I}nnovative interactive flexible docking method for multi-scale reconstruction elucidates dystrophin molecular assembly}, journal = {Faraday Discuss.}, volume = {169}, year = {2014}, note = {[DOI:\href{http://dx.doi.org/10.1039/c3fd00134b}{10.1039/c3fd00134b}] [PubMed:\href{http://www.ncbi.nlm.nih.gov/pubmed/25340652}{25340652}]}, pages = {45{\textendash}62}, author = {Molza, A. E and Nicolas F{\'e}rey and Czjzek, M and Le Rumeur, E and Hubert, J. F and Tek, A and Laurent, B and Marc Baaden and Delalande, O.} } @article {2014|1893, title = {Improved PEP-FOLD Approach for Peptide and Miniprotein Structure Prediction}, journal = {J. Chem. Theory Comput.}, volume = {10}, number = {10}, year = {2014}, month = {oct}, pages = {4745{\textendash}4758}, doi = {10.1021/ct500592m}, author = {Shen, Yimin and Maupetit, Julien and Philippe Derreumaux and Pierre Tuffery} } @article {2014|1772, title = {INRIA Tech Report: Conformational ensembles and sampled landscapes: analysis and comparison.}, year = {2014}, author = {Fr{\'e}d{\'e}ric Cazals and T. Dreyfus and D. Mazauric and A. Roth and Charles H. Robert} } @article {2014|1964, title = {Interface Matters: The Stiffness Route to Stability of a Thermophilic Tetrameric Malate Dehydrogenase}, journal = {Plos One}, volume = {9}, number = {12}, year = {2014}, month = {dec}, pages = {e113895}, url = {http://dx.doi.org/10.1371\%2Fjournal.pone.0113895}, author = {Kalimeri, Maria and Girard, Eric and Madern, Dominique and Sterpone, Fabio} } @article {2014|1637, title = {{L}ong distance effect on ligand-gated ion channels extracellular domain may affect interactions with the intracellular machinery}, journal = {Commun. Integr. Biol.}, volume = {7}, year = {2014}, pages = {e27984}, author = {Garret, M. and Boue-Grabot, E. and Antoine Taly} } @article {2014|1717, title = {Lipid concentration and molar ratio boundaries for the use of isotropic bicelles.}, journal = {Langmuir}, volume = {30}, number = {21}, year = {2014}, month = {jun}, pages = {6162{\textendash}6170}, publisher = {Department of Chemistry, Universit{\'e} du Qu{\'e}bec {\`a} Montr{\'e}al and Centre Qu{\'e}b{\'e}cois sur les Mat{\'e}riaux Fonctionnels , P.O. Box 8888, Downtown Station, Montreal, Canada H3C 3P8.}, abstract = {Bicelles are model membranes generally made of long-chain dimyristoylphosphatidylcholine (DMPC) and short-chain dihexanoyl-PC (DHPC). They are extensively used in the study of membrane interactions and structure determination of membrane-associated peptides, since their composition and morphology mimic the widespread PC-rich natural eukaryotic membranes. At low DMPC/DHPC (q) molar ratios, fast-tumbling bicelles are formed in which the DMPC bilayer is stabilized by DHPC molecules in the high-curvature rim region. Experimental constraints imposed by techniques such as circular dichroism, dynamic light scattering, or microscopy may require the use of bicelles at high dilutions. Studies have shown that such conditions induce the formation of small aggregates and alter the lipid-to-detergent ratio of the bicelle assemblies. The objectives of this work were to determine the exact composition of those DMPC/DHPC isotropic bicelles and study the lipid miscibility. This was done using (31)P nuclear magnetic resonance (NMR) and exploring a wide range of lipid concentrations (2-400 mM) and q ratios (0.15-2). Our data demonstrate how dilution modifies the actual DMPC/DHPC molar ratio in the bicelles. Care must be taken for samples with a total lipid concentration <=250 mM and especially at q \~{} 1.5-2, since moderate dilutions could lead to the formation of large and slow-tumbling lipid structures that could hinder the use of solution NMR methods, circular dichroism or dynamic light scattering studies. Our results, supported by infrared spectroscopy and molecular dynamics simulations, also show that phospholipids in bicelles are largely segregated only when q > 1. Boundaries are presented within which control of the bicelles{\textquoteright} q ratio is possible. This work, thus, intends to guide the choice of q ratio and total phospholipid concentration when using isotropic bicelles.}, keywords = {chemistry, Circular Dichroism, Detergents, Dimyristoylphosphatidylcholine, Fourier Transform Infrared, Light, Lipid Bilayers, Magnetic Resonance Spectroscopy, Materials Testing, Micelles, Molecular Dynamics Simulation, Phospholipid Ethers, Phospholipids, Radiation, Scattering, Solutions, Spectroscopy, Temperature}, doi = {10.1021/la5004353}, author = {Beaugrand, Ma\"{\i}wenn and Arnold, Alexandre A. and J{\'e}r{\^o}me H{\'e}nin and Warschawski, Dror E. and Williamson, Philip T F. and Marcotte, Isabelle} } @article {2014|1413, title = {{M}olecular simulations and visualization: introduction and overview}, journal = {Faraday Discuss.}, volume = {169}, year = {2014}, note = {[DOI:\href{http://dx.doi.org/10.1039/c4fd90024c}{10.1039/c4fd90024c}] [PubMed:\href{http://www.ncbi.nlm.nih.gov/pubmed/25285906}{25285906}]}, pages = {9{\textendash}22}, author = {Hirst, J. D. and Glowacki, D. R. and Marc Baaden} } @article {2014|1937, title = {Motions and mechanics: investigating conformational transitions in multi-domain proteins with coarse-grain simulations}, journal = {Mol. Simul.}, volume = {40}, number = {1-3}, year = {2014}, month = {jan}, pages = {229{\textendash}236}, doi = {10.1080/08927022.2013.843176}, author = {S Sacquin-Mora} } @article {2014|2015, title = {Multiscale Simulations Give Insight into the Hydrogen In and Out Pathways of [NiFe]-Hydrogenases from Aquifex aeolicus and Desulfovibrio fructosovorans}, journal = {J. Phys. Chem. B}, volume = {118}, number = {48}, year = {2014}, month = {dec}, pages = {13800{\textendash}13811}, doi = {10.1021/jp5089965}, author = {Oteri, F and Marc Baaden and Lojou, E and S Sacquin-Mora} } @article {2014|1798, title = {The OPEP protein model: from single molecules, amyloid formation, crowding and hydrodynamics to DNA/RNA systems}, journal = {Chem. Soc. Rev.}, volume = {43}, number = {13}, year = {2014}, pages = {4871{\textendash}4893}, doi = {10.1039/c4cs00048j}, author = {F. Sterpone and S. Melchionna and Pierre Tuffery and S. Pasquali and N. Mousseau and T. Cragnolini and Y Chebaro and J.-F. St-Pierre and M. Kalimeri and A. Barducci and Y. Laurin and A. Tek and Marc Baaden and Phuong Hoang Nguyen and Philippe Derreumaux} } @conference {2014|1760, title = {Optogating a powerful approach to control an ion-channel gate}, booktitle = {PURINERGIC SIGNALLING}, volume = {10}, number = {4}, year = {2014}, pages = {762{\textendash}762}, publisher = {SPRINGER VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS}, organization = {SPRINGER VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS}, author = {Lemoine, Damien and Habermacher, Chlo{\'e} and Martz, Adeline and M{\'e}ry, Pierre-Fran\c cois and Bouquier, Nathalie and Diverchy, Fanny and Antoine Taly and Rassendren, Fran\c cois and Specht, Alexandre and Grutter, Thomas} } @article {2014|1598, title = {A predicted binding site for cholesterol on the GABAA receptor.}, journal = {Biophys. J.}, volume = {106}, number = {9}, year = {2014}, month = {may}, pages = {1938{\textendash}1949}, publisher = {Department of Physics, Rutgers University-Camden, Camden, New Jersey; Center for Computational and Integrative Biology, Rutgers University-Camden, Camden, New Jersey. Electronic address: Grace.Brannigan@rutgers.edu.}, abstract = {Modulation of the GABA type A receptor (GABAAR) function by cholesterol and other steroids is documented at the functional level, yet its structural basis is largely unknown. Current data on structurally related modulators suggest that cholesterol binds to subunit interfaces between transmembrane domains of the GABAAR. We construct homology models of a human GABAAR based on the structure of the glutamate-gated chloride channel GluCl of Caenorhabditis elegans. The models show the possibility of previously unreported disulfide bridges linking the M1 and M3 transmembrane helices in the α and γ subunits. We discuss the biological relevance of such disulfide bridges. Using our models, we investigate cholesterol binding to intersubunit cavities of the GABAAR transmembrane domain. We find that very similar binding modes are predicted independently by three approaches: analogy with ivermectin in the GluCl crystal structure, automated docking by AutoDock, and spontaneous rebinding events in unbiased molecular dynamics simulations. Taken together, the models and atomistic simulations suggest a somewhat flexible binding mode, with several possible orientations. Finally, we explore the possibility that cholesterol promotes pore opening through a wedge mechanism.}, keywords = {Amino Acid, Binding Sites, Caenorhabditis elegans Proteins, chemistry, chemistry/metabolism, Chloride Channels, Cholesterol, GABA-A, Humans, Hydrogen Bonding, Ivermectin, metabolism, Molecular Docking Simulation, Molecular Dynamics Simulation, Porosity, Protein Binding, Protein Conformation, Receptors, Sequence Homology, Substrate Specificity}, doi = {10.1016/j.bpj.2014.03.024}, author = {J{\'e}r{\^o}me H{\'e}nin and Salari, Reza and Murlidaran, Sruthi and Grace Brannigan} } @article {2014|1518, title = {{T}he weak, fluctuating, dipole moment of membrane-bound hydrogenase from {A}quifex aeolicus accounts for its adaptability to charged electrodes}, journal = {Phys. Chem. Chem. Phys.}, volume = {16}, number = {23}, year = {2014}, month = {may}, pages = {11318{\textendash}11322}, author = {Oteri, F and Ciaccafava, A and Poulpiquet, A and Marc Baaden and Lojou, E and S Sacquin-Mora} } @article {2014|1905, title = {Theoretical study of the NLO responses of some natural and unnatural amino acids used as probe molecules}, journal = {J. Mol. Model.}, volume = {20}, number = {8}, year = {2014}, month = {aug}, pages = {2388}, doi = {10.1007/s00894-014-2388-0}, author = {Derrar, S. N. and Sekkal-Rahal, M. and Philippe Derreumaux and Springborg, M.} } @article {2014|1645, title = {Type VI secretion and bacteriophage tail tubes share a common assembly pathway.}, journal = {Embo Rep.}, volume = {15}, year = {2014}, month = {mar}, pages = {315{\textendash}21}, abstract = {

The Type VI secretion system (T6SS) is a widespread macromolecular structure that delivers protein effectors to both eukaryotic and prokaryotic recipient cells. The current model describes the T6SS as an inverted phage tail composed of a sheath-like structure wrapped around a tube assembled by stacked Hcp hexamers. Although recent progress has been made to understand T6SS sheath assembly and dynamics, there is no evidence that Hcp forms tubes in vivo. Here we show that Hcp interacts with TssB, a component of the T6SS sheath. Using a cysteine substitution approach, we demonstrate that Hcp hexamers assemble tubes in an ordered manner with a head-to-tail stacking that are used as a scaffold for polymerization of the TssB/C sheath-like structure. Finally, we show that VgrG but not TssB/C controls the proper assembly of the Hcp tubular structure. These results highlight the conservation in the assembly mechanisms between the T6SS and the bacteriophage tail tube/sheath.

}, keywords = {Amino Acid Sequence, Bacterial Secretion Systems, Escherichia coli, Escherichia coli Proteins, Molecular Sequence Data, Protein Binding, Protein Multimerization, Protein Structure, Tertiary, Virulence Factors}, issn = {1469-3178}, doi = {10.1002/embr.201337936}, author = {Brunet, Yannick R and J{\'e}r{\^o}me H{\'e}nin and Celia, Herv{\'e} and Cascales, Eric} } @article {2014, title = {Understanding Amyloid Fibril Nucleation and A beta Oligomer/Drug Interactions from Computer Simulations}, journal = {Acc. Chem. Res.}, volume = {47}, number = {2}, year = {2014}, pages = {603{\textendash}611}, author = {Nguyent, Phuong and Philippe Derreumaux} } @conference {2014|1496, title = {UnityMol: Interactive scientific visualization for integrative biology}, booktitle = {Large Data Analysis and Visualization (LDAV), 2014 IEEE 4th Symposium on}, year = {2014}, month = {nov}, pages = {109{\textendash}110}, keywords = {biology computing, biomolecular system visualization, data analysis, data exploration, data representation, data visualisation, information extraction, integrative biology, interactive scientific visualization, interactive virtual lab, molecular biophysics, UnityMol}, author = {S. Doutreligne and T. Cragnolini and S. Pasquali and Philippe Derreumaux and Marc Baaden} } @conference {2014|1783, title = {Wide Exploration of OPEP Protein Energy Landscapes using Advanced Monte Carlo Methods}, booktitle = {Biophys. J.}, volume = {106}, number = {2, 1}, year = {2014}, note = {58th Annual Meeting of the Biophysical-Society, San Francisco, CA, FEB 15-19, 2014}, month = {jan}, pages = {256A}, author = {Cragnolini, Tristan and Sutherland-Cash, Kyle H. and Wales, David and Pasquali, Samuela and Philippe Derreumaux} } @article {2013|1699, title = {Agonist-dependent endocytosis of $\gamma$-aminobutyric acid type A (GABAA) receptors revealed by a $\gamma$2 (R43Q) epilepsy mutation}, journal = {J. Biol. Chem.}, volume = {288}, number = {39}, year = {2013}, pages = {28254{\textendash}28265}, publisher = {American Society for Biochemistry and Molecular Biology}, author = {Chaumont, Severine and Andr{\'e}, Caroline and Perrais, David and Bou{\'e}-Grabot, Eric and Antoine Taly and Garret, Maurice} } @article {2013|1938, title = {Allosteric signaling and dynamics of the clamshell-like NMDA receptor GluN1 N-terminal domain}, journal = {Nature Structural \& Molecular Biology}, volume = {20}, number = {4}, year = {2013}, pages = {477{\textendash}485}, publisher = {Nature Publishing Group}, author = {Zhu, Shujia and Stroebel, David and Yao, C Andrea and Antoine Taly and Paoletti, Pierre} } @article {2013|1797, title = {Biomolecular hydration dynamics: a jump model perspective}, journal = {Chem. Soc. Rev.}, volume = {42}, number = {13}, year = {2013}, pages = {5672{\textendash}5683}, author = {Fogarty, Aoife C. and Elise Dubou{\'e}-Dijon and Sterpone, Fabio and Hynes, James T. and Laage, Damien} } @article {2013|1403, title = {{C}oarse-grain modelling of protein-protein interactions}, journal = {Curr. Opin. Struct. Biol.}, volume = {23}, number = {6}, year = {2013}, pages = {878{\textendash}886}, author = {Marc Baaden and Marrink, S. J.} } @article {2013|1498, title = {coarse-grained models for protein folding ang aggregation}, journal = {Methods Mol. Biol.}, volume = {924}, year = {2013}, pages = {585{\textendash}600}, author = {Philippe Derreumaux} } @article {2013|1923, title = {Coarse-Grained Simulations of RNA and DNA Duplexes}, journal = {J. Phys. Chem. B}, volume = {117}, number = {27}, year = {2013}, month = {jul}, pages = {8047{\textendash}8060}, doi = {10.1021/jp400786b}, author = {Cragnolini, Tristan and Philippe Derreumaux and Pasquali, Samuela} } @article {2013|1523, title = {Comment on {\textquoteleft}{\textquoteleft}Length Scale Dependence of DNA Mechanical Properties{{\textquoteright}{\textquoteright}}}, journal = {Phys. Rev. Lett.}, volume = {111}, number = {17}, year = {2013}, month = {oct}, author = {Alexey K Mazur} } @article {2013|1743, title = {Comment on {\textquoteright}Length scale dependence of DNA mechanical properties{\textquoteright}}, journal = {Phys. Rev. Lett.}, volume = {111}, year = {2013}, pages = {179801}, author = {Alexey K Mazur} } @article {2013|1887, title = {Communication: Simulated tempering with fast on-the-fly weight determination}, journal = {J. Chem. Phys.}, volume = {138}, number = {6}, year = {2013}, month = {feb}, pages = {061102}, doi = {10.1063/1.4792046}, author = {Phuong Hoang Nguyen and Okamoto, Yuko and Philippe Derreumaux} } @article {2013|1924, title = {Conformational Ensemble and Polymorphism of the All-Atom Alzheimer{\textquoteright}s A beta(37-42) Amyloid Peptide Oligomers}, journal = {J. Phys. Chem. B}, volume = {117}, number = {19}, year = {2013}, month = {may}, pages = {5831{\textendash}5840}, doi = {10.1021/jp401563n}, author = {Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2013|1904, title = {Density functional conformational study of 2-O-sulfated 3,6 anhydro-alpha-D-galactose and of neo-kappa- and iota-carrabiose molecules in gas phase and water}, journal = {J. Mol. Model.}, volume = {19}, number = {2}, year = {2013}, month = {feb}, pages = {893{\textendash}904}, doi = {10.1007/s00894-012-1621-y}, author = {Bestaoui-Berrekhchi-Berrahma, Noreya and Philippe Derreumaux and Sekkal-Rahal, Majda and Springborg, Michael and Sayede, Adlane and Yousfi, Noureddine and Kadoun, Abd-Ed-Daim} } @article {2013|1956, title = {The effect of protein composition on hydration dynamics}, journal = {Phys. Chem. Chem. Phys.}, volume = {15}, number = {10}, year = {2013}, pages = {3570{\textendash}3576}, publisher = {The Royal Society of Chemistry}, abstract = {Water dynamics at the surface of two homologous proteins with different thermal resistances is found to be unaffected by the different underlying amino-acid compositions{,} and when proteins are folded it responds similarly to temperature variations. Upon unfolding the water dynamics slowdown with respect to bulk decreases by a factor of two. Our findings are explained by the dominant topological perturbation induced by the protein on the water hydrogen bond dynamics.}, author = {Rahaman, O. and Melchionna, S. and Laage, D. and Sterpone, F.} } @article {2013, title = {Effect of the Tottori Familial Disease Mutation (D7N) on the Monomers and Dimers of A beta(40) and A beta(42)}, journal = {Acs Chem. Neurosci.}, volume = {4}, number = {11}, year = {2013}, month = {nov}, pages = {1446{\textendash}1457}, author = {Man Hoang Viet and Phuong Hoang Nguyen and Son Tung Ngo and Li, Mai Suan and Philippe Derreumaux} } @article {2013|1752, title = {Elasticity, structure, and relaxation of extended proteins under force.}, journal = {Proc. Natl. Acad. Sci. U.s.a}, volume = {110}, year = {2013}, pages = {3847{\textendash}52}, abstract = {

Force spectroscopies have emerged as a powerful and unprecedented tool to study and manipulate biomolecules directly at a molecular level. Usually, protein and DNA behavior under force is described within the framework of the worm-like chain (WLC) model for polymer elasticity. Although it has been surprisingly successful for the interpretation of experimental data, especially at high forces, the WLC model lacks structural and dynamical molecular details associated with protein relaxation under force that are key to the understanding of how force affects protein flexibility and reactivity. We use molecular dynamics simulations of ubiquitin to provide a deeper understanding of protein relaxation under force. We find that the WLC model successfully describes the simulations of ubiquitin, especially at higher forces, and we show how protein flexibility and persistence length, probed in the force regime of the experiments, are related to how specific classes of backbone dihedral angles respond to applied force. Although the WLC model is an average, backbone model, we show how the protein side chains affect the persistence length. Finally, we find that the diffusion coefficient of the protein{\textquoteright}s end-to-end distance is on the order of 10(8) nm(2)/s, is position and side-chain dependent, but is independent of the length and independent of the applied force, in contrast with other descriptions.

}, keywords = {Atomic Force, Biophysical Phenomena, Computer Simulation, Elasticity, Mechanical, Microscopy, Models, Molecular, Molecular Dynamics Simulation, Proteins, Proteins: chemistry, Stress, Ubiquitin, Ubiquitin: chemistry}, issn = {1091-6490}, url = {http://www.pnas.org/content/early/2013/02/13/1300596110.abstract}, author = {Guillaume Stirnemann and Giganti, David and Fernandez, Julio M and Berne, B J} } @article {2013|1525, title = {{F}ormation of raft-like assemblies within clusters of influenza hemagglutinin observed by {M}{D} simulations}, journal = {Plos Comput. Biol.}, volume = {9}, number = {4}, year = {2013}, month = {apr}, pages = {e1003034}, author = {Parton, D. L. and Tek, A. and Marc Baaden and Sansom, M. S.} } @article {2013|1528, title = {{G}ame on, science - how video game technology may help biologists tackle visualization challenges}, journal = {Plos One}, volume = {8}, number = {3}, year = {2013}, pages = {e57990}, author = {Lv, Z. and Tek, A. and Da Silva, F. and Empereur-mot, C. and Matthieu Chavent and Marc Baaden} } @article {2013|1974, title = {{A} gating mechanism of pentameric ligand-gated ion channels}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {110}, number = {42}, year = {2013}, month = {oct}, pages = {E3987{\textendash}3996}, author = {Calimet, N. and Simoes, M. and Changeux, J. P. and Karplus, M. and Antoine Taly and Cecchini, M.} } @article {2013|1700, title = {Heme orientation modulates histidine dissociation and ligand binding kinetics in the hexacoordinated human neuroglobin}, journal = {J. Biol. Inorg. Chem.}, volume = {18}, number = {1}, year = {2013}, pages = {111{\textendash}122}, doi = {10.1007/s00775-012-0956-2}, author = {Bocahut, A. and Derrien, V. and Bernad, S. and Sebban, P. and S Sacquin-Mora and Guittet, E. and Lescop, E.} } @article {2013|1926, title = {How Conformational Flexibility Stabilizes the Hyperthermophilic Elongation Factor G-Domain}, journal = {J. Phys. Chem. B}, volume = {117}, number = {44}, year = {2013}, month = {nov}, pages = {13775{\textendash}13785}, author = {Kalimeri, Maria and Rahaman, Obaidur and Melchionna, Simone and Sterpone, Fabio} } @article {2013|1892, title = {Importance of the Ion-Pair Interactions in the OPEP Coarse-Grained Force Field: Parametrization and Validation}, journal = {J. Chem. Theory Comput.}, volume = {9}, number = {10}, year = {2013}, month = {oct}, pages = {4574{\textendash}4584}, doi = {10.1021/ct4003493}, author = {Sterpone, Fabio and Phuong Hoang Nguyen and Kalimeri, Maria and Philippe Derreumaux} } @inbook {2013|1533, title = {Inquiring Protein Thermostability: Is Resistance to Temperature Stress a Rigidity/Flexibility Trade-off?}, booktitle = {Proceedings of the European Conference on Complex Systems 2012}, year = {2013}, publisher = {Springer International Publishing}, organization = {Springer International Publishing}, author = {Kalimeri, Maria and Melchionna, Simone and Sterpone, Fabio} } @article {2013|1531, title = {Interactive Molecular Dynamics: Scaling up to Large Systems.}, journal = {Procedia Comput. Sci.}, volume = {18}, year = {2013}, pages = {20{\textendash}29}, doi = {10.1016/j.procs.2013.05.165}, author = {M. Dreher and M. Piuzzi and A. Turki and Matthieu Chavent and Marc Baaden and Nicolas F{\'e}rey and S. Limet and B. Raffin and S. Robert} } @article {2013|1998, title = {{M}oving through the gate in {A}{T}{P}-activated {P}2{X} receptors}, journal = {Trends Biochem. Sci.}, volume = {38}, number = {1}, year = {2013}, month = {jan}, pages = {20{\textendash}29}, author = {Jiang, R. and Antoine Taly and Grutter, T.} } @article {2013|1426, title = {MANHaptic: A Haptic Adaptive Method for Precise Manipulation, Assembly \and Navigation}, journal = {International Journal on Human Machine Interaction}, volume = {1}, year = {2013}, pages = {60{\textendash}67}, author = {A. Tek and Marc Baaden and Nicolas F{\'e}rey and P. Bourdot} } @article {2013|1670, title = {Mechanisms of acceleration and retardation of water dynamics by ions}, journal = {J. Am. Chem. Soc.}, volume = {135}, year = {2013}, pages = {11824{\textendash}11831}, abstract = {

There are fundamental and not yet fully resolved questions concerning the impact of solutes, ions in particular, on the structure and dynamics of water, which can be formulated as follows: Are the effects of ions local or long-ranged? Is the action of cations and anions on water cooperative or not? Here, we investigate how the reorientation and hydrogen-bond dynamics of water are affected by ions in dilute and concentrated aqueous salt solutions. By combining simulations and analytic modeling, we first show that ions have a short-ranged influence on the reorientation of individual water molecules and that depending on their interaction strength with water, they may accelerate or slow down water dynamics. A simple additive picture combining the effects of the cations and anions is found to provide a good description in dilute solutions. In concentrated solutions, we show that the average water reorientation time ceases to scale linearly with salt concentration due to overlapping hydration shells and structural rearrangements which reduce the translational displacements induced by hydrogen-bond switches and increase the solution viscosity. This effect is not ion-specific and explains why all concentrated salt solutions slow down water dynamics. Our picture, which is demonstrated to be robust vis-a-vis a change in the force-field, reconciles the seemingly contradictory experimental results obtained by ultrafast infrared and NMR spectroscopies, and suggests that there are no long-ranged cooperative ion effects on the dynamics of individual water molecules in dilute solutions.

}, issn = {00027863}, author = {Guillaume Stirnemann and Wernersson, Erik and Jungwirth, Pavel and Laage, Damien} } @inbook {2013|1499, title = {Modeling macromolecular complexes: a journey across scales}, booktitle = {Modeling in Computational Biology and Biomedicine: A Multidisciplinary Endeavor}, year = {2013}, note = {(in press)}, publisher = {Springer-Verlag Berlin Heidelberg}, organization = {Springer-Verlag Berlin Heidelberg}, author = {Fr{\'e}d{\'e}ric Cazals and Tom Dreyfus and Charles H. Robert} } @article {2013|1925, title = {Molecular Mechanism of the Inhibition of EGCG on the Alzheimer A beta(1-42) Dimer}, journal = {J. Phys. Chem. B}, volume = {117}, number = {15}, year = {2013}, month = {apr}, pages = {3993{\textendash}4002}, doi = {10.1021/jp312573y}, author = {Zhang, Tong and Zhang, Jian and Philippe Derreumaux and Mu, Yuguang} } @article {2013|1770, title = {Moving through the gate in ATP-activated P2X receptors}, journal = {Trends Biochem. Sci.}, volume = {38}, number = {1}, year = {2013}, pages = {20{\textendash}29}, publisher = {Elsevier Current Trends}, author = {Jiang, Ruotian and Antoine Taly and Grutter, Thomas} } @article {2013|1747, title = {A mutation causes MuSK reduced sensitivity to agrin and congenital myasthenia}, journal = {Plos One}, volume = {8}, number = {1}, year = {2013}, publisher = {Public Library of Science}, author = {Ammar, A Ben and Soltanzadeh, Payam and Bauch{\'e}, St{\'e}phanie and Richard, Pascale and Goillot, Evelyne and Herbst, Ruth and Gaudon, Karen and Huz{\'e}, Caroline and Schaeffer, Laurent and Yamanashi, Yuji and others} } @conference {2013|1381, title = {Navigation guid{\'e}e par le contenu pour l{\textquoteright}exploration mol{\'e}culaire.}, booktitle = {Actes de l{\textquoteright}AFRV}, year = {2013}, author = {M. Trellet and Nicolas F{\'e}rey and Marc Baaden and P. Bourdot} } @article {2013|1648, title = {Novel approaches to drug design for the treatment of schizophrenia}, journal = {Expert Opin. Drug Discovery}, volume = {8}, number = {10}, year = {2013}, pages = {1285{\textendash}1296}, publisher = {Informa UK, Ltd. London}, author = {Antoine Taly} } @article {2013|1973, title = {{O}ptical control of an ion channel gate}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {110}, number = {51}, year = {2013}, month = {dec}, pages = {20813{\textendash}20818}, author = {Lemoine, D. and Habermacher, C. and Martz, A. and Mery, P. F. and Bouquier, N. and Diverchy, F. and Antoine Taly and Rassendren, F. and Specht, A. and Grutter, T.} } @article {2013|1688, title = {On the origin of thermal untwisting of DNA}, journal = {J. Phys. Chem. B}, volume = {117}, year = {2013}, pages = {1857{\textendash}1861}, author = {Alexey K Mazur} } @article {2013|1961, title = {Protein-protein interactions in a crowded environment: an analysis via cross-docking simulations and evolutionary information}, journal = {Plos Comput. Biol.}, volume = {9}, number = {12}, year = {2013}, month = {dec}, pages = {e1003369}, doi = {10.1371/journal.pcbi.1003369}, url = {http://hal.inria.fr/hal-00875116}, author = {Lopes, Anne and S Sacquin-Mora and Dimitrova, Viktoriya and Laine, Elodie and Ponty, Yann and Carbone, Alessandra} } @article {2013|1976, title = {Reassessing buried surface areas in protein-protein complexes.}, journal = {Protein Sci.}, volume = {22}, year = {2013}, month = {aug}, pages = {1453{\textendash}57}, abstract = {

The buried surface area (BSA), which measures the size of the interface in a protein-protein complex may differ from the accessible surface area (ASA) lost upon association (which we call DSA), if conformation changes take place. To evaluate the DSA, we measure the ASA of the interface atoms in the bound and unbound states of the components of 144 protein-protein complexes taken from the Protein-Protein Interaction Affinity Database of Kastritis et al. (2011). We observe differences exceeding 20\%, and a systematic bias in the distribution. On average, the ASA calculated in the bound state of the components is 3.3\% greater than in their unbound state, and the BSA, 7\% greater than the DSA. The bias is observed even in complexes where the conformation changes are small. An examination of the bound and unbound structures points to a possible origin: local movements optimize contacts with the other component at the cost of internal contacts, and presumably also the binding free energy.

}, keywords = {binding free energy, conformation changes, protein-protein interaction, solvent accessible surface}, doi = {10.1002/pro.2330}, author = {Chakravarty, Devlina and Guharoy, Mainak and Robert, Charles H. and Chakrabarti, Pinak and Janin, Jo{\"e}l} } @article {2013|1806, title = {Replica-exchange molecular dynamics simulations of the amyloid-beta(16-22) fragments}, journal = {European Biophysics Journal with Biophysics Letters}, volume = {42}, number = {1}, year = {2013}, note = {9th European-Biophysical-Societies-Association Congress, Lisbon, PORTUGAL, JUL 13-17, 2013}, month = {jul}, pages = {S68}, author = {Nishikawa, N. and Phuong Hoang Nguyen and Philippe Derreumaux and Okamoto, Y.} } @article {2013|1406, title = {{S}tructural basis for ion permeation mechanism in pentameric ligand-gated ion channels}, journal = {Embo J.}, volume = {32}, number = {5}, year = {2013}, month = {mar}, pages = {728{\textendash}741}, author = {Sauguet, L. and Poitevin, F. and Murail, S. and Van Renterghem, C. and Moraga-Cid, G. and Malherbe, L. and Thompson, A. W. and Koehl, P. and Corringer, P. J. and Marc Baaden and Delarue, M.} } @booklet {2013|1576, title = {Structural basis for ion permeation in a pentameric ligand-gated ion channel revealed by x-ray crystallograph}, year = {2013}, note = {44-45}, author = {Marc Baaden and M. Delarue} } @article {2013|1814, title = {Towards Morse theory for point cloud data.}, journal = {Inria Tech Reports}, number = {8331}, year = {2013}, publisher = {Inria}, url = {http://hal.inria.fr/hal-00848753}, author = {F. Cazals and C. Mueller and C. Robert and A. Roth} } @article {2013|1430, title = {{U}nderstanding small biomolecule-biomaterial interactions: a review of fundamental theoretical and experimental approaches for biomolecule interactions with inorganic surfaces}, journal = {J. Biomed. Mater. Res. A}, volume = {101}, number = {4}, year = {2013}, month = {apr}, pages = {1210{\textendash}1222}, author = {Costa, D. and Garrain, P. A. and Marc Baaden} } @article {2013|1936, title = {Using collective variables to drive molecular dynamics simulations}, journal = {Mol. Phys.}, volume = {111}, number = {22-23}, year = {2013}, pages = {3345{\textendash}3362}, doi = {10.1080/00268976.2013.813594}, author = {Giacomo Fiorin and Michael L Klein and J{\'e}r{\^o}me H{\'e}nin} } @article {2013|1689, title = {When Does Trimethylamine N-Oxide Fold a Polymer Chain and Urea Unfold It?}, journal = {J. Phys. Chem. B}, volume = {117}, year = {2013}, pages = {8723{\textendash}8732}, abstract = {

Longstanding mechanistic questions about the role of protecting osmolyte trimethylamine N-oxide (TMAO) that favors protein folding and the denaturing osmolyte urea are addressed by studying their effects on the folding of uncharged polymer chains. Using atomistic molecular dynamics simulations, we show that 1 M TMAO and 7 M urea solutions act dramatically differently on these model polymer chains. Their behaviors are sensitive to the strength of the attractive dispersion interactions of the chain with its environment: when these dispersion interactions are sufficiently strong, TMAO suppresses the formation of extended conformations of the hydrophobic polymer as compared to water while urea promotes the formation of extended conformations. Similar trends are observed experimentally for real protein systems. Quite surprisingly, we find that both protecting and denaturing osmolytes strongly interact with the polymer, seemingly in contrast with existing explanations of the osmolyte effect on proteins. We show that what really matters for a protective osmolyte is its effective depletion as the polymer conformation changes, which leads to a negative change in the preferential binding coefficient. For TMAO, there is a much more favorable free energy of insertion of a single osmolyte near collapsed conformations of the polymer than near extended conformations. By contrast, urea is preferentially stabilized next to the extended conformation and thus has a denaturing effect.

}, isbn = {15206106}, url = {http://pubs.acs.org/doi/abs/10.1021/jp405609j$\backslash$nhttp://pubs.acs.org/doi/pdf/10.1021/jp405609j$\backslash$nhttp://dx.doi.org/10.1021/jp405609j}, author = {Mondal, Jagannath and Guillaume Stirnemann and Berne, B J} } @inbook {2012|1575, title = {Advances in Human-Protein Interaction - Interactive And Immersive Molecular Simulations}, year = {2012}, publisher = {Intech, Croatia}, organization = {Intech, Croatia}, chapter = {Protein Interaction / Book 2}, author = {A. Tek and B. Laurent and M. Piuzzi and Z. Lu and Marc Baaden and O. Delalande and Matthieu Chavent and Nicolas F{\'e}rey and C. Martin and L. Piccinali and B. Katz and P. Bourdot and Ludovic Autin}, editor = {W. Cai and H. Hong} } @article {2012|1642, title = {$\alpha$7 nicotinic acetylcholine receptors: a therapeutic target in the structure era}, journal = {Curr. Drug Targets}, volume = {13}, number = {5}, year = {2012}, pages = {695{\textendash}706}, publisher = {Bentham Science Publishers}, author = {Antoine Taly and Charon, S{\'e}bastien} } @article {2012|1934, title = {{ATTRACT} and {PTOOLS}: {O}pen source programs for protein-protein docking}, journal = {Methods Mol. Biol.}, volume = {819}, year = {2012}, pages = {221{\textendash}232}, abstract = {

The prediction of the structure of protein-protein complexes based on structures or structural models of isolated partners is of increasing importance for structural biology and bioinformatics. The ATTRACT program can be used to perform systematic docking searches based on docking energy minimization. It is part of the object-oriented PTools library written in Python and C++. The library contains various routines to manipulate protein structures, to prepare and perform docking searches as well as analyzing docking results. It also intended to facilitate further methodological developments in the area of macromolecular docking that can be easily integrated. Here, we describe the application of PTools to perform systematic docking searches and to analyze the results. In addition, the possibility to perform multi-component docking will also be presented.

}, doi = {10.1007/978-1-61779-465-0_15}, author = {Schneider, S. and A Saladin and Fiorucci, S. and Chantal Pr{\'e}vost and Martin Zacharias} } @article {2012|1382, title = {Bient{\^o}t dans votre amphith{\'e}{\^a}tre, la chimie fera son cin{\'e}ma. De la bonne utilisation des ressources informatiques pour l{\textquoteright}enseignement : visualisation mol{\'e}culaire, illustration de processus chimiques et de mod{\`e}les physiques}, journal = {Actualit{\'e} Chimique}, volume = {363}, year = {2012}, author = {Matthieu Chavent and Marc Baaden and E. H{\'e}non and S. Antonczak} } @article {2012|1920, title = {The Coarse-Grained OPEP Force Field for Non-Amyloid and Amyloid Proteins}, journal = {J. Phys. Chem. B}, volume = {116}, number = {30}, year = {2012}, month = {aug}, pages = {8741{\textendash}8752}, doi = {10.1021/jp301665f}, author = {Y Chebaro and Pasquali, Samuela and Philippe Derreumaux} } @article {2012|1676, title = {Communication: On the origin of the non-Arrhenius behavior in water reorientation dynamics}, journal = {J. Chem. Phys.}, volume = {137}, year = {2012}, abstract = {

We combine molecular dynamics simulations and analytic modeling to determine the origin of the non-Arrhenius temperature dependence of liquid water{\textquoteright}s reorientation and hydrogen-bond dynamics between 235 K and 350 K. We present a quantitative model connecting hydrogen-bond exchange dynamics to local structural fluctuations, measured by the asphericity of Voronoi cells associated with each water molecule. For a fixed local structure the regular Arrhenius behavior is recovered, and the global anomalous temperature dependence is demonstrated to essentially result from a continuous shift in the unimodal structure distribution upon cooling. The non-Arrhenius behavior can thus be explained without invoking an equilibrium between distinct structures. In addition, the large width of the homogeneous structural distribution is shown to cause a growing dynamical heterogeneity and a non-exponential relaxation at low temperature.

}, issn = {00219606}, author = {Guillaume Stirnemann and Laage, Damien} } @article {2012|1955, title = {Configurational entropy: an improvement of the quasiharmonic approximation using configurational temperature}, journal = {Phys. Chem. Chem. Phys.}, volume = {14}, number = {20}, year = {2012}, pages = {877{\textendash}886}, doi = {10.1039/c1cp21779h}, author = {Phuong Hoang Nguyen and Philippe Derreumaux} } @article {2012|1911, title = {Delivering the native structures of peptides from computer simulations and predicted NMR proton chemical shifts}, journal = {J. Pept. Sci.}, volume = {18}, number = {1}, year = {2012}, month = {sep}, pages = {S38}, author = {Thevenet, P. and Shen, Y. and Maupetit, J. and Guyon, F. and Padilla, A. and Philippe Derreumaux and Pierre Tuffery} } @article {2012|1922, title = {Distinct Dimerization for Various Alloforms of the Amyloid-Beta Protein: A beta(1-40), A beta(1-42), and A beta(1-40)(D23N)}, journal = {J. Phys. Chem. B}, volume = {116}, number = {13}, year = {2012}, month = {apr}, pages = {4043{\textendash}4055}, doi = {10.1021/jp2126366}, author = {Cote, Sebastien and Laghaei, Rozita and Philippe Derreumaux and Mousseau, Normand} } @article {2012|1554, title = {Early Stage of the Dehydrogenation of NaAlH4 by Ab Initio Rare Event Simulations}, journal = {The Journal of Physical Chemistry C}, volume = {116}, number = {37}, year = {2012}, pages = {19636{\textendash}19643}, doi = {10.1021/jp3019588}, author = {Sterpone, Fabio and Bonella, Sara and Meloni, Simone} } @article {2012|1932, title = {Flexibility and binding affinity in protein-ligand, protein-protein and multi-component protein interactions: limitations of current computational approaches}, journal = {Journal of the Royal Society Interface}, volume = {9}, number = {66}, year = {2012}, month = {jan}, pages = {20{\textendash}33}, doi = {10.1098/rsif.2011.0584}, author = {Pierre Tuffery and Philippe Derreumaux} } @article {2012|1960, title = {General Anesthetics Predicted to Block the {GLIC} Pore with Micromolar Affinity}, journal = {Plos Comput. Biol.}, volume = {8}, number = {5}, year = {2012}, pages = {e1002532}, publisher = {Public Library of Science}, abstract = {

Author Summary

Although general anesthesia is performed every day on thousands of people, its detailed microscopic mechanisms are not known. What is known is that general anesthetic drugs modulate the activity of ion channels in the central nervous system. These channels are proteins that open in response to binding of neurotransmitter molecules, creating an electric current through the cell membrane and thus propagating nerve impulses between cells. One possible mechanism for ion channel inhibition by anesthetics is that the drugs bind inside the pore of the channels, blocking ion current. Here we investigate such a pore block mechanism by computing the strength of the drugs{\textquoteright} interaction with the pore {\textendash} and hence the likelihood of binding, in the case of GLIC, a bacterial channel protein. The results, obtained from numerical simulations of atomic models of GLIC, indicate that the anesthetics isoflurane and propofol have a tendency to bind in the pore that is strong enough to explain blocking of the channel, even at low concentration of the drugs.

}, doi = {10.1371/journal.pcbi.1002532}, url = {http://dx.doi.org/10.1371\%2Fjournal.pcbi.1002532}, author = {LeBard, David N. and J{\'e}r{\^o}me H{\'e}nin and Roderic G Eckenhoff and Michael L Klein and Brannigan, Grace} } @article {2012|1793, title = {{I}ntermediate closed channel state(s) precede(s) activation in the {A}{T}{P}-gated {P}2{X}2 receptor}, journal = {Channels (austin)}, volume = {6}, number = {5}, year = {2012}, pages = {398{\textendash}402}, author = {Jiang, R. and Antoine Taly and Lemoine, D. and Martz, A. and Specht, A. and Grutter, T.} } @article {2012|1756, title = {Involvement of the cysteine-rich head domain in activation and desensitization of the P2X1 receptor}, journal = {Proceedings of the National Academy of Sciences of the United States of America}, volume = {109}, number = {28}, year = {2012}, pages = {11396{\textendash}11401}, publisher = {National Acad Sciences}, author = {L{\"o}rinczi, {\'E}va and Bhargava, Yogesh and Marino, Stephen F and Antoine Taly and Kaczmarek-H{\'a}jek, Karina and Barrantes-Freer, Alonso and Dutertre, S{\'e}bastien and Grutter, Thomas and Rettinger, J{\"u}rgen and Nicke, Annette} } @article {2012|2004, title = {Ligand-gated ion channels: new insights into neurological disorders and ligand recognition}, journal = {Chem. Rev.}, volume = {112}, number = {12}, year = {2012}, month = {sep}, pages = {6285{\textendash}6318}, publisher = {American Chemical Society}, author = {Lemoine, Damien and Jiang, Ruotian and Antoine Taly and Chataigneau, Thierry and Specht, Alexandre and Grutter, Thomas} } @article {2012|1488, title = {Magnitude and molecular origin of water slowdown next to a protein}, journal = {J. Am. Chem. Soc.}, volume = {134}, year = {2012}, pages = {4116{\textendash}4119}, abstract = {

Hydration shell dynamics plays a critical role in protein folding and biochemical activity and has thus been actively studied through a broad range of techniques. While all observations concur with a slowdown of water dynamics relative to the bulk, the magnitude and molecular origin of this retardation remain unclear. Via numerical simulations and theoretical modeling, we establish a molecular description of protein hydration dynamics and identify the key protein features that govern it. Through detailed microscopic mapping of the water reorientation and hydrogen-bond (HB) dynamics around lysozyme, we first determine that 80\% of the hydration layer waters experience a moderate slowdown factor of \~{}2-3, while the slower residual population is distributed along a power-law tail, in quantitative agreement with recent NMR results. We then establish that the water reorientation mechanism at the protein interface is dominated by large angular jumps similar to the bulk situation. A theoretical extended jump model is shown to provide the first rigorous determination of the two key contributions to the observed slowdown: a topological excluded-volume factor resulting from the local protein geometry, which governs the dynamics of the fastest 80\% of the waters, and a free energetic factor arising from the water-protein HB strength, which is especially important for the remaining waters in confined sites at the protein interface. These simple local factors are shown to provide a nearly quantitative description of the hydration shell dynamics.

}, issn = {00027863}, author = {Fabio Sterpone and Guillaume Stirnemann and Laage, Damien} } @article {2012|1458, title = {Mixing atomistic and coarse grain solvation models for MD simulations: let WT4 handle the bulk}, journal = {Jctc}, year = {2012}, month = {jun}, doi = {10.1021/ct3001816}, author = {L. Darre and A. Tek and Marc Baaden and S. Pantano} } @article {2012|1546, title = {Modeling complex biological systems: From solution chemistry to membranes and channels}, journal = {Pure Appl. Chem.}, volume = {ASAP}, year = {2012}, month = {nov}, doi = {10.1351/PAC-CON-12-04-10}, author = {B. Laurent and S. Murail and F. Da Silva and P.-J. Corringer and Marc Baaden} } @article {2012|1506, title = {A novel Locally Closed Conformation of a Bacterial Pentameric Proton-gated Ion Channel}, journal = {Nature Structural \& Molecular Biology}, year = {2012}, month = {apr}, author = {M. Prevost and L. Sauguet and H. Nury and C. Van Renterghem and C. Huon and F. Poitevin and Marc Baaden and M. Delarue and P.-J. Corringer} } @article {2012|1944, title = {PEP-FOLD: an updated de novo structure prediction server for both linear and disulfide bonded cyclic peptides}, journal = {Nucleic Acids Res.}, volume = {40}, number = {W1}, year = {2012}, month = {jul}, pages = {W288-W293}, doi = {10.1093/nar/gks419}, author = {Thevenet, Pierre and Shen, Yimin and Maupetit, Julien and Guyon, Frederic and Philippe Derreumaux and Pierre Tuffery} } @article {2012|1753, title = {Rate limit of protein elastic response is tether dependent}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {109}, year = {2012}, pages = {14416{\textendash}14421}, abstract = {

The elastic restoring force of tissues must be able to operate over the very wide range of loading rates experienced by living organisms. It is surprising that even the fastest events involving animal muscle tissues do not surpass a few hundred hertz. We propose that this limit is set in part by the elastic dynamics of tethered proteins extending and relaxing under a changing load. Here we study the elastic dynamics of tethered proteins using a fast force spectrometer with sub-millisecond time resolution, combined with Brownian and Molecular Dynamics simulations. We show that the act of tethering a polypeptide to an object, an inseparable part of protein elasticity in vivo and in experimental setups, greatly reduces the attempt frequency with which the protein samples its free energy. Indeed, our data shows that a tethered polypeptide can traverse its free-energy landscape with a surprisingly low effective diffusion coefficient D(eff) \~{} 1,200 nm(2)/s. By contrast, our Molecular Dynamics simulations show that diffusion of an isolated protein under force occurs at D(eff) \~{} 10(8) nm(2)/s. This discrepancy is attributed to the drag force caused by the tethering object. From the physiological time scales of tissue elasticity, we calculate that tethered elastic proteins equilibrate in vivo with D(eff) \~{} 10(4)-10(6) nm(2)/s which is two to four orders magnitude smaller than the values measured for untethered proteins in bulk.

}, issn = {0027-8424}, author = {Berkovich, R. and Hermans, R. I. and Popa, I. and Guillaume Stirnemann and Garcia-Manyes, S. and Berne, B. J. and Fernandez, J. M.} } @article {2012|1527, title = {{S}tructure-function analysis of the {NFL}-{TBS}.40-63 peptide corresponding to the binding site of tubulin on the light neurofilament subunit}, journal = {Plos One}, volume = {7}, year = {2012}, pages = {e49436}, author = {Berges, R. and Balzeau, J. and Takahashi, M. and Chantal Pr{\'e}vost and Eyer, J.} } @article {2012|1995, title = {Structural and Spectroscopic Properties of Water around Small Hydrophobic Solutes}, journal = {The Journal of Physical Chemistry B}, volume = {116}, number = {38}, year = {2012}, pages = {11695{\textendash}11700}, doi = {10.1021/jp303213m}, author = {Montagna, Maria and Sterpone, Fabio and Guidoni, Leonardo} } @article {2012|1886, title = {Structural, thermodynamical, and dynamical properties of oligomers formed by the amyloid NNQQ peptide: Insights from coarse-grained simulations}, journal = {J. Chem. Phys.}, volume = {137}, number = {2}, year = {2012}, month = {jul}, pages = {025101}, doi = {10.1063/1.4732761}, author = {Lu, Yan and Wei, Guanghong and Philippe Derreumaux} } @article {2012|1921, title = {Structures of A beta 17-42 Trimers in Isolation and with Five Small-Molecule Drugs Using a Hierarchical Computational Procedure}, journal = {J. Phys. Chem. B}, volume = {116}, number = {29, SI}, year = {2012}, month = {jul}, pages = {8412{\textendash}8422}, doi = {10.1021/jp2118778}, author = {Y Chebaro and Jiang, Ping and Zang, Tong and Mu, Yuguang and Phuong Hoang Nguyen and Mousseau, Normand and Philippe Derreumaux} } @article {2012|1813, title = {Substitutions at residue 211 in the prion protein drive a switch between CJD and GSS syndrome, a new mechanism governing inherited neurodegenerative disorders}, journal = {Hum. Mol. Genet.}, volume = {21}, number = {26}, year = {2012}, month = {dec}, pages = {5417{\textendash}5428}, doi = {10.1093/hmg/dds377}, author = {Katell Peoc{\textquoteright}h and Etienne Levavasseur and Emilien Delmont and Alfonso De Simone Isabelle Laffont-Proust and Nicolas Privat and Y Chebaro and C{\'e}line Chapuis Pierre Bedoucha and Jean-Philippe Brandel and Annie Laquerriere and Jean-Louis Kemeny Jean-Jacques Hauw and Michel Borg and Human Rezaei and Philippe Derreumaux Jean-Louis Laplanche and St{\'e}phane Ha{\"\i}k} } @article {2012|2016, title = {{T}hermal fluctuations of haemoglobin from different species: adaptation to temperature via conformational dynamics}, journal = {J. R. Soc. Interface}, volume = {9}, number = {76}, year = {2012}, month = {nov}, pages = {2845{\textendash}2855}, doi = {10.1098/rsif.2012.0364}, author = {Stadler, A. M. and Garvey, C. J. and Bocahut, A. and S Sacquin-Mora and Digel, I. and Schneider, G. J. and Natali, F. and Artmann, G. M. and Zaccai, G.} } @article {2012|1805, title = {{T}ightening of the {A}{T}{P}-binding sites induces the opening of {P}2{X} receptor channels}, journal = {Embo J.}, volume = {31}, number = {9}, year = {2012}, month = {may}, pages = {2134{\textendash}2143}, author = {Jiang, R. and Antoine Taly and Lemoine, D. and Martz, A. and Cunrath, O. and Grutter, T.} } @article {2012|1816, title = {Theoretical study on a series of push-pull molecules grafted on methacrylate copolymers serving for nonlinear optics}, journal = {Int. J. Quantum Chem.}, volume = {112}, number = {15}, year = {2012}, month = {aug}, pages = {2735{\textendash}2742}, doi = {10.1002/qua.23299}, author = {Derrar, S. N. and Sekkal-Rahal, M. and Guemra, K. and Philippe Derreumaux} } @article {2012|1795, title = {Thermophilic proteins: insight and perspective from in silico experiments}, journal = {Chem. Soc. Rev.}, volume = {41}, year = {2012}, pages = {1665{\textendash}1676}, publisher = {The Royal Society of Chemistry}, abstract = {Proteins from thermophilic and hyperthermophilic organisms are stable and function at high temperatures (50-100 [degree]C). The importance of understanding the microscopic mechanisms underlying this thermal resistance is twofold: it is key for acquiring general clues on how proteins maintain their fold stable and for targeting those medical and industrial applications that aim at designing enzymes that can work under harsh conditions. In this tutorial review we first provide the general background of protein thermostability by specifically focusing on the structural and thermodynamic peculiarities; next{,} we discuss how computational studies based on Molecular Dynamics simulations can broaden and refine our knowledge on such special class of proteins.}, author = {Sterpone, Fabio and Melchionna, Simone} } @article {2012|1740, title = {Torque transfer coefficient in DNA under torsional stress}, journal = {Phys. Rev. E}, volume = {86}, year = {2012}, pages = {011914}, author = {Alexey K Mazur} } @article {2012|1684, title = {Water jump reorientation and ultrafast vibrational spectroscopy}, journal = {J. Photochem. Photobiol. A}, volume = {234}, year = {2012}, pages = {75{\textendash}82}, abstract = {

The reorganization of water{\textquoteright}s hydrogen-bond (HB) network by breaking and making HBs lies at the heart of many of the pure liquid{\textquoteright}s special features and many aqueous media phenomena, including chemical reactions, ion transport and protein activity. An essential role in this reorganization is played by water molecule reorientation, long described by very small angular displacement Debye rotational diffusion. A markedly contrasting picture has been recently proposed, based on simulation and analytic modeling: a sudden, large amplitude jump mechanism, in which the reorienting water molecule rapidly exchanges HB partners in an activated process which has all the hallmarks of a chemical reaction. In this contribution, we offer a brief review of the jump mechanism together with a discussion of its application to, and probing by, modern ultrafast infrared spectroscopy experiments. Special emphasis is given to the direct characterization of the jumps via pioneering two-dimensional infrared spectroscopic measurements. ?? 2012 Elsevier B.V. All rights reserved.

}, keywords = {Hydrogen-bond dynamics, Pump-probe infrared spectroscopy, Two-dimensional infrared spectroscopy, Water dynamics}, issn = {10106030}, author = {Laage, Damien and Guillaume Stirnemann and Hynes, James T.} } @article {2012, title = {Water Jump Reorientation: From Theoretical Prediction to Experimental Observation}, journal = {Acc. Chem. Res.}, volume = {45}, number = {1}, year = {2012}, pages = {53{\textendash}62}, doi = {10.1021/ar200075u}, author = {Laage, Damien and Guillaume Stirnemann and Sterpone, Fabio and Hynes, James T.} } @article {2012|2005, title = {α7-{N}icotinic acetylcholine receptors: an old actor for new different roles}, journal = {Curr. Drug Targets}, volume = {13}, number = {5}, year = {2012}, month = {may}, pages = {574{\textendash}578}, publisher = {Bentham Science Publishers}, author = {Russo, P. and Antoine Taly} } @article {2011|1654, title = {Accounting for large amplitude protein deformation during in silico macromolecular docking}, journal = {Int. J. Mol. Sci.}, volume = {12}, year = {2011}, pages = {1316{\textendash}33}, abstract = {

Rapid progress of theoretical methods and computer calculation resources has turned in silico methods into a conceivable tool to predict the 3D structure of macromolecular assemblages, starting from the structure of their separate elements. Still, some classes of complexes represent a real challenge for macromolecular docking methods. In these complexes, protein parts like loops or domains undergo large amplitude deformations upon association, thus remodeling the surface accessible to the partner protein or DNA. We discuss the problems linked with managing such rearrangements in docking methods and we review strategies that are presently being explored, as well as their limitations and success.

}, keywords = {flexibility, macromolecular docking, protein loops and domains}, doi = {10.3390/ijms12021316}, author = {Bastard, Karine and A Saladin and Chantal Pr{\'e}vost} } @article {2011|1891, title = {Assessing the Quality of the OPEP Coarse-Grained Force Field}, journal = {J. Chem. Theory Comput.}, volume = {7}, number = {6}, year = {2011}, month = {jun}, pages = {1928{\textendash}1934}, doi = {10.1021/ct100646f}, author = {Barducci, Alessandro and Bonomi, Massimiliano and Philippe Derreumaux} } @article {2011|1834, title = {{B}inding modes of noncompetitive {G}{A}{B}{A}-channel blockers revisited using engineered affinity-labeling reactions combined with new docking studies}, journal = {J. Agric. Food Chem.}, volume = {59}, number = {7}, year = {2011}, month = {apr}, pages = {2803{\textendash}2807}, author = {Charon, S. and Antoine Taly and Rodrigo, J. and Perret, P. and Goeldner, M.} } @article {2011|1610, title = {Carbon Nanotube Inhibits the Formation of beta-Sheet-Rich Oligomers of the Alzheimer{\textquoteright}s Amyloid-beta(16-22) Peptide}, journal = {Biophys. J.}, volume = {101}, number = {9}, year = {2011}, month = {nov}, pages = {2267{\textendash}2276}, doi = {10.1016/j.bpj.2011.09.046}, author = {Li, Huiyu and Luo, Yin and Philippe Derreumaux and Wei, Guanghong} } @article {2011|1653, title = {On the characterization and selection of diverse conformational ensembles with applications to flexible docking}, journal = {Ieee/acm Trans. Comput. Biol. Bioinform.}, volume = {8}, year = {2011}, pages = {487{\textendash}98}, abstract = {

To address challenging flexible docking problems, a number of docking algorithms pregenerate large collections of candidate conformers. To remove the redundancy from such ensembles, a central problem in this context is to report a selection of conformers maximizing some geometric diversity criterion. We make three contributions to this problem. First, we resort to geometric optimization so as to report selections maximizing the molecular volume or molecular surface area (MSA) of the selection. Greedy strategies are developed, together with approximation bounds. Second, to assess the efficacy of our algorithms, we investigate two conformer ensembles corresponding to a flexible loop of four protein complexes. By focusing on the MSA of the selection, we show that our strategy matches the MSA of standard selection methods, but resorting to a number of conformers between one and two orders of magnitude smaller. This observation is qualitatively explained using the Betti numbers of the union of balls of the selection. Finally, we replace the conformer selection problem in the context of multiple-copy flexible docking. On the aforementioned systems, we show that using the loops selected by our strategy can improve the result of the docking process.

}, doi = {10.1109/TCBB.2009.59}, author = {Loriot, S{\'e}bastien and Sachdeva, Sushant and Bastard, Karine and Chantal Pr{\'e}vost and Fr{\'e}d{\'e}ric Cazals} } @conference {2011|1611, title = {Characterization of the Aggregation Pathway for a 20-mer of GNNQQNY using Coarse-Grained and All-Atom Representations}, booktitle = {Biophys. J.}, volume = {100}, number = {3}, year = {2011}, month = {feb}, pages = {Biophys Soc}, author = {Nasica-Labouze, Jessica and Meli, Massimiliano and Philippe Derreumaux and Colombo, Giorgio and Mousseau, Normand} } @mastersthesis {2011|1574, title = {Coarse-grain models for proteins: Mechanical properties and interactions}, year = {2011}, note = {HDR d{\'e}livr{\'e}e par l{\textquoteright}UFR Sciences du Vivant}, month = {dec}, school = {Universit{\'e} Paris-Diderot - Paris VII}, type = {phdHabilitation {\`a} diriger des recherches}, keywords = {Computational biology, docking, elastic networks, interactions prot{\'e}iques, m{\'e}canique des prot{\'e}ines, Mod{\'e}lisation mol{\'e}culaire, protein interactions, protein mechanics, r{\'e}seau {\'e}lastique}, url = {https://tel.archives-ouvertes.fr/tel-00652917}, author = {S Sacquin-Mora} } @article {2011|1771, title = {Coherent Excitation Transfer Driven by Torsional Dynamics: a Model Hamiltonian for PPV Type Systems}, journal = {Zeitschrift F{\"u}r Physikalische Chemie}, volume = {255}, year = {2011}, pages = {541{\textendash}551}, author = {Fabio Sterpone and R. Martinazzo and A.N. Panda and I. Burghardt} } @article {2011|1473, title = {Coherent vibrational energy transfer along a peptide helix}, journal = {J. Chem. Phys.}, volume = {134}, number = {12}, year = {2011}, month = {mar}, author = {Kobus, Maja and Phuong Hoang Nguyen and Stock, Gerhard} } @article {2011|1665, title = {Community-wide assessment of protein-interface modeling suggests improvements to design methodology.}, journal = {J. Mol. Biol.}, volume = {414}, year = {2011}, month = {nov}, pages = {289{\textendash}302}, abstract = {

The CAPRI (Critical Assessment of Predicted Interactions) and CASP (Critical Assessment of protein Structure Prediction) experiments have demonstrated the power of community-wide tests of methodology in assessing the current state of the art and spurring progress in the very challenging areas of protein docking and structure prediction. We sought to bring the power of community-wide experiments to bear on a very challenging protein design problem that provides a complementary but equally fundamental test of current understanding of protein-binding thermodynamics. We have generated a number of designed protein-protein interfaces with very favorable computed binding energies but which do not appear to be formed in experiments, suggesting that there may be important physical chemistry missing in the energy calculations. A total of 28 research groups took up the challenge of determining what is missing: we provided structures of 87 designed complexes and 120 naturally occurring complexes and asked participants to identify energetic contributions and/or structural features that distinguish between the two sets. The community found that electrostatics and solvation terms partially distinguish the designs from the natural complexes, largely due to the nonpolar character of the designed interactions. Beyond this polarity difference, the community found that the designed binding surfaces were, on average, structurally less embedded in the designed monomers, suggesting that backbone conformational rigidity at the designed surface is important for realization of the designed function. These results can be used to improve computational design strategies, but there is still much to be learned; for example, one designed complex, which does form in experiments, was classified by all metrics as a nonbinder.

}, keywords = {Binding Sites, Models, Molecular, Protein Binding, Proteins}, issn = {1089-8638}, doi = {10.1016/j.jmb.2011.09.031}, author = {Fleishman, Sarel J and Whitehead, Timothy A and Strauch, Eva-Maria and Corn, Jacob E and Qin, Sanbo and Zhou, Huan-Xiang and Mitchell, Julie C and Demerdash, Omar N A and Takeda-Shitaka, Mayuko and Terashi, Genki and Moal, Iain H and Li, Xiaofan and Bates, Paul A and Martin Zacharias and Park, Hahnbeom and Ko, Jun-su and Lee, Hasup and Seok, Chaok and Bourquard, Thomas and Bernauer, Julie and Poupon, Anne and Az{\'e}, J{\'e}r{\^o}me and Soner, Seren and Ovali, Sefik Kerem and Ozbek, Pemra and Tal, Nir Ben and Haliloglu, T{\"u}rkan and Hwang, Howook and Vreven, Thom and Pierce, Brian G and Weng, Zhiping and P{\'e}rez-Cano, Laura and Pons, Carles and Fern{\'a}ndez-Recio, Juan and Jiang, Fan and Yang, Feng and Gong, Xinqi and Cao, Libin and Xu, Xianjin and Liu, Bin and Wang, Panwen and Li, Chunhua and Wang, Cunxin and Charles H. Robert and Guharoy, Mainak and Liu, Shiyong and Huang, Yangyu and Li, Lin and Guo, Dachuan and Chen, Ying and Xiao, Yi and London, Nir and Itzhaki, Zohar and Schueler-Furman, Ora and Inbar, Yuval and Potapov, Vladimir and Cohen, Mati and Schreiber, Gideon and Tsuchiya, Yuko and Kanamori, Eiji and Standley, Daron M and Nakamura, Haruki and Kinoshita, Kengo and Driggers, Camden M and Hall, Robert G and Morgan, Jessica L and Hsu, Victor L and Zhan, Jian and Yang, Yuedong and Zhou, Yaoqi and Kastritis, Panagiotis L and Bonvin, Alexandre M J J and Zhang, Weiyi and Camacho, Carlos J and Kilambi, Krishna P and Sircar, Aroop and Gray, Jeffrey J and Ohue, Masahito and Uchikoga, Nobuyuki and Matsuzaki, Yuri and Ishida, Takashi and Akiyama, Yutaka and Khashan, Raed and Bush, Stephen and Fouches, Denis and Tropsha, Alexander and Esquivel-Rodr{\'\i}guez, Juan and Kihara, Daisuke and Stranges, P Benjamin and Jacak, Ron and Kuhlman, Brian and Huang, Sheng-You and Zou, Xiaoqin and Wodak, Shoshana J and Janin, Jo{\"e}l and Baker, David} } @article {2011|1857, title = {{D}iscrimination of agonists versus antagonists of nicotinic ligands based on docking onto {A}{C}h{B}{P} structures}, journal = {J. Mol. Graph. Model.}, volume = {30}, year = {2011}, month = {sep}, pages = {100{\textendash}109}, author = {Antoine Taly and Colas, C. and Malliavin, T. and Blondel, A. and Nilges, M. and Corringer, P. J. and Joseph, D.} } @article {2011|1890, title = {Distinct Morphologies for Amyloid Beta Protein Monomer: A beta(1-40), A beta(1-42), and A beta(1-40)(D23N)}, journal = {J. Chem. Theory Comput.}, volume = {7}, number = {8}, year = {2011}, month = {aug}, pages = {2584{\textendash}2592}, doi = {10.1021/ct1006967}, author = {Cote, Sebastien and Philippe Derreumaux and Mousseau, Normand} } @article {2011|1690, title = {Dynamics of water in concentrated solutions of amphiphiles: Key roles of local structure and aggregation}, journal = {J. Phys. Chem. B}, volume = {115}, year = {2011}, pages = {3254{\textendash}3262}, abstract = {

Water translational and reorientational dynamics in concentrated solutions of amphiphiles are investigated through molecular dynamics simulations and analytic modeling. We evidence the critical importance of the solute concentration in determining the magnitude of the slowdown in water dynamics compared to the bulk situation. The comparison of concentrated aqueous solutions of tetramethylurea, which tends to aggregate, and of trimethylamine N-oxide, which does not, shows the dramatic impact of solute clustering on the water dynamics. No significant decoupling of the reorientation and translation dynamics of water is observed, even at very high solute concentrations. The respective roles of energetic and topological disorders in determining the translational subdiffusive water dynamics in these confining environments are discussed. The water reorientational dynamics is shown to be quantitatively described by an extended jump model which combines two factors determined by the local structure: the transition-state excluded volume and the transition-state hydrogen-bond strength.

}, issn = {15206106}, author = {Guillaume Stirnemann and Fabio Sterpone and Laage, Damien} } @article {2011|1953, title = {Effects of all-atom force fields on amyloid oligomerization: replica exchange molecular dynamics simulations of the A beta(16-22) dimer and trimer}, journal = {Phys. Chem. Chem. Phys.}, volume = {13}, number = {20}, year = {2011}, pages = {9778{\textendash}9788}, doi = {10.1039/c1cp20323a}, author = {Phuong Hoang Nguyen and Li, Mai Suan and Philippe Derreumaux} } @article {2011|1919, title = {Effects of G33A and G33I Mutations on the Structures of Monomer and Dimer of the Amyloid-beta Fragment 29-42 by Replica Exchange Molecular Dynamics Simulations}, journal = {J. Phys. Chem. B}, volume = {115}, number = {5}, year = {2011}, month = {feb}, pages = {1282{\textendash}1288}, doi = {10.1021/jp110269a}, author = {Lu, Yan and Wei, Guanghong and Philippe Derreumaux} } @article {2011|1432, title = {Electrostatically{\textendash}driven fast association and perdeuteration allow transferred cross{\textendash}relaxation detection for G protein{\textendash}coupled receptor ligands with equilibrium dissociation constants in the high{\textendash}to{\textendash}low nanomolar range}, journal = {J Biomolecular Nmr}, volume = {50}, number = {3}, year = {2011}, month = {jul}, pages = {191{\textendash}5}, url = {http://www.ibpc.fr/UMR7099/Publis/pdf/Catoire11.pdf}, author = {L. J. Catoire and M. Damian and Marc Baaden and E. Guittet and J.-L. Ban{\`e}res} } @article {2011|1612, title = {Enzyme Closure and Nucleotide Binding Structurally Lock Guanylate Kinase}, journal = {Biophys. J.}, volume = {101}, number = {6}, year = {2011}, pages = {1440{\textendash}1449}, doi = {10.1016/j.bpj.2011.07.048}, author = {Delalande, O. and S Sacquin-Mora and Marc Baaden} } @inbook {2011|1573, title = {Exploring the energy landscape of small peptides and proteins by molecular dynamics simulations}, year = {2011}, publisher = {Wiley}, organization = {Wiley}, author = {G. Stock and A. Jain and L. Riccardi and Phuong Hoang Nguyen}, editor = {R. Schweitzer-Stenner} } @article {2011|2014, title = {{F}rom toxins targeting ligand gated ion channels to therapeutic molecules}, journal = {Toxins (basel)}, volume = {3}, number = {3}, year = {2011}, month = {mar}, pages = {260{\textendash}293}, publisher = {Molecular Diversity Preservation International}, author = {Nasiripourdori, A. and Taly, V. and Grutter, T. and Antoine Taly} } @article {2011|1446, title = {{F}rontier residues lining globin internal cavities present specific mechanical properties}, journal = {J. Am. Chem. Soc.}, volume = {133}, year = {2011}, month = {jun}, pages = {8753{\textendash}8761}, author = {Bocahut, A. and Bernad, S. and Sebban, P. and S Sacquin-Mora} } @article {2011|1848, title = {Free energy profiles along consensus normal modes provide insight into {HIV}-1 protease flap opening}, journal = {J. Chem. Theor. Comput.}, volume = {7}, year = {2011}, pages = {2348{\textendash}52}, author = {Paulo R. Batista and Gaurav Pandey and Paulo M. Bisch and Paulo G. Pascutti and David Perahia and Charles H. Robert} } @conference {2011, title = {FvNano: A Virtual Laboratory to Manipulate Molecular Systems}, booktitle = {1st IEEE symposium on biological data visualization, Providence, RI @ ieee visweek, 2011, N$\#$ 136}, year = {2011}, url = {http://www.biovis.net/materials/abstracts/BioVispaper136.pdf}, author = {Matthieu Chavent and Marc Piuzzi and Alex Tek and Marc Baaden} } @article {2011|1972, title = {{A}gonist trapped in {A}{T}{P}-binding sites of the {P}2{X}2 receptor}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {108}, number = {22}, year = {2011}, month = {may}, pages = {9066{\textendash}9071}, author = {Jiang, R. and Lemoine, D. and Martz, A. and Antoine Taly and Gonin, S. and Prado de Carvalho, L. and Specht, A. and Grutter, T.} } @article {2011|1437, title = {GPU-accelerated atom and dynamic bond visualization using HyperBalls: a unified algorithm for balls, sticks and hyperboloids}, journal = {J. Comput. Chem.}, volume = {32}, number = {13}, year = {2011}, month = {oct}, pages = {2924{\textendash}2935}, doi = {10.1002/jcc.21861/abstract}, author = {Matthieu Chavent and A. Vanel and A. Tek and B. L{\'e}vy and S. Robert and B. Raffin and Marc Baaden} } @article {2011|1393, title = {GPU-powered tools boost molecular visualization}, journal = {Briefings Bioinf.}, volume = {12}, year = {2011}, month = {feb}, pages = {689{\textendash}701}, author = {Matthieu Chavent and B. L{\'e}vy and M. Krone and K. Bidmon and J. P. Nomin{\'e} and T. Ertl and Marc Baaden} } @article {2011|1889, title = {Impact of Thermostats on Folding and Aggregation Properties of Peptides Using the Optimized Potential for Efficient Structure Prediction Coarse-Grained Model}, journal = {J. Chem. Theory Comput.}, volume = {7}, number = {5}, year = {2011}, month = {may}, pages = {1502{\textendash}1510}, doi = {10.1021/ct100619p}, author = {Spill, Yannick G. and Pasquali, Samuela and Philippe Derreumaux} } @article {2011|1966, title = {Intrinsic Determinants of A beta(12-24) pH-Dependent Self-Assembly Revealed by Combined Computational and Experimental Studies}, journal = {Plos One}, volume = {6}, number = {9}, year = {2011}, month = {sep}, pages = {e24329}, doi = {10.1371/journal.pone.0024329}, author = {Xu, Weixin and Zhang, Ce and Philippe Derreumaux and Graslund, Astrid and Morozova-Roche, Ludmilla and Mu, Yuguang} } @article {2011|1741, title = {Local elasticity of strained DNA studied by all-atom simulations}, journal = {Phys. Rev. E}, volume = {84}, year = {2011}, pages = {021903}, author = {Alexey K Mazur} } @article {2011|1962, title = {A Multiscale Approach to Characterize the Early Aggregation Steps of the Amyloid-Forming Peptide GNNQQNY from the Yeast Prion Sup-35}, journal = {Plos Comput. Biol.}, volume = {7}, number = {5}, year = {2011}, month = {may}, pages = {e1002051}, doi = {10.1371/journal.pcbi.1002051}, author = {Nasica-Labouze, Jessica and Meli, Massimiliano and Philippe Derreumaux and Colombo, Giorgio and Mousseau, Normand} } @article {2011|1587, title = {Mycoplasma gallisepticum produces a histone-like protein that recognizes base mismatches in DNA}, journal = {Biochemistry}, volume = {50}, year = {2011}, pages = {8692{\textendash}8702}, author = {Dmitri Kamashev and Jacques Oberto and Marina Serebryakova and Alexey Gorbachev and Yulia Zhukova and Sergei Levitskii and Alexey K Mazur and Vadim Govorun} } @article {2011|1738, title = {Non-monotonic dependence of water reorientation dynamics on surface hydrophilicity: competing effects of the hydration structure and hydrogen-bond strength}, journal = {Phys. Chem. Chem. Phys.}, volume = {13}, year = {2011}, pages = {19911}, abstract = {

The reorientation dynamics of interfacial water molecules was recently shown to change non-monotonically next to surfaces of increasing hydrophilicity, with slower dynamics next to strongly hydrophobic (apolar) and very hydrophilic surfaces, and faster dynamics next to surfaces of intermediate hydrophilicities. Through a combination of molecular dynamics simulations and analytic modeling, we provide a molecular interpretation of this behavior. We show that this non-monotonic dependence arises from two competing effects induced by the increasing surface hydrophilicity: first a change in the hydration structure with an enhanced population of water OH bonds pointing toward the surface and second a strengthening of the water-surface interaction energy. The extended jump model, including the effects due to transition-state excluded volume and transition-state hydrogen-bond strength, provides a quasi-quantitative description of the non-monotonic changes in the water reorientation dynamics with surface hydrophilicity.

}, issn = {1463-9076}, author = {Guillaume Stirnemann and Castrillon, Santiago Romero-Vargas and Hynes, James T. and Rossky, Peter J. and Debenedetti, Pablo G. and Laage, Damien} } @article {2011|1748, title = {Optimizing the design of oligonucleotides for homology directed gene targeting}, journal = {Plos One}, volume = {6}, year = {2011}, pages = {e14795}, abstract = {

BACKGROUND: Gene targeting depends on the ability of cells to use homologous recombination to integrate exogenous DNA into their own genome. A robust mechanistic model of homologous recombination is necessary to fully exploit gene targeting for therapeutic benefit. METHODOLOGY/PRINCIPAL FINDINGS: In this work, our recently developed numerical simulation model for homology search is employed to develop rules for the design of oligonucleotides used in gene targeting. A Metropolis Monte-Carlo algorithm is used to predict the pairing dynamics of an oligonucleotide with the target double-stranded DNA. The model calculates the base-alignment between a long, target double-stranded DNA and a probe nucleoprotein filament comprised of homologous recombination proteins (Rad51 or RecA) polymerized on a single strand DNA. In this study, we considered different sizes of oligonucleotides containing 1 or 3 base heterologies with the target; different positions on the probe were tested to investigate the effect of the mismatch position on the pairing dynamics and stability. We show that the optimal design is a compromise between the mean time to reach a perfect alignment between the two molecules and the stability of the complex. CONCLUSION AND SIGNIFICANCE: A single heterology can be placed anywhere without significantly affecting the stability of the triplex. In the case of three consecutive heterologies, our modeling recommends using long oligonucleotides (at least 35 bases) in which the heterologous sequences are positioned at an intermediate position. Oligonucleotides should not contain more than 10\% consecutive heterologies to guarantee a stable pairing with the target dsDNA. Theoretical modeling cannot replace experiments, but we believe that our model can considerably accelerate optimization of oligonucleotides for gene therapy by predicting their pairing dynamics with the target dsDNA.

}, doi = {10.1371/journal.pone.0014795}, author = {Min{\'e}-Hattab, Judith and Fleury, Genevi{\`e}ve and Chantal Pr{\'e}vost and Dutreix, Marie and Viovy, Jean-Louis} } @article {2011|1487, title = {Real Time Observation of Ultrafast Peptide Conformational Dynamics: Molecular Dynamics Simulation vs Infrared Experiment}, journal = {J. Phys. Chem. B}, volume = {115}, number = {44}, year = {2011}, month = {nov}, pages = {13084{\textendash}13092}, author = {Phuong H. Nguyen and Staudt, Heike and Wachtveitl, Josef and Stock, Gerhard} } @inbook {2011|1417, title = {Receptor Flexibility in Ligand Docking and Virtual Screening.}, booktitle = {In-silico lead discovery}, year = {2011}, publisher = {Bentham Science Publishers}, organization = {Bentham Science Publishers}, author = {Maria A. Miteva and Charles H. Robert and J. D. Marechal and David Perahia} } @article {2011|1383, title = {Reorientation and Allied Dynamics in Water and Aqueous Solutions}, journal = {Annu. Rev. Phys. Chem.}, volume = {62}, year = {2011}, pages = {395{\textendash}416}, abstract = {

The reorientation of a water molecule is important for a host of phenomena, ranging over?in an only partial listing?the key dynamic hydrogen-bond network restructuring of water itself, aqueous solution chemical reaction mechanisms and rates, ion transport in aqueous solution and membranes, protein folding, and enzymatic activity. This review focuses on water reorientation and related dynamics in pure water, and for aqueous solutes with hydrophobic, hydrophilic, and amphiphilic character, ranging from tetramethylurea to halide ions and amino acids. Attention is given to the application of theory, simulation, and experiment in the probing of these dynamics, in usefully describing them, and in assessing the description. Special emphasis is placed on a novel sudden, large-amplitude jump mechanism for water reorientation, which contrasts with the commonly assumed Debye rotational diffusion mechanism, characterized by small-amplitude angular motion. Some open questions and directions for further research are also discussed. Expected final online publication date for the Annual Review of Physical Chemistry Volume 62 is March 31, 2011. Please see http://www.annualreviews.org/catalog/pubdates.aspx for revised estimates.

}, isbn = {0066-426X 1545-1593}, issn = {0066-426X}, doi = {doi: 10.1146/annurev.physchem.012809.103503}, url = {http://www.annualreviews.org/doi/abs/10.1146/annurev.physchem.012809.103503$\backslash$nhttp://www.annualreviews.org.login.ezproxy.lib.purdue.edu/doi/pdf/10.1146/annurev.physchem.012809.103503}, author = {Laage, Damien and Guillaume Stirnemann and Fabio Sterpone and Rey, Rossend and Hynes, James T.} } @article {2011|1691, title = {On the reorientation and hydrogen-bond dynamics of Alcohols}, journal = {J. Phys. Chem. B}, volume = {115}, year = {2011}, pages = {12173{\textendash}12178}, abstract = {

The mechanism of the OH bond reorientation in liquid methanol and ethanol is examined. It is found that the extended jump model, recently developed for water, describes the OH reorientation in these liquids. The slower reorientational dynamics in these alcohols compared to water can be explained by two key factors. The alkyl groups on the alcohol molecules exclude potential partners for hydrogen bonding exchanges, an effect that grows with the size of the alkyl chain. This increases the importance of the reorientation of intact hydrogen bonds, which also slows with increasing size of the alcohol and becomes the dominant reorientation pathway.

}, issn = {15206106}, author = {Vartia, Anthony A. and Mitchell-Koch, Katie R. and Guillaume Stirnemann and Laage, Damien and Thompson, Ward H.} } @inbook {2011|1773, title = {Role of packing, hydration and fluctuation on Thermostability}, booktitle = {Thermostable Proteins Structural Stability and Design}, year = {2011}, publisher = {CRC Press - Taylor and Francis}, organization = {CRC Press - Taylor and Francis}, author = {Fabio Sterpone and Simone Melchionna}, editor = {Srikanta Sen and Lennart Nilsson} } @article {2011|1782, title = {Simulation of the Oligomerization Pathway for Different Alloforms of the Amyloid Beta Protein Related to Alzheimer{\textquoteright}s Disease}, journal = {Biophys. J.}, volume = {100}, number = {3, 1}, year = {2011}, note = {55th Annual Meeting of the Biophysical-Society, Baltimore, MD, MAR 05-09, 2011}, month = {feb}, pages = {401}, author = {Cote, Sebastien and Laghaei, Rozita and Philippe Derreumaux and Mousseau, Normand} } @article {2011|1474, title = {Simulation of transient infrared spectra of a photoswitchable peptide}, journal = {J. Chem. Phys.}, volume = {135}, number = {12}, year = {2011}, month = {dec}, author = {Kobus, Maja and Lieder, Martin and Phuong Hoang Nguyen and Stock, Gerhard} } @article {2011|1739, title = {Water reorientation dynamics in the first hydration shells of F- and I-}, journal = {Phys. Chem. Chem. Phys.}, volume = {13}, year = {2011}, pages = {19895}, abstract = {

Molecular dynamics and analytic theory results are presented for the reorientation dynamics of first hydration shell water molecules around fluoride and iodide anions. These ions represent the extremes of the (normal) halide series in terms of their size and conventional structure-making and -breaking categorizations. The simulated reorientation times are consistent with NMR and ultrafast IR experimental results. They are also in good agreement with the theoretical predictions of the analytic Extended Jump Model. Analysis through this model shows that while sudden, large amplitude jumps (in which the reorienting water exchanges hydrogen-bond partners) are the dominant reorientation pathway for the I(-) case, they are comparatively less important for the F(-) case. In particular, the diffusive reorientation of an intact F(-)...H(2)O hydrogen-bonded pair is found to be most important for the reorientation time, a feature related to the greater hydrogen-bond strength for the F(-)...H(2)O pair. The dominance of this effect for e.g. multiply charged ions is suggested.

}, issn = {1463-9076}, author = {Boisson, Jean and Guillaume Stirnemann and Laage, Damien and Hynes, James T.} } @article {2011|1505, title = {X-ray structures of general anaesthetics bound to a pentameric ligand-gated ion channel}, journal = {Nature}, volume = {469}, year = {2011}, month = {jan}, pages = {428{\textendash}431}, keywords = {anaesthetics, desflurane, GLIC, propofol}, url = {http://www.nature.com/nature/journal/v469/n7330/full/nature09647.html}, author = {H. Nury and C. Van Renterghem and Y. Weng and A. Tran and Marc Baaden and V. Dufresne and J.-P. Changeux and J. M. Sonner and M. Delarue and P.-J. Corringer} } @article {2010|1950, title = {Anharmonic torsional stiffness of DNA revealed under small external torques}, journal = {Phys. Rev. Lett.}, volume = {105}, year = {2010}, pages = {018102}, author = {Alexey K Mazur} } @article {2010|1865, title = {An atomistic model for simulations of the general anesthetic isoflurane}, journal = {J. Phys. Chem. B}, volume = {114}, number = {1}, year = {2010}, pages = {604{\textendash}612}, publisher = {Laboratoire d{\textquoteright}Ing{\'e}nierie des Syst{\`e}mes Macromol{\'e}culaires, CNRS, Marseille, France. jhenin@ifr88.cnrs-mrs.fr}, abstract = {An atomistic model of isoflurane is constructed and calibrated to describe its conformational preferences and intermolecular interactions. The model, which is compatible with the CHARMM force field for biomolecules, is based on target quantities including bulk liquid properties, molecular conformations, and local interactions with isolated water molecules. Reference data is obtained from tabulated thermodynamic properties and high-resolution structural information from gas-phase electron diffraction, as well as DFT calculations at the B3LYP level. The model is tested against experimentally known solvation properties in water and oil, and shows quantitative agreement. In particular, isoflurane is faithfully described as lipophilic, yet nonhydrophobic, a combination of properties critical to its pharmacological activity. Intermolecular interactions of the model are further probed through simulations of the binding of isoflurane to a binding site in horse spleen apoferritin (HSAF). The observed binding mode compares well with crystallographic data, and the calculated binding affinities are compatible with experimental results, although both computational and experimental measurements are challenging and provide results with limited precision. The model is expected to be useful for detailed simulations of the elementary molecular processes associated with anesthesia. Full parameters are provided as Supporting Information.}, doi = {10.1021/jp9088035}, author = {J{\'e}r{\^o}me H{\'e}nin and Grace Brannigan and William P Dailey and Roderic G Eckenhoff and Michael L Klein} } @article {2010|1749, title = {A computational study of a recreated {G} protein-{GEF} reaction intermediate competent for nucleotide exchange: fate of the {M}g ion}, journal = {Plos One}, volume = {5}, number = {2}, year = {2010}, month = {feb}, pages = {e9142}, publisher = {Public Library of Science}, abstract = {

Small G-proteins of the superfamily Ras function as molecular switches, interacting with different cellular partners according to their activation state. G-protein activation involves the dissociation of bound GDP and its replacement by GTP, in an exchange reaction that is accelerated and regulated in the cell by guanine-nucleotide exchange factors (GEFs). Large conformational changes accompany the exchange reaction, and our understanding of the mechanism is correspondingly incomplete. However, much knowledge has been derived from structural studies of blocked or inactive mutant GEFs, which presumably closely represent intermediates in the exchange reaction and yet which are by design incompetent for carrying out the nucleotide exchange reaction. In this study we have used comparative modelling to recreate an exchange-competent form of a late, pre-GDP-ejection intermediate species in Arf1, a well-characterized small G-protein. We extensively characterized three distinct models of this intermediate using molecular dynamics simulations, allowing us to address ambiguities related to the mutant structural studies. We observed in particular the unfavorable nature of Mg2+ associated forms of the complex and the establishment of closer Arf1-GEF contacts in its absence. The results of this study shed light on GEF-mediated activation of this small G protein and on predicting the fate of the Mg ion at a critical point in the exchange reaction. The structural models themselves furnish additional targets for interfacial inhibitor design, a promising direction for exploring potentially druggable targets with high biological specificity.

}, doi = {10.1371/journal.pone.0009142}, url = {http://dx.doi.org/10.1371\%2Fjournal.pone.0009142}, author = {M{\'e}riam Ben Hamida{\textendash}Reba\"{\i} and Charles H. Robert} } @article {2010|1736, title = {Consensus {M}odes, a robust description of protein collective motions from multiple-minima normal mode analysis{\textendash}application to the {HIV}-1 protease.}, journal = {Phys. Chem. Chem. Phys.}, volume = {12}, year = {2010}, month = {mar}, pages = {2850{\textendash}2859}, abstract = {

Protein flexibility is essential for enzymatic function, ligand binding, and protein-protein or protein-nucleic acid interactions. Normal mode analysis has increasingly been shown to be well suited for studying such flexibility, as it can be used to identify favorable structural deformations that correspond to functional motions. However, normal modes are strictly relevant to a single structure, reflecting a particular minimum on a complex energy surface, and are thus susceptible to artifacts. We describe a new theoretical framework for determining \"consensus\" normal modes from a set of related structures, such as those issuing from a short molecular dynamics simulation. This approach is more robust than standard normal mode analysis, and provides higher collectivity and symmetry properties. In an application to HIV-1 protease, the low-frequency consensus modes describe biologically relevant motions including flap opening and closing that can be used in interpreting structural changes accompanying the binding of widely differing inhibitors.

}, doi = {10.1039/b919148h}, author = {Paulo R. Batista and Charles H. Robert and Jean-Didier Mar{\'e}chal and M{\'e}riam Ben Hamida{\textendash}Reba\"{\i} and Paulo Pascutti and Paulo M. Bisch and David P. Perahia} } @article {2010|1510, title = {{D}{N}{A} structures from phosphate chemical shifts}, journal = {Nucleic Acids Res.}, volume = {38}, year = {2010}, month = {jan}, pages = {e18}, author = {Abi-Ghanem, J. and Heddi, B. and Foloppe, N. and Hartmann, B.} } @article {2010|1696, title = {Direct evidence of angular jumps during water reorientation through two-dimensional infrared anisotropy}, journal = {J. Phys. Chem. Lett.}, volume = {1}, year = {2010}, pages = {1511{\textendash}1516}, abstract = {

Water reorientation was recently suggested via simulations to proceed through large angular jumps, but direct experimental evidence has so far remained elusive. Here we show that both infrared pump-probe and photon echo spectroscopies can provide such evidence through the measurement of the two-dimensional anisotropy decay. We calculate these two-dimensional anisotropies from simulations and show they can be interpreted as a vibrational frequency-dependent resolved orientation time-correlation function. We develop a frequency-dependent extended jump model to predict the nature of the angular jump signature in these anisotropies. This model provides a rigorous and unambiguous connection between ultrafast infrared experimental results and the presence of angular jumps in bulk water, and calls for new experiments.

}, issn = {19487185}, doi = {10.1021/jz100385r}, author = {Guillaume Stirnemann and Laage, Damien} } @article {2010|1918, title = {Effects of the RGTFEGKF Inhibitor on the Structures of the Transmembrane Fragment 70-86 of Glycophorin A: An All-Atom Molecular Dynamics Study}, journal = {J. Phys. Chem. B}, volume = {114}, number = {2}, year = {2010}, month = {jan}, pages = {1004{\textendash}1009}, doi = {10.1021/jp908889q}, author = {Li, Huiyu and Luo, Yin and Philippe Derreumaux and Wei, Guanghong} } @article {2010|1851, title = {Exploring Multidimensional Free Energy Landscapes Using Time-Dependent Biases on Collective Variables}, journal = {J. Chem. Theory Comput.}, volume = {6}, number = {1}, year = {2010}, pages = {35{\textendash}47}, author = {J{\'e}r{\^o}me H{\'e}nin and Giacomo Fiorin and Christophe Chipot and Michael L Klein} } @article {2010|1901, title = {A Fast Method for Large-Scale De Novo Peptide and Miniprotein Structure Prediction}, journal = {J. Comput. Chem.}, volume = {31}, number = {4}, year = {2010}, month = {mar}, pages = {726{\textendash}738}, doi = {10.1002/jcc.21365}, author = {Maupetit, Julien and Philippe Derreumaux and Pierre Tuffery} } @article {2010|1613, title = {Functional Modes and Residue Flexibility Control the Anisotropic Response of Guanylate Kinase to Mechanical Stress}, journal = {Biophys. J.}, volume = {99}, number = {10}, year = {2010}, pages = {3412{\textendash}3419}, doi = {10.1016/j.bpj.2010.09.026}, author = {S Sacquin-Mora and Delalande, O. and Marc Baaden} } @article {2010|1524, title = {{H}ow cations can assist {D}{N}ase {I} in {D}{N}{A} binding and hydrolysis}, journal = {Plos Comput. Biol.}, volume = {6}, year = {2010}, month = {nov}, pages = {e1001000}, author = {M. Gueroult and D. Picot and J. Abi-Ghanem and B. Hartmann and Marc Baaden} } @article {2010|1917, title = {HiRE-RNA: A High Resolution Coarse-Grained Energy Model for RNA}, journal = {J. Phys. Chem. B}, volume = {114}, number = {37}, year = {2010}, month = {sep}, pages = {11957{\textendash}11966}, doi = {10.1021/jp102497y}, author = {Pasquali, Samuela and Philippe Derreumaux} } @article {2010|1788, title = {How does heparin prevent the p{H} inactivation of cathepsin {B}? Allosteric mechanism elucidated by docking and molecular dynamics.}, journal = {Bmc Genomics}, volume = {11, S5}, year = {2010}, author = {Mauricio G.S. Costa and Paulo R. Batista and Cl{\`a}udio S Shida and Charles H. Robert and Paulo M. Bisch and Pedro G. Pascutti} } @article {2010|1511, title = {{I}ntrinsic flexibility of {B}-{D}{N}{A}: the experimental {T}{R}{X} scale}, journal = {Nucleic Acids Res.}, volume = {38}, year = {2010}, month = {jan}, pages = {1034{\textendash}1047}, author = {Heddi, B. and Oguey, C. and Lavelle, C. and Foloppe, N. and Hartmann, B.} } @article {2010|1470, title = {Infrared signatures of the peptide dynamical transition: A molecular dynamics simulation study}, journal = {J. Chem. Phys.}, volume = {133}, number = {3}, year = {2010}, month = {jul}, author = {Kobus, Maja and Phuong Hoang Nguyen and Stock, Gerhard} } @conference {2010|1410, title = {Interacting with Molecular Simulations using a Multimodal VR Framework}, booktitle = {EuroVR-EVE}, year = {2010}, pages = {1{\textendash}4}, address = {Orsay, France}, author = {A Tek and B Laurent and Nicolas F{\'e}rey and Marc Baaden} } @book {2010|1571, title = {Itin{\'e}raires Bis. Mon parcours de jeune chercheur : 13 chercheurs du CNRS t{\'e}moignent.}, year = {2010}, publisher = {Connaissance et Savoirs}, organization = {Connaissance et Savoirs}, author = {Collectif (M. Baaden et al.)} } @article {2010|1885, title = {Low molecular weight oligomers of amyloid peptides display beta-barrel conformations: A replica exchange molecular dynamics study in explicit solvent}, journal = {J. Chem. Phys.}, volume = {132}, number = {16}, year = {2010}, month = {apr}, pages = {165103}, doi = {10.1063/1.3385470}, author = {De Simone, Alfonso and Philippe Derreumaux} } @article {2010|1512, title = {{M}odeling the early stage of {D}{N}{A} sequence recognition within {R}ec{A} nucleoprotein filaments}, journal = {Nucleic Acids Res.}, volume = {38}, year = {2010}, month = {oct}, pages = {6313{\textendash}6323}, author = {A Saladin and Amourda, C. and Poulain, P. and Nicolas F{\'e}rey and Marc Baaden and Martin Zacharias and Delalande, O. and Chantal Pr{\'e}vost} } @article {2010|1516, title = {{M}ulti-resolution approach for interactively locating functionally linked ion binding sites by steering small molecules into electrostatic potential maps using a haptic device}, journal = {Pac. Symp. Biocomput.}, year = {2010}, pages = {205{\textendash}215}, author = {Delalande, O. and Nicolas F{\'e}rey and Laurent, B. and Gueroult, M. and Hartmann, B. and Marc Baaden} } @inbook {2010|1569, title = {Molecular dynamics studies of outer membrane proteins : a story of barrels}, year = {2010}, pages = {225{\textendash}247}, publisher = {Royal Society of Chemistry}, organization = {Royal Society of Chemistry}, chapter = {Molecular Simulations and Biomembranes: From Biophysics to Function}, address = {United Kingdom}, author = {S. Khalid and Marc Baaden}, editor = {P.C. Biggin and M.S.P. Sansom} } @article {2010|1971, title = {Multiple binding sites for the general anesthetic isoflurane identified in the nicotinic acetylcholine receptor transmembrane domain.}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {107}, number = {32}, year = {2010}, pages = {14122{\textendash}14127}, abstract = {An extensive search for isoflurane binding sites in the nicotinic acetylcholine receptor (nAChR) and the proton gated ion channel from Gloebacter violaceus (GLIC) has been carried out based on molecular dynamics (MD) simulations in fully hydrated lipid membrane environments. Isoflurane introduced into the aqueous phase readily partitions into the lipid membrane and the membrane-bound protein. Specifically, isoflurane binds persistently to three classes of sites in the nAChR transmembrane domain: (i) An isoflurane dimer occludes the pore, contacting residues identified by previous mutagenesis studies; analogous behavior is observed in GLIC. (ii) Several nAChR subunit interfaces are also occupied, in a site suggested by photoaffinity labeling and thought to positively modulate the receptor; these sites are not occupied in GLIC. (iii) Isoflurane binds to the subunit centers of both nAChR alpha chains and one of the GLIC chains, in a site that has had little experimental targeting. Interpreted in the context of existing structural and physiological data, the present MD results support a multisite model for the mechanism of receptor-channel modulation by anesthetics.}, doi = {10.1073/pnas.1008534107}, author = {Grace Brannigan and David N LeBard and J{\'e}r{\^o}me H{\'e}nin and Roderic G Eckenhoff and Michael L Klein} } @article {2010|1685, title = {Non adiabatic simulations of exciton dissociation in poly-p-phenylenevinylene oligomers}, journal = {J. Phys. Chem. A}, volume = {114}, year = {2010}, pages = {7661{\textendash}7670}, author = {M. Bedard-Hearn and Fabio Sterpone and P.J. Rossky} } @article {2010|1472, title = {Nonequilibrium molecular dynamics simulation of the energy transport through a peptide helix}, journal = {J. Chem. Phys.}, volume = {132}, number = {2}, year = {2010}, month = {jan}, author = {Phuong Hoang Nguyen and Park, Sang-Min and Stock, Gerhard} } @article {2010|1529, title = {{O}ne-microsecond molecular dynamics simulation of channel gating in a nicotinic receptor homologue}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {107}, year = {2010}, month = {apr}, pages = {6275{\textendash}6280}, author = {Nury, H. and Poitevin, F. and Van Renterghem, C. and Changeux, J. P. and Corringer, P. J. and Delarue, M. and Marc Baaden} } @article {2010|1395, title = {{P}hotocontrol of protein activity in cultured cells and zebrafish with one- and two-photon illumination}, journal = {Chembiochem}, volume = {11}, year = {2010}, month = {mar}, pages = {653{\textendash}663}, author = {Sinha, D. K. and Neveu, P. and Gagey, N. and Aujard, I. and Benbrahim-Bouzidi, C. and Le Saux, T. and Rampon, C. and Gauron, C. and Goetz, B. and Dubruille, S. and Marc Baaden and Volovitch, M. and Bensimon, D. and Vriz, S. and Jullien, L.} } @inbook {2010|1758, title = {Protein-Protein Docking}, booktitle = {Protein-Protein Complexes. Analysis, Modeling and Drug Design}, year = {2010}, pages = {147{\textendash}181}, publisher = {Imperial College Press}, organization = {Imperial College Press}, chapter = {6}, author = {A Saladin and Chantal Pr{\'e}vost}, editor = {Martin Zacharias} } @article {2010|2007, title = {{A} putative extracellular salt bridge at the subunit interface contributes to the ion channel function of the {A}{T}{P}-gated {P}2{X}2 receptor}, journal = {J. Biol. Chem.}, volume = {285}, number = {21}, year = {2010}, month = {may}, pages = {15805{\textendash}15815}, publisher = {American Society for Biochemistry and Molecular Biology}, author = {Jiang, R. and Martz, A. and Gonin, S. and Antoine Taly and de Carvalho, L. P. and Grutter, T.} } @conference {2010|1459, title = {A Rendering Method for Small Molecules up to Macromolecular Systems: HyperBalls Accelerated by Graphics Processors}, booktitle = {JOBIM}, year = {2010}, author = {Matthieu Chavent and A. Vanel and B. L{\'e}vy and B. Raffin and A. Tek and Marc Baaden} } @article {2010|1471, title = {Replica exchange simulation method using temperature and solvent viscosity}, journal = {J. Chem. Phys.}, volume = {132}, number = {14}, year = {2010}, month = {apr}, author = {Phuong Hoang Nguyen} } @article {2010|1456, title = {{S}equence-dependent {D}{N}{A} flexibility mediates {D}{N}ase {I} cleavage}, journal = {J. Mol. Biol.}, volume = {395}, year = {2010}, month = {jan}, pages = {123{\textendash}133}, author = {Heddi, B. and Abi-Ghanem, J. and Lavigne, M. and Hartmann, B.} } @article {2010|1977, title = {Side-chain rotamer transitions at protein-protein interfaces}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {78}, year = {2010}, pages = {3219{\textendash}25}, author = {Mainak Guharoy and Jo\�el Janin and Charles H. Robert} } @mastersthesis {2010|1570, title = {Simulations num{\'e}riques de syst{\`e}mes biologiques complexes : dynamique, structure et fonction de transporteurs, canaux et enzymes}, year = {2010}, school = {Universit{\'e} Paris-Diderot - Paris VII (15/06/2010), Fr{\'e}d{\'e}ric Dardel (Pr.)}, type = {phd}, author = {Marc Baaden} } @article {2010|1789, title = {Single-spanning transmembrane domains in cell growth and cell-cell interactions: More than meets the eye?}, journal = {Cell Adh. Migr.}, volume = {4}, number = {2}, year = {2010}, month = {apr}, pages = {313{\textendash}324}, abstract = {

As a whole, integral membrane proteins represent about one third of sequenced genomes, and more than 50\% of currently available drugs target membrane proteins, often cell surface receptors. Some membrane protein classes, with a defined number of transmembrane (TM) helices, are receiving much attention because of their great functional and pharmacological importance, such as G protein-coupled receptors possessing 7 TM segments. Although they represent roughly half of all membrane proteins, bitopic proteins (with only 1 TM helix) have so far been less well characterized. Though they include many essential families of receptors, such as adhesion molecules and receptor tyrosine kinases, many of which are excellent targets for biopharmaceuticals (peptides, antibodies, et al.). A growing body of evidence suggests a major role for interactions between TM domains of these receptors in signaling, through homo and heteromeric associations, conformational changes, assembly of signaling platforms, etc. Significantly, mutations within single domains are frequent in human disease, such as cancer or developmental disorders. This review attempts to give an overview of current knowledge about these interactions, from structural data to therapeutic perspectives, focusing on bitopic proteins involved in cell signaling.

}, keywords = {Animals, Biological, Humans, Membrane Proteins, Models, Protein Structure, Secondary, Signal Transduction, Tertiary}, issn = {1933-6926}, doi = {10.4161/cam.4.2.12430}, author = {Pierre Hubert and Paul Sawma and Jean-Pierre Duneau and Jonathan Khao and J{\'e}r{\^o}me H{\'e}nin and Dominique Bagnard and James Sturgis} } @article {2010|1444, title = {{T}he molecular recognition mechanism for superoxide dismutase presequence binding to the mitochondrial protein import receptor {T}om20 from {O}ryza sativa involves an {L}{R}{T}{L}{A} motif}, journal = {J. Phys. Chem. B}, volume = {114}, year = {2010}, month = {nov}, pages = {13839{\textendash}13846}, author = {Y. Zhang and Marc Baaden and J. Yan and J. Shao and S. Qiu and Y. Wu and Y. Ding} } @article {2010|1457, title = {{A}tomic structure and dynamics of pentameric ligand-gated ion channels: new insight from bacterial homologues}, journal = {J. Physiol. (lond.)}, volume = {588}, year = {2010}, month = {feb}, pages = {565{\textendash}572}, author = {Corringer, P. J. and Marc Baaden and Bocquet, N. and Delarue, M. and Dufresne, V. and Nury, H. and Prevost, M. and Van Renterghem, C.} } @article {2010, title = {The VLITL aggregation-prone motif might trigger amyloid fibril formation of fibrinogen A alpha-chain frameshift variants in vivo}, journal = {Amyloid-journal of Protein Folding Disorders}, volume = {17}, number = {Suppl. 1}, year = {2010}, note = {12th International Symposium on Amyloidosis from Molecular Mechanisms Toward the Cure of Systemic Amyloidoses, Rome, ITALY, APR 18-21, 2010}, pages = {96{\textendash}97}, author = {Valleix, S. and Philippe Derreumaux and Garnier, C. and Briki, F. and Boimard, M. and Doucet, J. and Rioux-Leclercq, N. and Martin, L. and Grateau, G. and Delpech, M. and Le Pogamp, P.} } @article {2010|1445, title = {Water around thermophilic proteins: the role of charged and apolar atoms}, journal = {J Phys: Cond Matt}, volume = {22}, number = {28}, year = {2010}, pages = {284113}, author = {Fabio Sterpone and Claudia Bertonati and Giuseppe Briganti and Simone Melchionna} } @article {2010|1692, title = {Water hydrogen bond dynamics in aqueous solutions of amphiphiles}, journal = {J. Phys. Chem. B}, volume = {114}, year = {2010}, pages = {3052{\textendash}3059}, abstract = {

The hydrogen bond dynamics of water in a series of amphiphilic solute solutions are investigated through simulations and analytic modeling with an emphasis on the interpretation of experimentally accessible two-dimensional infrared (2D IR) photon echo spectra. We evidence that for most solutes the major effect in the hydration dynamics comes from the hydrophilic groups. These groups can retard the water dynamics much more significantly than can hydrophobic groups by forming strong hydrogen bonds with water. By contrast, hydrophobic groups are shown to have a very moderate effect on water hydrogen bond breaking kinetics. We also present the first calculation of the 2D IR spectra for these solutions. While 2D IR spectroscopy is a powerful technique to probe water hydrogen bond network fluctuations, interpretations of aqueous solution spectra remain ambiguous. We show that a complementary approach through simulations and calculation of the spectra lifts the ambiguity and provides a clear connection between the simulated molecular picture and the experimental spectroscopy data. For amphiphilic solute solutions, we show that, in contrast with techniques such as NMR or ultrafast anisotropy, 2D IR spectroscopy can discriminate between waters next to the solutes hydrophobic and hydrophilic groups. We also evidence that the water dynamics slowdown due to the hydrophilic groups is dramatically enhanced in the 2D IR spectral relaxation, because these groups can induce a slow chemical exchange with the bulk, even when recognized exchange signatures are absent. Implications for the understanding of water around chemically heterogeneous systems such as protein surfaces and for the interpretation of 2D IR spectra in these cases are discussed.

}, issn = {15206106}, author = {Guillaume Stirnemann and Hynes, James T. and Laage, Damien} } @article {2010|1832, title = {Water hydrogen-bond dynamics around amino acids: the key role of hydrophilic hydrogen-bond acceptor groups}, journal = {J. Phys. Chem. B}, volume = {114}, number = {5}, year = {2010}, pages = {2083{\textendash}9}, abstract = {

Water hydrogen-bond (HB) dynamics around amino acids in dilute aqueous solution is investigated through molecular dynamics simulations and analytic modeling. We especially highlight the critical role played by hydrophilic HB acceptors: the strength of the HB formed with water has a pronounced effect on the HB dynamics, in accord with several experimental observations. In contrast, we evidence that hydrophilic HB donors induce a moderate slowdown in the water HB exchange dynamics due to an excluded volume effect, similar to that of hydrophobic groups. We present an analytic model which rationalizes the effect of all examined amino acid sites on the HB dynamics and whose predictions are in excellent agreement with the numerical simulations. This model provides the acceleration or retardation in the HB exchange time with respect to the bulk through the combination of the solute excluded volume factor with the solute-water HB strength factor, both referring to the HB exchange transition state.

}, author = {Sterpone, Fabio and Guillaume Stirnemann and Hynes, James T and Laage, Damien} } @article {2010|1649, title = {Water reorientation, hydrogen-bond dynamics and 2D-IR spectroscopy next to an extended hydrophobic surface.}, journal = {Farad. Discuss.}, volume = {146}, year = {2010}, pages = {263{\textendash}281}, abstract = {

The dynamics of water next to hydrophobic groups is critical for several fundamental biochemical processes such as protein folding and amyloid fiber aggregation. Some biomolecular systems, like melittin or other membrane-associated proteins, exhibit extended hydrophobic surfaces. Due to the strain these surfaces impose on the hydrogen (H)-bond network, the water molecules shift from the clathrate-like arrangement observed around small solutes to an anticlathrate-like geometry with some dangling OH bonds pointing toward the surface. Here we examine the water reorientation dynamics next to a model hydrophobic surface through molecular dynamics simulations and analytic modeling. We show that the water OH bonds lying next to the hydrophobic surface fall into two subensembles with distinct dynamical reorientation properties. The first is the OH bonds tangent to the surface; these exhibit a behavior similar to the water OHs around small hydrophobic solutes, i.e. with a moderate reorientational slowdown explained by an excluded volume effect due to the surface. The second is the dangling OHs pointing toward the surface: these are not engaged in any H-bond, reorient much faster than in the bulk, and exhibit an unusual anisotropy decay which becomes negative for delays of a few picoseconds. The H-bond dynamics, i.e. the exchanges between the different configurations, and the resulting anisotropy decays are analyzed within the analytic extended jump model. We also show that a recent spectroscopy technique, two-dimensional time resolved vibrational spectroscopy (2D-IR), can be used to selectively follow the dynamics of dangling OHs, since these are spectrally distinct from H-bonded ones. By computing the first 2D-IR spectra of water next to a hydrophobic surface, we establish a connection between the spectral dynamics and the dynamical properties that we obtain directly from the simulations.

}, issn = {1359-6640}, author = {Guillaume Stirnemann and Rossky, Peter J and Hynes, James T and Laage, Damien} } @article {2009|1947, title = {Analysis of accordion DNA stretching revealed by the gold cluster ruler}, journal = {Phys. Rev. E}, volume = {80}, year = {2009}, pages = {010901}, author = {Alexey K Mazur} } @article {2009|1442, title = {{C}harge {R}ecombination {K}inetics and {P}rotein {D}ynamics in {W}ild {T}ype and {C}arotenoid-less {B}acterial {R}eaction {C}enters: {S}tudies in {T}rehalose {G}lasses}, journal = {J. Phys. Chem. B}, volume = {113}, year = {2009}, month = {jul}, pages = {10389{\textendash}1398}, author = {Francia, F. and Malferrari, M. and S Sacquin-Mora and Venturoli, G.} } @article {2009|1399, title = {{C}oarse-grain simulations of the {R}-{S}{N}{A}{R}{E} fusion protein in its membrane environment detect long-lived conformational sub-states}, journal = {Chemphyschem}, volume = {10}, year = {2009}, month = {jul}, pages = {1548{\textendash}1552}, author = {Durrieu, M. P. and Bond, P. J. and Sansom, M. S. and Lavery, R. and Marc Baaden} } @article {2009|1435, title = {{C}omplex molecular assemblies at hand via interactive simulations}, journal = {J. Comput. Chem.}, volume = {30}, year = {2009}, month = {nov}, pages = {2375{\textendash}2387}, author = {Delalande, O. and Nicolas F{\'e}rey and Grasseau, G. and Marc Baaden} } @book {2009|1567, title = {Coarse-graining protein mechanics}, volume = {Coarse-Graining of Condensed Phase and Biomolecular Systems}, year = {2009}, publisher = {Taylor and Francis}, organization = {Taylor and Francis}, author = {R Lavery and S Sacquin-Mora}, editor = {G. Voth} } @article {2009|2017, title = {The Conversion of Helix H2 to beta-Sheet Is Accelerated in the Monomer and Dimer of the Prion Protein upon T183A Mutation}, journal = {J. Phys. Chem. B}, volume = {113}, number = {19}, year = {2009}, month = {may}, pages = {6942{\textendash}6948}, doi = {10.1021/jp900334s}, author = {Y Chebaro and Philippe Derreumaux} } @article {2009|1636, title = {Deforming DNA: from physics to biology}, journal = {Chemphyschem}, volume = {10}, year = {2009}, month = {jul}, pages = {1399{\textendash}404}, abstract = {

The DNA double helix has become a modern icon which symbolizes our understanding of the molecular basis of life. It is less widely recognized that the double helix proposed by Watson and Crick more than half a century ago is a remarkably adaptable molecule that can undergo major conformational rearrangements without being irreversibly damaged. Indeed, DNA deformation is an intrinsic feature of many of the biological processes in which it is involved. Over the last two decades, single-molecule experiments coupled with molecular modeling have transformed our understanding of DNA flexibility, while the accumulation of high-resolution structures of DNA-protein complexes have demonstrated how organisms can exploit this property as a useful feature for preserving, reading, replicating, and packaging the genetic message. In this Minireview we summarize the information now available on the extreme\–and the less extreme\–deformations of the double helix.

}, doi = {10.1002/cphc.200900253}, author = {Chantal Pr{\'e}vost and M. Takahashi and Richard Lavery} } @article {2009|1394, title = {Disulfide bond substitution by directed evolution in an engineered binding-protein scaffold.}, journal = {Chembiochem}, volume = {10}, year = {2009}, pages = {1349{\textendash}1359}, author = {Antoine Drevelle and Agathe Urvoas and M{\'e}riam Ben Hamida-Rebai and G{\'e}rard Van Vooren and Magali Nicaise and Marie Valerio-Lepiniec and Michel Desmadril and Charles H. Robert and Philippe Minard} } @article {2009|1509, title = {{E}ts-1 p51 and p42 isoforms differentially modulate {S}tromelysin-1 promoter according to induced {D}{N}{A} bend orientation}, journal = {Nucleic Acids Res.}, volume = {37}, year = {2009}, month = {jul}, pages = {4341{\textendash}4352}, author = {Leprivier, G. and Baillat, D. and Begue, A. and Hartmann, B. and Aumercier, M.} } @article {2009|2018, title = {Energy Flow and Long-Range Correlations in Guanine-Binding Riboswitch: A Nonequilibrium Molecular Dynamics Study}, journal = {J. Phys. Chem. B}, volume = {113}, number = {27}, year = {2009}, month = {jul}, pages = {9340{\textendash}9347}, keywords = {Binding Sites, Computer Simulation, Energy Transfer, Guanine, Ligands, Models, Molecular, Nucleic Acid Conformation, RNA, Temperature}, doi = {10.1021/jp902013s}, author = {Phuong Hoang Nguyen and Philippe Derreumaux and Stock, Gerhard} } @article {2009|1398, title = {Estimating configurational entropy of complex molecules: A novel variable transformation approach}, journal = {Chem. Phys. Lett.}, volume = {468}, number = {1-3}, year = {2009}, month = {jan}, pages = {90{\textendash}93}, author = {Phuong Hoang Nguyen} } @conference {2009, title = {Exploring amyloid aggregates with the OPEP coarse-grained force field}, booktitle = {Abstracts of Papers of the American Chemical Society}, volume = {238}, year = {2009}, author = {Philippe Derreumaux} } @article {2009|1436, title = {A fast method for large-scale De Novo peptide and miniprotein structure prediction.}, journal = {J. Comput. Chem.}, year = {2009}, month = {jun}, doi = {10.1002/jcc.21365}, author = {Julien Maupetit and Philippe Derreumaux and Pierre Tuffery} } @article {2009|1486, title = {Free-Energy Landscape of RNA Hairpins Constructed via Dihedral Angle Principal Component Analysis}, journal = {J. Phys. Chem. B}, volume = {113}, number = {52}, year = {2009}, month = {dec}, pages = {16660{\textendash}16668}, author = {Riccardi, Laura and Phuong Hoang Nguyen and Stock, Gerhard} } @article {2009|1605, title = {The HSP90 binding mode of a radicicol-like E-oxime determined by docking, binding free energy estimations, and NMR 15 N chemical shifts}, journal = {Biophys. Chem.}, volume = {143}, number = {3}, year = {2009}, pages = {111{\textendash}123}, publisher = {Elsevier}, author = {Spichty, Martin and Antoine Taly and Hagn, Franz and Kessler, Horst and Barluenga, Sofia and Winssinger, Nicolas and Karplus, Martin} } @article {2009|1614, title = {Induced beta-Barrel Formation of the Alzheimer{\textquoteright}s A beta 25-35 Oligomers on Carbon Nanotube Surfaces: Implication for Amyloid Fibril Inhibition}, journal = {Biophys. J.}, volume = {97}, number = {6}, year = {2009}, month = {sep}, pages = {1795{\textendash}1803}, doi = {10.1016/j.bpj.2009.07.014}, author = {Fu, Zhaoming and Luo, Yin and Philippe Derreumaux and Wei, Guanghong} } @article {2009|1387, title = {Induced beta-barrel formation of the Alzheimer{\textquoteright}s Abeta25-35 oligomers on carbon nanotube surfaces: implication for amyloid fibril inhibition.}, journal = {Biophys. J.}, volume = {97}, number = {6}, year = {2009}, month = {sep}, pages = {1795{\textendash}1803}, doi = {10.1016/j.bpj.2009.07.014}, author = {Zhaoming Fu and Yin Luo and Philippe Derreumaux and Guanghong Wei} } @article {2009|1959, title = {Joint Evolutionary Trees: A Large-Scale Method To Predict Protein Interfaces Based on Sequence Sampling}, journal = {Plos Comput. Biol.}, volume = {5}, number = {1}, year = {2009}, month = {jan}, pages = {e1000267}, doi = {10.1371/journal.pcbi.1000267}, url = {http://dx.doi.org/10.1371\%2Fjournal.pcbi.1000267}, author = {Engelen, Stefan and Trojan, Ladislas A. and S Sacquin-Mora and Lavery, Richard and Carbone, Alessandra} } @article {2009|1831, title = {Key role of proximal water in regulating thermostable proteins}, journal = {J. Phys. Chem. B}, volume = {113}, number = {1}, year = {2009}, month = {jan}, pages = {131{\textendash}7}, abstract = {Three homologous proteins with mesophilic, thermophilic and hyperthermophilic character have been studied via molecular dynamics simulations at four different temperatures in order to investigate how water controls thermostability. The water-exposed surface of the protein is shown to increase with the degree of thermophilicity, and the role of water in enhancing the protein internal flexibility and structural robustness is elucidated. The presence of water-water hydrogen bond clusters enveloping the macromolecule is shown to correlate with thermal robustness when going from the mesophilic to the hyperthermophilic variants. Our analysis indicates that essential contributions to thermostability stem from protein-water surface effects whereas the protein internal packing plays a minor role.}, doi = {10.1021/jp805199c}, author = {Sterpone, Fabio and Bertonati, Claudia and Briganti, Giuseppe and Melchionna, Simone} } @article {2009|1863, title = {Kinetic and thermodynamic DNA elasticity at micro- and mesoscopic scales}, journal = {J. Phys. Chem. B}, volume = {113}, year = {2009}, pages = {2077{\textendash}2089}, author = {Alexey K Mazur} } @article {2009|1799, title = {{M}odeling the {M}echanical {R}esponse of {P}roteins to {A}nisotropic {D}eformation}, journal = {Chemphyschem}, volume = {10}, number = {1}, year = {2009}, month = {jan}, pages = {115{\textendash}118}, doi = {10.1002/cphc.200800480}, author = {S Sacquin-Mora and Lavery, R.} } @article {2009|1500, title = {Mean field and the confined single homopolymer}, journal = {Mol. Phys.}, volume = {107}, number = {13}, year = {2009}, pages = {1303{\textendash}1312}, author = {S. Pasquali and J. K. Percus} } @article {2009|1850, title = {Modeling DNA dynamics under steady deforming forces and torques}, journal = {J. Chem. Theory Comput.}, volume = {5}, year = {2009}, pages = {2149{\textendash}2157}, author = {Alexey K Mazur} } @article {2009|1864, title = {Models for phosphatidylglycerol lipids put to a structural test}, journal = {J. Phys. Chem. B}, volume = {113}, number = {19}, year = {2009}, pages = {6958{\textendash}6963}, publisher = {Center for Molecular Modeling, Department of Chemistry, University of Pennsylvania, 231 South 34th Street, Philadelphia, Pennsylvania 19104-6323, USA. jhenin@cmm.chem.upenn.edu}, abstract = {Three atomistic empirical models for phosphatidylglycerol (PG) lipids are tested against structural data in the crystal and liquid crystal states. Simulations of the anhydrous crystal of dimyristoyl-phosphatidylglycerol (DMPG) show that only the CHARMM force field describes the conformation and interactions of PG head groups accurately. The other two models do not reproduce the native network of hydrogen bonds, suggesting the presence of biases in their conformational and nonbonded interaction properties. The CHARMM model is further validated in the biologically relevant liquid crystal phase by comparing experimental small-angle X-ray scattering spectra from DMPG unilamellar vesicles with data calculated from fluid bilayer simulations. The good agreement found in this model-free comparison implies that liquid crystal PG bilayers as described by CHARMM exhibit realistic bilayer thickness and lateral packing. Last, this model is used to simulate a fluid bilayer of palmitoyl-oleoyl-phosphatidylglycerol (POPG). The resulting view of the POPG bilayer structure is at variance with that proposed previously based on simulations, in particular, with respect to lateral packing of head groups and the role of counterions.}, keywords = {chemistry, Crystallography, Lipid Bilayers, Models, Molecular, Phosphatidylglycerols, Scattering, Small Angle, Water, X-Ray}, doi = {10.1021/jp900645z}, author = {J{\'e}r{\^o}me H{\'e}nin and Wataru Shinoda and Michael L Klein} } @article {2009|1469, title = {Molecular dynamics simulation of cooling: Heat transfer from a photoexcited peptide to the solvent}, journal = {J. Chem. Phys.}, volume = {131}, number = {18}, year = {2009}, month = {nov}, author = {Park, Sang-Min and Phuong Hoang Nguyen and Stock, Gerhard} } @article {2009|2010, title = {{N}icotinic receptors: allosteric transitions and therapeutic targets in the nervous system}, journal = {Nat. Rev. Drug Discov.}, volume = {8}, number = {9}, year = {2009}, month = {sep}, pages = {733{\textendash}750}, publisher = {Nature Publishing Group}, author = {Antoine Taly and Corringer, P. J. and Guedin, D. and Lestage, P. and Jean-Pierre Changeux} } @article {2009|1438, title = {{A}n optimized extended {D}{N}{A} kappa {B} site that enhances plasmid {D}{N}{A} nuclear import and gene expression}, journal = {J. Gene Med.}, volume = {11}, year = {2009}, month = {may}, pages = {401{\textendash}411}, author = {Goncalves, C. and Ardourel, M. Y. and Decoville, M. and Breuzard, G. and Midoux, P. and Hartmann, B. and Pichon, C.} } @article {2009|1384, title = {New Insight into the interaction between erbin and smad3: a non-classical binding interface for the erbin PDZ domain}, journal = {Biochem. Biophys. Res. Commun.}, volume = {378}, number = {3}, year = {2009}, pages = {360{\textendash}365}, author = {N Deliot and Matthieu Chavent and C Nourry and P Lecine and C Arnaud and A Hermant and B Maigret and J.-P. Borg} } @article {2009|1440, title = {Nonadiabatic mixed quantum-classical dynamic simulation of pi-stacked oligophenylenevinylenes}, journal = {J. Phys. Chem. A}, volume = {113}, number = {15}, year = {2009}, pages = {3427{\textendash}30}, author = {Sterpone, Fabio and Bedard-Hearn, Michael J and Rossky, Peter J} } @inbook {2009|1568, title = {Nonequilibrium molecular dynamics simulation of photoinduced energy flow in peptides: theory meets experiment}, year = {2009}, publisher = {CRC Press}, organization = {CRC Press}, author = {Phuong Hoang Nguyen and P. Hamm and G. Stock}, editor = {D. Leitner and J. Straub} } @article {2009|1521, title = {Numerical studies of Lifshitz interactions between dielectrics}, journal = {Phys. Rev. A}, volume = {79}, year = {2009}, pages = {020102(R)}, author = {S. Pasquali and A.C. Maggs} } @article {2009|1942, title = {PEP-FOLD: an online resource for de novo peptide structure prediction.}, journal = {Nucleic Acids Res.}, volume = {37}, number = {Web Server issue}, year = {2009}, month = {jul}, pages = {W498{\textendash}W503}, keywords = {Algorithms, Internet, Models, Molecular, Peptides, Protein, Protein Conformation, Reproducibility of Results, Sequence Analysis, Software, User-Computer Interface}, doi = {10.1093/nar/gkp323}, author = {Julien Maupetit and Philippe Derreumaux and Pierre Tuffery} } @article {2009|1734, title = {PEP-FOLD: an online resource for de novo peptide structure prediction}, journal = {Nucleic Acids Res.}, volume = {37}, year = {2009}, month = {jul}, pages = {W498-W503}, doi = {10.1093/nar/gkp323}, author = {Maupetit, Julien and Philippe Derreumaux and Pierre Tuffery} } @article {2009|1392, title = {{PT}ools: an opensource molecular docking library.}, journal = {Bmc Struct. Biol.}, volume = {9}, year = {2009}, pages = {27{\textendash}37}, doi = {10.1186/1472-6807-9-27}, author = {A Saladin and Fiorucci, S and Poulain, P and Chantal Pr{\'e}vost and Martin Zacharias} } @article {2009|1443, title = {{R}elating the {D}iffusion of {S}mall {L}igands in {H}uman {N}euroglobin to {I}ts {S}tructural and {M}echanical {P}roperties}, journal = {J. Phys. Chem. B}, volume = {113}, number = {50}, year = {2009}, month = {nov}, pages = {16257{\textendash}16267}, author = {Bocahut, A. and Bernad, S. and Sebban, P. and S Sacquin-Mora} } @article {2009|1830, title = {Replica exchange molecular dynamics simulations of coarse-grained proteins in implicit solvent.}, journal = {J. Phys. Chem. B}, volume = {113}, number = {1}, year = {2009}, month = {jan}, pages = {267{\textendash}274}, keywords = {Amino Acid Sequence, Computer Simulation, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Peptides, Protein Folding, Protein Structure, Proteins, Secondary, Solvents, Temperature, Thermodynamics}, doi = {10.1021/jp805309e}, author = {Y Chebaro and Xiao Dong and Rozita Laghaei and Philippe Derreumaux and Normand Mousseau} } @article {2009|1779, title = {Role of nucleic acid binding in Sir3p-dependent interactions with chromatin fibers.}, journal = {Biochemistry}, volume = {48}, number = {2}, year = {2009}, month = {jan}, pages = {276{\textendash}288}, publisher = {Department of Biological Sciences and Cell Differentiation and Development Center, Marshall University, Huntington, West Virginia 25755, USA.}, abstract = {

Recent studies of the mechanisms involved in the regulation of gene expression in eukaryotic organisms depict a highly complex process requiring a coordinated rearrangement of numerous molecules to mediate DNA accessibility. Silencing in Saccharomyces cerevisiae involves the Sir family of proteins. Sir3p, originally described as repressing key areas of the yeast genome through interactions with the tails of histones H3 and H4, appears to have additional roles in that process, including involvement with a DNA binding component. Our in vitro studies focused on the characterization of Sir3p-nucleic acid interactions and their biological functions in Sir3p-mediated silencing using binding assays, EM imaging, and theoretical modeling. Our results suggest that the initial Sir3p recruitment is partially DNA-driven, highly cooperative, and dependent on nucleosomal features other than histone tails. The initial step appears to be rapidly followed by the spreading of silencing using linker DNA as a track.

}, doi = {10.1021/bi801705g}, author = {Nicholas L Adkins and Steve J McBryant and Cotteka N Johnson and Jennifer M Leidy and Christopher L Woodcock and Charles H Robert and Jeffrey C Hansen and Philippe T Georgel} } @article {2009|1495, title = {Sphere versus cylinder: the effect of packing on the structure of nonionic C12E6 micelles}, journal = {Langmuir}, volume = {25}, number = {16}, year = {2009}, pages = {8960{\textendash}7}, author = {Sterpone, Fabio and Briganti, G and Pierleoni, C} } @article {2009|2009, title = {Structural diversity of the soluble trimers of the human amylin(20-29) peptide revealed by molecular dynamics simulations}, journal = {J. Chem. Phys.}, volume = {130}, number = {12}, year = {2009}, month = {mar}, pages = {125101}, keywords = {Amino Acid Sequence, Amyloid, Humans, Models, Molecular, Molecular Sequence Data, Peptide Fragments, Protein Multimerization, Protein Structure, Quaternary, Solubility, Solvents}, doi = {10.1063/1.3097982}, author = {Mo, Yuxiang and Lu, Yan and Wei, Guanghong and Philippe Derreumaux} } @article {2009|1916, title = {Structures and Thermodynamics of Alzheimer{\textquoteright}s Amyloid-beta A beta(16-35) Monomer and Dimer by Replica Exchange Molecular Dynamics Simulations: Implication for Full-Length A beta Fibrillation}, journal = {J. Phys. Chem. B}, volume = {113}, number = {21}, year = {2009}, month = {may}, pages = {7668{\textendash}7675}, doi = {10.1021/jp900425e}, author = {Y Chebaro and Mousseau, Normand and Philippe Derreumaux} } @article {2009|1986, title = {Targeting the early steps of A beta 16-22 protofibril disassembly by N-methylated inhibitors: A numerical study}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {75}, number = {2}, year = {2009}, month = {may}, pages = {442{\textendash}452}, doi = {10.1002/prot.22254}, author = {Y Chebaro and Philippe Derreumaux} } @article {2009|2019, title = {Thermodynamics and dynamics of amyloid peptide oligomerization are sequence dependent}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {75}, number = {4}, year = {2009}, month = {jun}, pages = {954{\textendash}963}, keywords = {Amino Acid Sequence, Amyloid beta-Protein, beta 2-Microglobulin, Cluster Analysis, Computer Simulation, Models, Molecular, Peptide Fragments, Protein Multimerization, Protein Structure, Secondary, Structure-Activity Relationship, Thermodynamics}, doi = {10.1002/prot.22305}, author = {Lu, Yan and Philippe Derreumaux and Guo, Zhi and Mousseau, Normand and Wei, Guanghong} } @article {2009|1693, title = {Why water reorientation slows without iceberg formation around hydrophobic solutes}, journal = {J. Phys. Chem. B}, volume = {113}, year = {2009}, pages = {2428{\textendash}2435}, abstract = {

The dynamics of water molecules next to hydrophobic solutes is investigated, specifically addressing the recent controversy raised by the first time-resolved observations, which concluded that some water molecules are immobilized by hydrophobic groups, in strong contrast to previous NMR conclusions. Through molecular dynamics simulations and an analytic jump reorientation model, we identify the water reorientation mechanism next to a hydrophobic solute and provide evidence that no water molecules are immobilized by hydrophobic solutes. Their moderate rotational slowdown compared to bulk water (e.g., by a factor of less than 2 at low solute concentration) is mainly due to slower hydrogen-bond exchange. The slowdown is quantitatively described by a solute excluded volume effect at the transition state for the key hydrogen-bond exchange in the reorientation mechanism. We show that this picture is consistent with both ultrafast anisotropy and NMR experimental results and that the transition state excluded volume theory yields quantitative predictions of the rotational slowdown for diverse hydrophobic solutes of varying size over a wide concentration range. We also explain why hydrophobic groups slow water reorientation less than do some hydrophilic groups.

}, author = {Laage, Damien and Guillaume Stirnemann and Hynes, James T.} } @article {2009|1504, title = {{X}-ray structure of a pentameric ligand-gated ion channel in an apparently open conformation}, journal = {Nature}, volume = {457}, year = {2009}, month = {jan}, pages = {111{\textendash}114}, author = {Bocquet, N. and Nury, H. and Marc Baaden and Le Poupon, C. and Changeux, J. P. and Delarue, M. and Corringer, P. J.} } @article {2008|1808, title = {Anomalous diffusion of ions at the surface of hydrated DNA molecule}, journal = {Europhys. Lett.}, volume = {82}, year = {2008}, pages = {46002}, author = {Alla Oleinikova and Ivan Brovchenko and Aliaksei Krukau and Alexey K Mazur} } @article {2008|1615, title = {The beta-strand-loop-beta-strand conformation is marginally populated in beta(2)-microglobulin (20-41) peptide in solution as revealed by replica exchange molecular dynamics simulations}, journal = {Biophys. J.}, volume = {95}, number = {2}, year = {2008}, month = {jul}, pages = {510{\textendash}517}, doi = {10.1529/biophysj.107.125054}, author = {Liang, Chungwen and Philippe Derreumaux and Mousseau, Normand and Wei, Guanghong} } @article {2008|1583, title = {{C}omparative models of {P}2{X}2 receptor support inter-subunit {A}{T}{P}-binding sites}, journal = {Biochem. Biophys. Res. Commun.}, volume = {375}, number = {3}, year = {2008}, month = {oct}, pages = {405{\textendash}409}, author = {Guerlet, G. and Antoine Taly and Prado de Carvalho, L. and Martz, A. and Jiang, R. and Specht, A. and Le Novere, N. and Grutter, T.} } @article {2008|1585, title = {Comparative models of P2X2 receptor support inter-subunit ATP-binding sites}, journal = {Biochem. Biophys. Res. Commun.}, volume = {375}, number = {3}, year = {2008}, pages = {405{\textendash}409}, publisher = {Academic Press}, author = {Guerlet, Guillaume and Antoine Taly and De Carvalho, Lia Prado and Martz, Adeline and Jiang, Ruotian and Specht, Alexandre and Le Novere, Nicolas and Grutter, Thomas} } @article {2008|1884, title = {The complex folding pathways of protein A suggest a multiple-funnelled energy landscape}, journal = {J. Chem. Phys.}, volume = {128}, number = {4}, year = {2008}, month = {jan}, pages = {045101}, doi = {10.1063/1.2812562}, author = {St-Pierre, Jean-Francois and Mousseau, Normand and Philippe Derreumaux} } @article {2008|1468, title = {Construction of the free energy landscape of biomolecules via dihedral angle principal component analysis}, journal = {J. Chem. Phys.}, volume = {128}, number = {24}, year = {2008}, month = {jun}, author = {Altis, Alexandros and Otten, Moritz and Phuong Hoang Nguyen and Hegger, Rainer and Stock, Gerhard} } @article {2008|1603, title = {Diffusion of glycerol through Escherichia coli aquaglyceroporin GlpF}, journal = {Biophys. J.}, volume = {94}, number = {3}, year = {2008}, pages = {832{\textendash}839}, abstract = {The glycerol uptake facilitator, GlpF, a major intrinsic protein found in Escherichia coli, selectively conducts water and glycerol across the inner membrane. The free energy landscape characterizing the assisted transport of glycerol by this homotetrameric aquaglyceroporin has been explored by means of equilibrium molecular dynamics over a timescale spanning 0.12 micros. To overcome the free energy barriers of the conduction pathway, an adaptive biasing force is applied to the glycerol molecule confined in each of the four channels. The results illuminate the critical role played by intramolecular relaxation on the diffusion properties of the permeant. These free energy calculations reveal that glycerol tumbles and isomerizes on a timescale comparable to that spanned by its adaptive-biasing-force-assisted conduction in GlpF. As a result, reorientation and conformational equilibrium of glycerol in GlpF constitute a bottleneck in the molecular simulations of the permeation event. A profile characterizing the position-dependent diffusion of the permeant has been determined, allowing reaction rate theory to be applied for investigating conduction kinetics based on the measured free energy landscape.}, keywords = {Aquaporins, Chemical, Computer Simulation, Diffusion, Escherichia coli Proteins, Glycerol, Ion Channel Gating, Models, Molecular, Molecular Conformation, Porosity}, doi = {10.1529/biophysj.107.115105}, author = {J{\'e}r{\^o}me H{\'e}nin and Emad Tajkhorshid and Klaus Schulten and Christophe Chipot} } @article {2008|1434, title = {Dissecting the Hydrogen Bond: A Quantum Monte Carlo Approach}, journal = {J Chem Theo Comp}, volume = {4}, number = {9}, year = {2008}, pages = {1428{\textendash}1434}, author = {Sterpone, Fabio and Spanu, Leonardo and Ferraro, Luca and Sorella, Sandro and Guidoni, Leonardo} } @article {2008|1695, title = {Does water condense in hydrophobic cavities? A molecular simulation study of hydration in heterogeneous nanopores}, journal = {J. Phys. Chem. C}, volume = {112}, year = {2008}, pages = {10435{\textendash}10445}, author = {Cailliez, Fabien and Guillaume Stirnemann and Boutin, Anne and Demachy, Isabelle and Fuchs, Alain H.} } @article {2008|1800, title = {The electrostatic origin of low-hydration polymorphism in DNA}, journal = {Chemphyschem in Press}, volume = {9}, year = {2008}, pages = {2691{\textendash}2694}, author = {Alexey K Mazur} } @article {2008|1970, title = {Embedded cholesterol in the nicotinic acetylcholine receptor}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {105}, number = {38}, year = {2008}, pages = {14418{\textendash}14423}, publisher = {Center for Molecular Modeling, Department of Chemistry, University of Pennsylvania, Philadelphia, PA 19104, USA. grace@cmm.upenn.edu}, abstract = {The nicotinic acetylcholine receptor (nAChR) is a cation-selective channel central to both neuronal and muscular processes and is considered the prototype for ligand-gated ion channels, motivating a structural determination effort that spanned several decades [Unwin N (2005) Refined structure of the nicotinic acetylcholine receptor at 4 A resolution. J Mol Biol 346:967-989]. Purified nAChR must be reconstituted in a mixture containing cholesterol to function. Proposed modes of interaction between cholesterol and the protein range from specific binding to indirect membrane-mediated mechanisms. However, the underlying cause of nAChR sensitivity to cholesterol remains controversial, in part because the vast majority of functional studies were conducted before a medium resolution structure was reported. We show that the nAChR contains internal sites capable of containing cholesterol, whose occupation stabilizes the protein structure. We detect sites at the protein-lipid interface as conventionally predicted from functional data, as well as deeply buried sites that are not usually considered. Molecular dynamics simulations reveal that occupation of both superficial and deeply buried sites most effectively preserves the experimental structure; the structure collapses in the absence of bound cholesterol. In particular, we find that bound cholesterol directly supports contacts between the agonist-binding domain and the pore that are thought to be essential for activation of the receptor. These results likely apply to those other ion channels within the Cys-loop superfamily that depend on cholesterol, such as the GABA receptor.}, doi = {10.1073/pnas.0803029105}, author = {Grace Brannigan and J{\'e}r{\^o}me H{\'e}nin and Richard Law and Roderic G Eckenhoff and Michael L Klein} } @article {2008|1883, title = {Energy landscapes of the monomer and dimer of the Alzheimer{\textquoteright}s peptide A beta(1-28)}, journal = {J. Chem. Phys.}, volume = {128}, number = {12}, year = {2008}, month = {mar}, pages = {125108}, doi = {10.1063/1.2890033}, author = {Dong, Xiao and Chen, Wei and Mousseau, Normand and Philippe Derreumaux} } @article {2008|1485, title = {Energy transport in peptide helices: A comparison between high- and low-energy excitations}, journal = {J. Phys. Chem. B}, volume = {112}, number = {30}, year = {2008}, month = {jul}, pages = {9091{\textendash}9099}, author = {Backus, Ellen H. G. and Phuong Hoang Nguyen and Botan, Virgiliu and Pfister, Rolf and Moretto, Alessandro and Crisma, Marco and Toniolo, Claudio and Stock, Gerhard and Hamm, Peter} } @article {2008|1811, title = {Exploring energy landscapes of protein folding and aggregation}, journal = {Front. Biosci.}, volume = {13}, year = {2008}, month = {may}, pages = {4495{\textendash}4516}, doi = {10.2741/3019}, author = {Mousseau, Normand and Philippe Derreumaux} } @article {2008|1999, title = {{F}unctional organization and conformational dynamics of the nicotinic receptor: a plausible structural interpretation of myasthenic mutations}, journal = {Ann. N. Y. Acad. Sci.}, volume = {1132}, number = {1}, year = {2008}, pages = {42{\textendash}52}, publisher = {Wiley Online Library}, author = {Antoine Taly and Jean-Pierre Changeux} } @article {2008|1451, title = {Fluctuation-induced interactions between dielectrics}, journal = {J. Chem. Phys.}, volume = {129}, year = {2008}, pages = {014703}, author = {S. Pasquali and A.C. Maggs} } @conference {2008|1544, title = {Free energy surface of Abeta(16-22) complexed by N-methylated Abeta16-22 inhibitors}, booktitle = {Publication Series of the John von Neumann Institute for Computing NIC Series}, volume = {40}, year = {2008}, pages = {177{\textendash}179}, author = {Y Chebaro and Philippe Derreumaux} } @conference {2008|1557, title = {From Interactive to Immersive Molecular Dynamics}, booktitle = {Workshop on Virtual Reality Interaction and Physical Simulation (VRIPHYS 08 - Eurographics)}, year = {2008}, month = {nov}, pages = {89{\textendash}96}, address = {Grenoble - France}, author = {Nicolas F{\'e}rey and O. Delalande and G. Grasseau and Marc Baaden}, editor = {F. Faure and M. Teschner} } @article {2008|1940, title = {HU binds and folds single-stranded DNA}, journal = {Nucl. Acids Res.}, volume = {36}, number = {3}, year = {2008}, pages = {1026{\textendash}1036}, author = {Dmitri Kamashev and Anna Balandina and Alexey K Mazur and Paola B. Arimondo and Josette Rouviere-Yaniv} } @article {2008|1710, title = {Identification of Protein Interaction Partners and Protein-Protein Interaction Sites}, journal = {J. Mol. Biol.}, volume = {382}, number = {5}, year = {2008}, pages = {1276{\textendash}1289}, doi = {10.1016/j.jmb.2008.08.002}, author = {S Sacquin-Mora and Carbone, A. and Richard Lavery} } @article {2008|1439, title = {Importance of accurate DNA structures in solution: the Jun-Fos model.}, journal = {J. Mol. Biol.}, volume = {382}, number = {(4)}, year = {2008}, pages = {956{\textendash}70}, author = {Heddi, B and Foloppe, N and Oguey, C and Hartmann, B} } @article {2008|1662, title = {Insights on protein-DNA recognition by coarse grain modelling}, journal = {J. Comput. Chem.}, volume = {29}, year = {2008}, month = {nov}, pages = {2582{\textendash}92}, abstract = {

Coarse grain modelling of macromolecules is a new approach, potentially well adapted to answer numerous issues, ranging from physics to biology. We propose here an original DNA coarse grain model specifically dedicated to protein-DNA docking, a crucial, but still largely unresolved, question in molecular biology. Using a representative set of protein-DNA complexes, we first show that our model is able to predict the interaction surface between the macromolecular partners taken in their bound form. In a second part, the impact of the DNA sequence and electrostatics, together with the DNA and protein conformations on docking is investigated. Our results strongly suggest that the overall DNA structure mainly contributes in discriminating the interaction site on cognate proteins. Direct electrostatic interactions between phosphate groups and amino acid side chains strengthen the binding. Overall, this work demonstrates that coarse grain modeling can reveal itself a precious auxiliary for a general and complete description and understanding of protein-DNA association mechanisms.

}, doi = {10.1002/jcc.21014}, author = {Poulain, P and A Saladin and Hartmann, B and Chantal Pr{\'e}vost} } @article {2008, title = {Interactions between neuronal fusion proteins explored by molecular dynamics}, journal = {Biophys. J.}, volume = {94}, number = {9}, year = {2008}, month = {may}, pages = {3436{\textendash}3446}, author = {Durrieu, Marie-Pierre and Lavery, Richard and Marc Baaden} } @article {2008|1840, title = {Ion dynamics and water percolation effects in DNA polymorphism}, journal = {J. Am. Chem. Soc.}, volume = {130}, number = {1}, year = {2008}, pages = {121{\textendash}131}, author = {Ivan Brovchenko and Aliaksei Krukau and Alla Oleinikova and Alexey K Mazur} } @article {2008|1515, title = {KNOTTIN: the knottin or inhibitor cystine knot scaffold in 2007}, journal = {Nucleic Acids Res.}, volume = {36}, number = {Sp. Iss. SI}, year = {2008}, month = {jan}, pages = {D314-D319}, keywords = {knottin}, author = {Gracy, Jerome and Le-Nguyen, Dung and Gelly, Jean-Christophe and Kaas, Quentin and Heitz, Annie and Chiche, Laurent} } @article {2008|1478, title = {MetaMol: High quality visualization of Molecular Skin Surface}, journal = {J. Mol. Graphics Modell.}, volume = {27}, number = {2}, year = {2008}, pages = {209{\textendash}213}, author = {Matthieu Chavent and B Levy and B Maigret} } @article {2008|1390, title = {Microseconds dynamics simulations of the outer-membrane protease T}, journal = {Biophys. J.}, volume = {94}, number = {1}, year = {2008}, month = {jan}, pages = {71{\textendash}78}, author = {Neri, Marilisa and Marc Baaden and Carnevale, Vincenzo and Anselmi, Claudio and Maritan, Amos and Carloni, Paolo} } @article {2008|1829, title = {Molecular modeling and simulation of conjugated polymer oligomers: ground and excited state chain dynamics of PPV in the gas phase}, journal = {J. Phys. Chem. B}, volume = {112}, number = {16}, year = {2008}, pages = {4983{\textendash}93}, author = {Sterpone, Fabio and Rossky, Peter J} } @article {2008|1480, title = {Multiple-step virtual screening using VSM-G: Overview and validation of fast geometrical matching enrichment}, journal = {J. Mol. Model.}, volume = {14}, number = {5}, year = {2008}, pages = {393{\textendash}401}, author = {A Beautrait and V Leroux and Matthieu Chavent and L Ghemtio and M.-D Devignes and M Smail-Tabbone and W Cai and X Shao and G Moreau and P Bladon and J Yao and B Maigret} } @article {2008|2012, title = {Nicotinic receptors, allosteric proteins and medicine}, journal = {Trends Mol. Med.}, volume = {14}, number = {3}, year = {2008}, month = {mar}, pages = {93{\textendash}102}, publisher = {Elsevier}, author = {Jean-Pierre Changeux and Antoine Taly} } @article {2008|1397, title = {Nonadiabatic vibrational dynamics and spectroscopy of peptides: A quantum-classical description}, journal = {Chem. Phys.}, volume = {347}, number = {1-3}, year = {2008}, month = {may}, pages = {208{\textendash}217}, author = {Kobus, Maja and Gorbunov, Roman D. and Phuong Hoang Nguyen and Stock, Gerhard} } @article {2008|1519, title = {Numerical methods for fluctuation driven interactions between dielectrics}, journal = {Phys. Rev. E}, volume = {77}, year = {2008}, pages = {016705}, author = {S. Pasquali and F. Nitti and A.C. Maggs} } @conference {2008|1545, title = {OPERA: An OPtimized coarsed-grained Energy model for RnA}, booktitle = {Publication Series of the John von Neumann Institute for Computing NIC Series}, volume = {40}, year = {2008}, pages = {185{\textendash}187}, author = {C. Colas and Phuong Hoang Nguyen and J-C. Gelly and Philippe Derreumaux} } @inbook {2008|1566, title = {Order-disorder transitions in ribosome assembly}, booktitle = {Ribosomal proteins,}, year = {2008}, publisher = {Nova publishers, Hauppauge NY}, organization = {Nova publishers, Hauppauge NY}, author = {Y Timsit and F Allemand and Chiaruttini C and M Springer}, editor = {Colombus} } @article {2008|1409, title = {Outer membrane proteins: comparing X-ray and NMR structures by MD simulations in lipid bilayers}, journal = {European Biophysics Journal with Biophysics Letters}, volume = {37}, number = {2}, year = {2008}, month = {feb}, pages = {131{\textendash}141}, author = {Cox, Katherine and Bond, Peter J. and Grottesi, Alessandro and Marc Baaden and Sansom, Mark S. P.} } @article {2008|1494, title = {Pressure-induced core packing and interfacial dehydration in nonionic C12E6 micelle in aqueous solution}, journal = {Langmuir}, volume = {24}, number = {12}, year = {2008}, pages = {6067{\textendash}71}, author = {Sterpone, Fabio and Briganti, G and Melchionna, S and Pierleoni, C} } @inbook {2008|1565, title = {Recombination and Meiosis : Models, Means and Evolution Coll. Genome Dynamics \& Stability}, booktitle = {Genome Dynamics \& Stability}, volume = {3}, year = {2008}, pages = {65{\textendash}84}, publisher = {Springer Verlag Berlin Heidleberg}, organization = {Springer Verlag Berlin Heidleberg}, chapter = {Searching for Homology by Filaments of RecA-like Proteins}, author = {Chantal Pr{\'e}vost}, editor = {Richard Egel and Dirk-Henner Lankenau} } @article {2008|1804, title = {Role of the region 23-28 in A beta fibril formation: Insights from simulations of the monomers and dimers of Alzheimer{\textquoteright}s peptides A beta 40 and A beta 42}, journal = {Curr. Alzheimer Res.}, volume = {5}, number = {3}, year = {2008}, month = {jun}, pages = {244{\textendash}250}, doi = {10.2174/156720508784533330}, author = {Melquiond, Adrien and Dong, Xiao and Mousseau, Normand and Philippe Derreumaux} } @inbook {2008|1651, title = {Searching for Homology by Filaments of RecA-like Proteins}, booktitle = {Genome Dynamics \& Stability}, volume = {Recombination and Meiosis. Models, Means and Evolution}, number = {3}, year = {2008}, pages = {65{\textendash}89}, publisher = {Springer Verlag}, organization = {Springer Verlag}, edition = {Richard Egel and Dirk-Henner Lankenau}, address = {Berlin Heidelberg}, abstract = {

The recombinase proteins of the RecA family perform tasks that are essential for cell survival and for the maintenance of genetic diversity. They are able to rearrange genes in new combinations and to repair DNA double-strand breaks in an almost error-free fashion. Their function in homologous recombination is performed in an original way that has no equivalent in the DNA processing machinery: They form long helical filaments on a target DNA, capable of recognizing homologous DNA sequences in the genome and of exchanging DNA strands. How the DNA sequences are recognized during this process and how the DNA strands are exchanged remain matters of investigation. This chapter reviews the information that has been accumulated on recognition and strand exchange, together with the models that aim at organizing this data, viewed at different levels: that of the nucleus, the molecule, or the atom. Altogether, a picture begins to emerge on a multiscale dimension, which presents the search for homology as a complex process with important dynamic components.

}, author = {Chantal Pr{\'e}vost}, editor = {Richard Egel and Dirk Henner-Lankenau} } @article {2008|1812, title = {Self-assembly of amyloid-forming peptides by molecular dynamics simulations}, journal = {Front. Biosci.}, volume = {13}, year = {2008}, month = {may}, pages = {5681{\textendash}5692}, author = {Wei, Guanghong and Song, Wei and Philippe Derreumaux and Mousseau, Normand} } @article {2008|1915, title = {Self-assembly of the beta 2-microglobulin NHVTLSQ peptide using a coarse-grained protein model reveals beta-barrel species}, journal = {J. Phys. Chem. B}, volume = {112}, number = {14}, year = {2008}, month = {apr}, pages = {4410{\textendash}4418}, doi = {10.1021/jp710592v}, author = {Song, Wei and Wei, Guanghong and Mousseau, Normand and Philippe Derreumaux} } @conference {2008|1543, title = {Simulating the early steps of amyloid fibril formation and disassembly}, booktitle = {Publication Series of the John von Neumann Institute for Computing NIC Series}, volume = {40}, year = {2008}, pages = {7{\textendash}12}, author = {Philippe Derreumaux} } @article {2008|1862, title = {Statistics of time-limited ensembles of bent DNA conformations}, journal = {J. Phys. Chem. B}, volume = {112}, number = {16}, year = {2008}, pages = {4975{\textendash}4982}, author = {Alexey K Mazur} } @article {2008|1484, title = {Structural Flexibility of a Helical Peptide Regulates Vibrational Energy Transport Properties}, journal = {J. Phys. Chem. B}, volume = {112}, number = {48}, year = {2008}, month = {dec}, pages = {15487{\textendash}15492}, author = {Backus, Ellen H. G. and Phuong Hoang Nguyen and Botan, Virgiliu and Moretto, Alessandro and Crisma, Marco and Toniolo, Claudio and Zerbe, Oliver and Stock, Gerhard and Hamm, Peter} } @article {2008|1866, title = {United-Atom Acyl Chains for {CHARMM} Phospholipids}, journal = {J. Phys. Chem. B.}, volume = {112}, number = {23}, year = {2008}, pages = {7008{\textendash}7015}, publisher = {Center for Molecular Modeling, Department of Chemistry, University of Pennsylvania, 231 S. 34th Street, Philadelphia, Pennsylvania 19104-6323, and Research Institute for Computational Sciences, National Institute of Advanced Industrial Science and Technol}, abstract = {In all-atom simulations of lipid membranes, explicit hydrogen atoms contained in the hydrocarbon region are described by a large number of degrees of freedom, although they convey only limited physical information. We propose an implicit-hydrogen model for saturated and monounsaturated acyl chains, aimed at complementing the all-atom CHARMM27 model for phospholipid headgroups. Torsional potentials and nonbonded parameters were fitted to reproduce experimental data and free energy surfaces of all-atom model systems. Comparative simulations of fluid-phase POPC bilayers were performed using the all-hydrogen force field and the present model. The hybrid model accelerates a typical bilayer simulation by about 50\% while sacrificing a minimal amount of detail with respect to the fully atomistic description. In addition, the united-atom description is energetically compatible with all-atom CHARMM models, making it suitable for simulations of complex membrane systems.}, doi = {10.1021/jp800687p}, author = {J{\'e}r{\^o}me H{\'e}nin and Wataru Shinoda and Michael L Klein} } @conference {2008|1552, title = {User Needs Analysis to Design a 3D Multimodal Protein-Docking Interface}, booktitle = {Symposium on 3D User Interfaces 2008 (3DUI 2008 - IEEE)}, year = {2008}, month = {mar}, pages = {125{\textendash}132}, publisher = {Reno - USA}, organization = {Reno - USA}, author = {Nicolas F{\'e}rey and G. Bouyer and C. Martin and P. Bourdot and J. Nelson and and J.M. Burkhardt} } @conference {2008|1553, title = {A VR Framework for Interacting with Molecular Simulations}, booktitle = {Symposium on Virtual Reality Software and Technology (ACM-VRST 2008)}, year = {2008}, month = {oct}, pages = {91{\textendash}94}, address = {Bordeaux - France}, author = {Nicolas F{\'e}rey and O. Delalande and G. Grasseau and Marc Baaden} } @article {2008|1678, title = {Water-water hydrogen bond studied by QMC}, journal = {J. Chem. Theory. Comput.}, volume = {4}, year = {2008}, pages = {1428{\textendash}1432}, author = {Fabio Sterpone and L. Spanu and L. Ferraro and S. Sorella and L. Guidoni} } @conference {2007|1517, title = {Atomistic modeling of the membrane-embedded synaptic fusion complex: a grand challenge project on the DEISA HPC infrastructure}, booktitle = {ParCo 2007, Parallel Computing: Architectures, Algorithms and Applications}, volume = {38}, year = {2007}, pages = {729{\textendash}736}, publisher = {John von Neumann Institute for Computing, Juelich, Germany.}, organization = {John von Neumann Institute for Computing, Juelich, Germany.}, url = {http://www.booksonline.iospress.nl/Content/View.aspx?piid=8468}, author = {E. Krieger and L. Leger and M.P. Durrieu and N. Taib and P. Bond and M. Laguerre and R. Lavery and M.S.P. Sansom and Marc Baaden}, editor = {C.B.G.R. Joubert and F. Peters and T. Lippert and M. Buecker and B. Gibbon and and B. Mohr} } @article {2007|1985, title = {A coarse-grained protein force field for folding and structure prediction}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {69}, number = {2}, year = {2007}, month = {nov}, pages = {394{\textendash}408}, doi = {10.1002/prot.21505}, author = {Maupetit, Julien and Pierre Tuffery and Philippe Derreumaux} } @article {2007|1882, title = {Coarse-grained protein molecular dynamics simulations}, journal = {J. Chem. Phys.}, volume = {126}, number = {2}, year = {2007}, month = {jan}, pages = {025101}, doi = {10.1063/1.2408414}, author = {Philippe Derreumaux and Mousseau, Normand} } @article {2007|2013, title = {Computational Simulations of the Early Steps of Protein Aggregation}, journal = {Prion}, volume = {1}, number = {1}, year = {2007}, month = {jan}, pages = {3{\textendash}8}, author = {Wei, Guanghong and Mousseau, Normand and Philippe Derreumaux} } @article {2007|1542, title = {Conformational states and folding pathways of peptides revealed by principal-independent component analyses}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {67}, number = {3}, year = {2007}, month = {may}, pages = {579{\textendash}592}, author = {Phuong Hoang Nguyen} } @article {2007|1776, title = {The conserved glycine/alanine residue of the active-site loop containing the putative acetylCoA-binding motif is essential for the overall structural integrity of Mesorhizobium loti arylamine N-acetyltransferase 1}, journal = {Biochem. Biophys. Res. Commun.}, volume = {361}, number = {1}, year = {2007}, month = {sep}, pages = {256{\textendash}262}, doi = {10.1016/j.bbrc.2007.07.034}, author = {Atmane, Noureddine and Dairou, Julien and Flatters, Delphine and Martins, Marta and Pluvinage, Benjamin and Philippe Derreumaux and Dupret, Jean-Marie and Rodrigues-Lima, Fernando} } @article {2007|2001, title = {{D}ocking of alpha-cobratoxin suggests a basal conformation of the nicotinic receptor}, journal = {Biochem. Biophys. Res. Commun.}, volume = {359}, number = {3}, year = {2007}, month = {aug}, pages = {413{\textendash}418}, publisher = {Academic Press}, author = {Konstantakaki, M. and Jean-Pierre Changeux and Antoine Taly} } @article {2007, title = {Dihedral angle principal component analysis of molecular dynamics simulations}, journal = {J. Chem. Phys.}, volume = {126}, number = {24}, year = {2007}, month = {jun}, author = {Altis, Alexandros and Phuong Hoang Nguyen and Hegger, Rainer and Stock, Gerhard} } @article {2007|1534, title = {Energy transport in peptide helices}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {104}, number = {31}, year = {2007}, month = {jul}, pages = {12749{\textendash}12754}, author = {Botan, Virgiliu and Backus, Ellen H. G. and Pfister, Rolf and Moretto, Alessandro and Crisma, Marco and Toniolo, Claudio and Phuong Hoang Nguyen and Stock, Gerhard and Hamm, Peter} } @inbook {2007|1774, title = {{F}lexible macromolecular docking: {A}n overview of recent progress}, volume = {Recent Research Adv. in Structural BioInformatics}, year = {2007}, pages = {249{\textendash}274}, publisher = {Research Signpost}, organization = {Research Signpost}, chapter = {10}, author = {K. Bastard and Chantal Pr{\'e}vost}, editor = {A. G. De Brevern} } @article {2007|1522, title = {How complex is the dynamics of peptide folding?}, journal = {Phys. Rev. Lett.}, volume = {98}, number = {2}, year = {2007}, month = {jan}, author = {Hegger, Rainer and Altis, Alexandros and Phuong Hoang Nguyen and Stock, Gerhard} } @article {2007|1828, title = {How protein surfaces induce anomalous dynamics of hydration water}, journal = {J. Phys. Chem. B}, volume = {111}, number = {26}, year = {2007}, pages = {7584{\textendash}90}, abstract = {Water around biomolecules slows down with respect to pure water, and both rotation and translation exhibit anomalous time dependence in the hydration shell. The origin of such behavior remains elusive. We use molecular dynamics simulations of water dynamics around several designed protein models to establish the connection between the appearance of the anomalous dynamics and water-protein interactions. For the first time we quantify the separate effect of protein topological and energetic disorder on the hydration water dynamics. When a static protein structure is simulated, we show that both types of disorder contribute to slow down water diffusion, and that allowing for protein motion, increasing the spatial dimensionality of the interface, reduces the anomalous character of hydration water. The rotation of water is, instead, altered by the energetic disorder only; indeed, when electrostatic interactions between the protein and water are switched off, water reorients even faster than in the bulk. The dynamics of water is also related to the collective structure{\textendash}{\`a} voir the hydrogen bond (H-bond) network{\textendash}formed by the solvent enclosing the protein surface. We show that, as expected for a full hydrated protein, when the protein surface offers pinning sites (charged or polar sites), the superficial water-water H-bond network percolates throughout the whole surface, hindering the water diffusion, whereas it does not when the protein surface lacks electrostatic interactions with water and the water diffusion is enhanced.}, author = {Pizzitutti, Francesco and Marchi, Massimo and Sterpone, Fabio and Rossky, Peter J} } @article {2007|1984, title = {Locating the active sites of enzymes using mechanical properties}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {67}, number = {2}, year = {2007}, month = {may}, pages = {350{\textendash}359}, doi = {10.1002/prot.21353}, author = {S Sacquin-Mora and Laforet, Emilie and Lavery, Richard} } @article {2007|1535, title = {Monomer adds to preformed structured oligomers of A beta-peptides by a two-stage dock-lock mechanism}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {104}, number = {1}, year = {2007}, month = {jan}, pages = {111{\textendash}116}, author = {Phuong Hoang Nguyen and Li, Mai Suan and Stock, Gerhard and Straub, John E. and Thirumalai, D.} } @article {2007|2006, title = {{O}pened by a twist: a gating mechanism for the nicotinic acetylcholine receptor}, journal = {Eur. Biophys. J.}, volume = {36}, number = {8}, year = {2007}, month = {nov}, pages = {911{\textendash}918}, publisher = {Springer-Verlag}, author = {Antoine Taly} } @article {2007|1954, title = {{P}robing amyloid fibril formation of the {N}{F}{G}{A}{I}{L} peptide by computer simulations}, journal = {J. Chem. Phys.}, volume = {126}, number = {6}, year = {2007}, month = {feb}, pages = {065101}, doi = {10.1063/1.2435358}, author = {Melquiond, A. and Gelly, J.C. and Mousseau, N. and Philippe Derreumaux} } @article {2007|1588, title = {Probing the flexibility of the bacterial reaction center: The wild-type protein is more rigid than two site-specific mutants}, journal = {Biochemistry}, volume = {46}, number = {51}, year = {2007}, month = {dec}, pages = {14960{\textendash}14968}, doi = {10.1021/bi7004416}, author = {S Sacquin-Mora and Sebban, P. and Derrien, V. and Frick, B. and Richard Lavery and Alba-Simionesco, C.} } @article {2007|1728, title = {{A} prokaryotic proton-gated ion channel from the nicotinic acetylcholine receptor family}, journal = {Nature}, volume = {445}, number = {7123}, year = {2007}, month = {jan}, pages = {116{\textendash}119}, author = {Bocquet, N. and Prado de Carvalho, L. and Cartaud, J. and Neyton, J. and Le Poupon, C. and Antoine Taly and Grutter, T. and Jean-Pierre Changeux and Corringer, P. J.} } @article {2007|1868, title = {Protein mechanics: a route from structure to function}, journal = {Journal of Biosciences}, volume = {32}, number = {5, Sp. Iss. SI}, year = {2007}, month = {aug}, pages = {891{\textendash}898}, doi = {10.1007/s12038-007-0089-x}, author = {Lavery, Richard and S Sacquin-Mora} } @article {2007|1467, title = {Quantum-classical description of the amide I vibrational spectrum of trialanine}, journal = {J. Chem. Phys.}, volume = {126}, number = {5}, year = {2007}, month = {feb}, author = {Gorbunov, Roman D. and Phuong Hoang Nguyen and Kobus, Maja and Stock, Gerhard} } @inbook {2007|1563, title = {Recent Research Adv. in Structural BioInformatics}, year = {2007}, pages = {249{\textendash}274}, publisher = {Research signpost, Trivandrum, India}, organization = {Research signpost, Trivandrum, India}, chapter = {Flexible macromolecular docking: An overview of recent progress}, author = {K. Bastard and Chantal Pr{\'e}vost}, editor = {A.G. de Brevern} } @conference {2007|1491, title = {REVIVOS: REalit{\'e} VIrtuelle pour la construction de VOcabulaires Sp{\'e}cialis{\'e}s}, booktitle = {Journ{\'e}es Francophones d{\textquoteright}Ing{\'e}nierie des Connaissances (AFIA-IC 2007)}, year = {2007}, month = {jul}, address = {Grenoble - France}, author = {Nicolas F{\'e}rey and Claire Toffano-Nioche and Oriane Matte-Taillez and Rachid Gherbi and William Turner} } @article {2007|1881, title = {Sampling small-scale and large-scale conformational changes in proteins and molecular complexes}, journal = {J. Chem. Phys.}, volume = {126}, number = {10}, year = {2007}, month = {mar}, pages = {105101}, doi = {10.1063/1.2710270}, author = {Yun, Mi-Ran and Mousseau, N. and Philippe Derreumaux} } @article {2007|1616, title = {Structural and hydration properties of the partially unfolded states of the prion protein}, journal = {Biophys. J.}, volume = {93}, number = {4}, year = {2007}, month = {aug}, pages = {1284{\textendash}1292}, doi = {10.1529/biophysj.107.108613}, author = {De Simone, Alfonso and Zagari, Adriana and Philippe Derreumaux} } @article {2007|1617, title = {Structure and aggregation mechanism of beta 2-microglobulin (83-99) peptides studied by molecular dynamics Simulations}, journal = {Biophys. J.}, volume = {93}, number = {10}, year = {2007}, month = {nov}, pages = {3353{\textendash}3362}, doi = {10.1529/biophysj.107.105585}, author = {Liang, Chungwen and Philippe Derreumaux and Wei, Guanghong} } @article {2007|1489, title = {Structure and dynamics of the homologous series of alanine peptides: A joint molecular dynamics/NMR study}, journal = {J. Am. Chem. Soc.}, volume = {129}, number = {5}, year = {2007}, month = {feb}, pages = {1179{\textendash}1189}, author = {Graf, Juergen and Phuong Hoang Nguyen and Stock, Gerhard and Schwalbe, Harald} } @article {2007|1547, title = {{T}he 1.3 {A} resolution structure of the {R}{N}{A} tridecamer r({G}{C}{G}{U}{U}{U}{G}{A}{A}{A}{C}{G}{C}): metal ion binding correlates with base unstacking and groove contraction}, journal = {Rna}, volume = {13}, year = {2007}, month = {dec}, pages = {2098{\textendash}2107}, author = {Y Timsit and Bombard, S.} } @inbook {2007|1564, title = {There{\textquoteright}s plenty of room in the middle: multi-scale modelling of biological systems}, year = {2007}, pages = {173{\textendash}195}, publisher = {Research signpost, India}, organization = {Research signpost, India}, chapter = {Recent Advances in Protein engineering}, address = {Trivandrum, Kerala, India}, author = {Marc Baaden and R. Lavery}, editor = {A.G. de Brevern} } @article {2007|1477, title = {Three hydrolases and a transferase: Comparative analysis of active-site dynamics via the BioSimGrid database}, journal = {Journal of Molecular Graphics \& Modelling}, volume = {25}, number = {6}, year = {2007}, month = {mar}, pages = {896{\textendash}902}, author = {Tai, Kaihsu and Marc Baaden and Murdock, Stuart and Wu, Bing and Ng, Muan Hong and Johnston, Steven and Boardman, Richard and Fangohr, Hans and Cox, Katherine and Essex, Jonathan W. and Sansom, Mark S. P.} } @article {2007|1861, title = {Water clustering and percolation in low hydration DNA shells}, journal = {J. Phys. Chem. B}, volume = {111}, number = {12}, year = {2007}, pages = {3258{\textendash}3266}, author = {Ivan Brovchenko and Aliaksei Krukau and Alla Oleinikova and Alexey K Mazur} } @article {2007|1949, title = {Wormlike chain theory and bending of short DNA}, journal = {Phys. Rev. Lett.}, volume = {98}, number = {21}, year = {2007}, pages = {218102}, author = {Alexey K Mazur} } @article {2006|1536, title = {Accounting for loop flexibility during protein-protein docking}, journal = {Proteins}, volume = {62}, number = {4}, year = {2006}, month = {mar}, pages = {956{\textendash}969}, author = {Bastard, K and Chantal Pr{\'e}vost and Martin Zacharias} } @article {2006|1981, title = {Aggregating the amyloid A beta(11-25) peptide into a four-stranded beta-sheet structure}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {65}, number = {4}, year = {2006}, month = {dec}, pages = {877{\textendash}888}, doi = {10.1002/prot.21134}, author = {Boucher, Genevive and Mousseau, Normand and Philippe Derreumaux} } @article {2006|1983, title = {ARTIST: An activated method in internal coordinate space for sampling protein energy landscapes}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {63}, number = {4}, year = {2006}, month = {jun}, pages = {967{\textendash}975}, doi = {10.1002/prot.20938}, author = {Yun, MR and Lavery, R and Mousseau, N and Zakrzewska, K and Philippe Derreumaux} } @article {2006|1407, title = {{C}oexistence of two protein folding states in the crystal structure of ribosomal protein {L}20}, journal = {Embo Rep.}, volume = {7}, year = {2006}, month = {oct}, pages = {1013{\textendash}1018}, author = {Y Timsit and Allemand, F. and Chiaruttini, C. and Springer, M.} } @article {2006|1843, title = {Comparison of different torsion angle approaches for NMR structure determination}, journal = {J. Biol. Nmr}, volume = {34}, number = {3}, year = {2006}, pages = {153{\textendash}166}, author = {B. Bardiaux and T. E. Malliavin and M. Nilges and Alexey K Mazur} } @article {2006|1541, title = {Complexity of free energy landscapes of peptides revealed by nonlinear principal component analysis}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {65}, number = {4}, year = {2006}, month = {dec}, pages = {898{\textendash}913}, author = {Phuong Hoang Nguyen} } @article {2006|1860, title = {Conformational equilibrium in alanine-rich peptides probed by reversible stretching simulations}, journal = {J. Phys. Chem. B}, volume = {110}, number = {33}, year = {2006}, pages = {16718{\textendash}16723}, doi = {10.1021/jp0601116}, author = {J{\'e}r{\^o}me H{\'e}nin and Schulten, K. and Christophe Chipot} } @article {2006|1880, title = {The conformations of the amyloid-beta (21-30) fragment can be described by three families in solution}, journal = {J. Chem. Phys.}, volume = {125}, number = {8}, year = {2006}, month = {aug}, pages = {084911}, doi = {10.1063/1.2337628}, author = {Chen, Wei and Mousseau, Normand and Philippe Derreumaux} } @article {2006|1388, title = {Evaluation of elastic properties of atomistic DNA models}, journal = {Biophys. J.}, volume = {91}, number = {12}, year = {2006}, pages = {4507{\textendash}4518}, author = {Alexey K Mazur} } @mastersthesis {2006|1562, title = {Exploration Immersive de Donn{\'e}es G{\'e}nomiques Textuelles et Factuelles : vers une approche par Visual Mining}, year = {2006}, school = {Universit{\'e} de Paris Sud XI - Orsay}, type = {phd}, author = {Nicolas F{\'e}rey} } @article {2006|1935, title = {HDAC1 acetylation is linked to progressive modulation of steroid receptor-induced gene transcription.}, journal = {Mol. Cell}, volume = {22}, number = {5}, year = {2006}, month = {jun}, pages = {669{\textendash}679}, publisher = {Laboratory of Receptor Biology and Gene Expression, National Cancer Institute, National Institutes of Health, Building 41, B602, Bethesda, Maryland 20892, USA.}, abstract = {Although histone deacetylases (HDACs) are generally viewed as corepressors, we show that HDAC1 serves as a coactivator for the glucocorticoid receptor (GR). Furthermore, a subfraction of cellular HDAC1 is acetylated after association with the GR, and this acetylation event correlates with a decrease in promoter activity. HDAC1 in repressed chromatin is highly acetylated, while the deacetylase found on transcriptionally active chromatin manifests a low level of acetylation. Acetylation of purified HDAC1 inactivates its deacetylase activity, and mutation of the critical acetylation sites abrogates HDAC1 function in vivo. We propose that hormone activation of the receptor leads to progressive acetylation of HDAC1 in vivo, which in turn inhibits the deacetylase activity of the enzyme and prevents a deacetylation event that is required for promoter activation. These findings indicate that HDAC1 is required for the induction of some genes by the GR, and this activator function is dynamically modulated by acetylation.}, keywords = {Acetylation, Amino Acid Sequence, Animals, Binding Sites, Cell Cycle Proteins, Chromatin, Down-Regulation, genetics/metabolism, Hela Cells, Histone Acetyltransferases, Histone Deacetylases, Humans, immunology/metabolism, metabolism}, doi = {10.1016/j.molcel.2006.04.019}, author = {Yi Qiu and Yingming Zhao and Matthias Becker and Sam John and Bhavin S Parekh and Suming Huang and Anindya Hendarwanto and Elisabeth D Martinez and Yue Chen and Hanxin Lu and Nicholas L Adkins and Diana A Stavreva and Malgorzata Wiench and Philippe T Geor} } @article {2006|1943, title = {Hfq variant with altered RNA binding functions}, journal = {Nucleic Acids Res.}, volume = {34}, number = {2}, year = {2006}, pages = {709{\textendash}720}, doi = {10.1093/nar/gkj464}, author = {Ziolkowska, K and Philippe Derreumaux and Folichon, M and Pellegrini, O and Regnier, P and Boni, IV and Hajnsdorf, E} } @article {2006|1794, title = {Hydrogen-bonding patterns of cholesterol in lipid membranes}, journal = {Chem. Phys. Lett.}, volume = {425}, year = {2006}, pages = {329{\textendash}335}, abstract = {Correlation between the rotation of the cholesterol hydroxyl group and the formation of hydrogen bonds with its lipid environment is examined through molecular dynamics (MD) simulations and compared with recently reported NMR experiments. All atom MD simulations of a fully hydrated 1:2 cholesterol-dimyristoylphosphatidylcholine bilayer have been performed. Precise reproduction of the cholesterol cell parameters via simulation of its P1-group crystal validates the force field utilized. The lipid-cholesterol hydrogen-bonding pattern reflects the coexistence of alternative dimer motifs with comparable conformer populations, in line with the estimated free energy differences for the rotamers of the cholesterol CO bond.}, url = {http://www.sciencedirect.com/science/article/B6TFN-4JYTJ8F-1/2/20363e602ea4fdd317abf97ba8e91987}, author = {J{\'e}r{\^o}me H{\'e}nin and Christophe Chipot} } @article {2006|2008, title = {{I}dentification of two critical residues within the {C}ys-loop sequence that determine fast-gating kinetics in a pentameric ligand-gated ion channel}, journal = {J. Mol. Neurosci.}, volume = {30}, number = {1-2}, year = {2006}, pages = {63{\textendash}64}, publisher = {Springer}, author = {Grutter, T. and de Carvalho, L. P. and Dufresne, V. and Antoine Taly and Jean-Pierre Changeux} } @article {2006|1754, title = {{I}mplications of the quaternary twist allosteric model for the physiology and pathology of nicotinic acetylcholine receptors}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {103}, number = {45}, year = {2006}, month = {nov}, pages = {16965{\textendash}16970}, author = {Antoine Taly and Corringer, P. J. and Grutter, T. and Prado de Carvalho, L. and Karplus, M. and Jean-Pierre Changeux} } @article {2006|1497, title = {An Immersive Visualization and Interaction Paradigm for Genomic Databases Exploration}, journal = {Mediterranean Journal of Computers and Networks}, volume = {2}, number = {3}, year = {2006}, month = {jul}, pages = {118{\textendash}124}, author = {Nicolas F{\'e}rey and P.-E. Gros and R. Gherbi} } @article {2006|1618, title = {Impact of the mutation A21G (Flemish variant) on Alzheimer{\textquoteright}s beta-amyloid dimers by molecular dynamics simulations}, journal = {Biophys. J.}, volume = {91}, number = {10}, year = {2006}, month = {nov}, pages = {3829{\textendash}3840}, doi = {10.1526/biophysj.106.090993}, author = {Huet, Alexis and Philippe Derreumaux} } @article {2006|1757, title = {Implications of the quaternary twist allosteric model for the physiology and pathology of nicotinic acetylcholine receptors}, journal = {Proceedings of the National Academy of Sciences}, volume = {103}, number = {45}, year = {2006}, pages = {16965{\textendash}16970}, publisher = {National Acad Sciences}, author = {Antoine Taly and Corringer, Pierre-Jean and Grutter, Thomas and De Carvalho, Lia Prado and Karplus, Martin and Jean-Pierre Changeux} } @article {2006|1466, title = {Improved Wang-Landau sampling through the use of smoothed potential-energy surfaces}, journal = {J. Chem. Phys.}, volume = {124}, number = {15}, year = {2006}, month = {apr}, author = {Phuong Hoang Nguyen and Mittag, E and Torda, AE and Stock, G} } @article {2006|1619, title = {Investigating the local flexibility of functional residues in hemoproteins}, journal = {Biophys. J.}, volume = {90}, number = {8}, year = {2006}, pages = {2706{\textendash}2717}, doi = {10.1529/biophysj.105.074997}, author = {S Sacquin-Mora and Richard Lavery} } @article {2006|1450, title = {Mapping a Homopolymer onto a Model Fluid}, journal = {J. Chem. Phys.}, volume = {125}, year = {2006}, pages = {064906}, author = {S. Pasquali and J.K. Percus} } @article {2006|1441, title = {Molecular modeling and simulation of water near model micelles: diffusion, rotational relaxation and structure at the hydration interface}, journal = {J. Phys. Chem. B}, volume = {110}, number = {23}, year = {2006}, pages = {11504{\textendash}10}, author = {Sterpone, Fabio and Marchetti, Gino and Pierleoni, Carlo and Marchi, Massimo} } @article {2006|1396, title = {Nonequilibrium molecular dynamics simulation of a photoswitchable peptide}, journal = {Chem. Phys.}, volume = {323}, number = {1}, year = {2006}, month = {mar}, pages = {36{\textendash}44}, author = {Phuong Hoang Nguyen and Stock, G} } @article {2006|1810, title = {Normal mode analysis as a prerequisite for drug design: Application to matrix metalloproteinases inhibitors}, journal = {Febs Lett.}, volume = {580}, number = {22}, year = {2006}, month = {oct}, pages = {5130{\textendash}5136}, abstract = {We demonstrate the utility of normal mode analysis in correctly predicting the binding modes of inhibitors in the active sites of matrix metalloproteinases (MMPs). We show the accuracy in predicting the positions of MMP-3 inhibitors is strongly dependent on which structure is used as the target, especially when it has been energy minimized. This dependency can be overcome by using intermediate structures generated along one of the normal modes previously calculated for a given target. These results may be of prime importance for further in silico drug discovery.}, doi = {10.1016/j.febslet.2006.08.037}, author = {Nicolas Floquet and Jean-Didier Mar{\'e}chal and Marie-Ange Badet-Denisot and Charles H Robert and Manuel Dauchez and David Perahia} } @article {2006|1658, title = {Odorant Binding and Conformational Dynamics in the Odorant-binding Protein}, journal = {J. Biol. Chem.}, volume = {281}, number = {40}, year = {2006}, month = {oct}, pages = {29929{\textendash}29937}, abstract = {In mammals, the olfactory epithelium secretes odorant-binding proteins (OBPs), which are lipocalins found freely dissolved in the mucus layer protecting the olfactory neurons. OBPs may act as passive transporters of predominantly hydrophobic odorant molecules across the aqueous mucus layer, or they may play a more active role in which the olfactory neuronal receptor recognizes the OBP-ligand complex. To better understand the molecular events accompanying the initial steps in the olfaction process, we have performed molecular dynamics studies of rat and pig OBPs with the odorant molecule thymol. These calculations provide an atomic level description of conformational changes and pathway intermediates that remain difficult to study directly. A series of eight independent molecular dynamics trajectories of rat OBP permitted the observation of a consensus pathway for ligand unbinding and the calculation of the potential of mean force (PMF) along this path. Titration microcalorimetry confirmed the specific binding of thymol to this protein with a strong hydrophobic component. In both rat and pig OBPs we observed lipocalin strand pair opening in the presence of ligand, consistent with potential roles of these proteins in olfactive receptor recognition.}, doi = {10.1074/jbc.M604869200}, author = {Eric Hajjar and David Perahia and Helene D{\'e}bat and Claude Nespoulous and Charles H. Robert} } @article {2006|1389, title = {Photoinduced conformational dynamics of a photoswitchable peptide: A nonequilibrium molecular dynamics simulation study}, journal = {Biophys. J.}, volume = {91}, number = {4}, year = {2006}, month = {aug}, pages = {1224{\textendash}1234}, author = {Phuong Hoang Nguyen and Gorbunov, Roman D. and Stock, Gerhard} } @conference {2006, title = {PHYS 4-Applications of activated methods to proteins and materials science}, booktitle = {Abstracts of Papers of the American Chemical Society}, volume = {232}, year = {2006}, author = {Mousseau, Normand and Barkema, Gerard T. and Chubynsky, Mykyta V. and Philippe Derreumaux and El-Mellouhi, Fedwa and Vocks, Henk} } @article {2006|1604, title = {Probing a model of a {GPCR}/ligand complex in an explicit membrane environment: The human cholecystokinin-1 receptor}, journal = {Biophys. J.}, volume = {90}, number = {4}, year = {2006}, pages = {1232{\textendash}1240}, abstract = {A three-dimensional model structure of a complex formed by a G-protein-coupled receptor (GPCR) and an agonist ligand is probed and refined using molecular-dynamics simulations and free energy calculations in a realistic environment. The model of the human receptor of cholecystokinin associated to agonist ligand CCK9 was obtained from a synergistic procedure combining site-directed mutagenesis experiments and in silico modeling. The 31-ns molecular-dynamics simulation in an explicit membrane environment indicates that both the structure of the receptor and its interactions with the ligand are robust. Whereas the secondary structure of the {alpha}-helix bundle is well preserved, the region of the intracellular loops exhibits a significant flexibility likely to be ascribed to the absence of G-protein subunits in the model. New insight into the structural features of the binding pocket is gained, in particular, the interplay of the ligand with both the receptor and internal water molecules. Water-mediated interactions are shown to participate in the binding, hence, suggesting additional site-directed mutagenesis experiments. Accurate free energy calculations on mutated ligands provide differences in the receptor-ligand binding affinity, thus offering a direct, quantitative comparison to experiment. We propose that this detailed consistency-checking procedure be used as a routine refinement step of in vacuo GPCR models, before further investigation and application to structure-based drug design.}, url = {http://www.biophysj.org/cgi/content/abstract/90/4/1232}, author = {J{\'e}r{\^o}me H{\'e}nin and Maigret, B. and Mounir Tarek and Escrieut, C. and Fourmy, D. and Christophe Chipot} } @article {2006|1514, title = {Protein Peeling 2: a web server to convert protein structures into series of protein units}, journal = {Nucleic Acids Res.}, volume = {34}, number = {Sp. Iss. SI}, year = {2006}, month = {jul}, pages = {W75-W78}, author = {Gelly, J. -C. and Etchebest, C. and Hazout, S. and de Brevern, A. G.} } @article {2006|1386, title = {{\textquoteleft}Protein Peeling{\textquoteright}: an approach for splitting a 3D protein structure into compact fragments}, journal = {Bioinformatics}, volume = {22}, number = {2}, year = {2006}, pages = {129{\textendash}133}, author = {Gelly, JC and de Brevern, AG and Hazout, S} } @article {2006|1842, title = {Structural changes of region 1-16 of the Alzheimer disease amyloid beta-peptide upon zinc binding and in vitro aging}, journal = {J. Biol. Chem.}, volume = {281}, number = {4}, year = {2006}, pages = {2151{\textendash}2161}, author = {Severine Zirah and Sergey A. Kozin and Alexey K Mazur and Alain Blond and Michel Cheminant and Isabelle Segalas-Milazzo and Pascale Debey and Sylvie Rebuffat} } @article {2006|1827, title = {Structure and dynamics of hydrogen bonds in the interface of a C12E6 spherical micelle in water solution: a MD study at various temperatures}, journal = {J. Phys. Chem. B}, volume = {110}, number = {37}, year = {2006}, pages = {18254{\textendash}61}, author = {Sterpone, Fabio and Pierleoni, Carlo and Briganti, Giuseppe and Marchi, Massimo} } @article {2006|1982, title = {Structures of soluble amyloid oligomers from computer simulations}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {65}, number = {1}, year = {2006}, month = {oct}, pages = {180{\textendash}191}, doi = {10.1002/prot.21100}, author = {Melquiond, Adrien and Mousseau, Normand and Philippe Derreumaux} } @conference {2006|1424, title = {Visual Mining for Microarray Knowledge Discovery}, booktitle = {International Conference on Information \& Communication Technologies: from Theory to Applications (ICTTA 2006 - IEEE)}, year = {2006}, month = {apr}, address = {Damascus - Syria}, author = {Nicolas F{\'e}rey and R. Gherbi} } @article {2006|1948, title = {Water percolation governs polymorphic transitions and conductivity of DNA}, journal = {Phys. Rev. Lett.}, volume = {97}, number = {13}, year = {2006}, pages = {137801}, author = {Ivan Brovchenko and Aliaksei Krukau and Alla Oleinikova and Alexey K Mazur} } @conference {2006|1421, title = {Yeast Naked DNA Spatial Organization Predisposes to Transcriptional Regulation}, booktitle = {International Conference on Computational Science and its Applications (ICCSA 2006)}, volume = {3984}, year = {2006}, month = {may}, pages = {222{\textendash}231}, address = {Glasgow, United Kingdom}, author = {O. Matte-Tailliez and J .H{\'e}risson and Nicolas F{\'e}rey and O. Magneau and P.-E. Gros and F. K{\'e}p{\`e}s and R. Gherbi} } @article {2005|1980, title = {The beta alpha beta alpha beta alpha elementary Supersecondary structure of the Rossmann fold from porcine lactate dehydrogenase exhibits characteristics of a molten globule}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {60}, number = {4}, year = {2005}, month = {sep}, pages = {740{\textendash}745}, doi = {10.1002/prot.20507}, author = {Coincon, M and Heitz, A and Chiche, L and Philippe Derreumaux} } @article {2005|1631, title = {{A} chimera encoding the fusion of an acetylcholine-binding protein to an ion channel is stabilized in a state close to the desensitized form of ligand-gated ion channels}, journal = {C. R. Biol.}, volume = {328}, number = {3}, year = {2005}, month = {mar}, pages = {223{\textendash}234}, author = {Grutter, T. and Prado de Carvalho, L. and Virginie, D. and Antoine Taly and Fischer, M. and Jean-Pierre Changeux} } @article {2005|1775, title = {Chromatin remodeling complexes: ATP-dependent machines in action.}, journal = {Biochem. Cell Biol.}, volume = {83}, number = {4}, year = {2005}, month = {aug}, pages = {405{\textendash}417}, publisher = {Division of Biological Sciences, Marshall University, Huntington, WV 25755, USA.}, abstract = {Since the initial characterization of chromatin remodeling as an ATP-dependent process, many studies have given us insight into how nucleosome-remodeling complexes can affect various nuclear functions. However, the multistep DNA-histone remodeling process has not been completely elucidated. Although new studies are published on a nearly weekly basis, the nature and roles of interactions of the individual SWI/SNF- and ISWI-based remodeling complexes and DNA, core histones, and other chromatin-associated proteins are not fully understood. In addition, the potential changes associated with ATP recruitment and its subsequent hydrolysis have not been fully characterized. This review explores possible mechanisms by which chromatin-remodeling complexes are recruited to specific loci, use ATP hydrolysis to achieve actual remodeling through disruption of DNA-histone interactions, and are released from their chromatin template. We propose possible roles for ATP hydrolysis in a chromatin-release/target-scanning process that offer an alternative to or complement the often overlooked function of delivering the energy required for sliding or dislodging specific subsets of core histones.}, keywords = {Adenosine Triphosphatases, Adenosine Triphosphate, Animals, Chromatin, Gene Expression Regulation, genetics/metabolism, Humans, metabolism, Nucleosomes, Transcription Factors}, doi = {10.1139/o05-115}, author = {Cotteka N Johnson and Nicholas L Adkins and Philippe Georgel} } @article {2005|1979, title = {Dependency between consecutive local conformations helps assemble protein structures from secondary structures using Go potential and greedy algorithm}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {61}, number = {4}, year = {2005}, month = {dec}, pages = {732{\textendash}740}, doi = {10.1002/prot.20698}, author = {Pierre Tuffery and Philippe Derreumaux} } @article {2005|1849, title = {Electrostatic polymer condensation and the {A/B} polymorphism in {DNA}: {S}equence effects}, journal = {J. Chem. Theory Comput.}, volume = {1}, year = {2005}, pages = {325{\textendash}336}, author = {Alexey K Mazur} } @article {2005|1540, title = {Energy landscape of a small peptide revealed by dihedral angle principal component analysis}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {58}, number = {1}, year = {2005}, month = {jan}, pages = {45{\textendash}52}, author = {Mu, YG and Phuong Hoang Nguyen and Stock, G} } @article {2005|1391, title = {EvDTree: structure-dependent substitution profiles based on decision tree classification of 3D environments}, journal = {Bmc Bioinf.}, volume = {6}, year = {2005}, month = {jan}, author = {Gelly, JC and Chiche, L and Gracy, J} } @article {2005|1378, title = {Exploring the early steps of amyloid peptide aggregation by computers}, journal = {Acc. Chem. Res.}, volume = {38}, number = {11}, year = {2005}, pages = {885{\textendash}891}, author = {Mousseau, N and Philippe Derreumaux} } @article {2005|1847, title = {Exploring the free energy landscape of a short peptide using an average force}, journal = {J. Chem. Phys.}, volume = {123}, year = {2005}, pages = {244906}, author = {Christophe Chipot and J{\'e}r{\^o}me H{\'e}nin} } @conference {2005, title = {Following the aggregation of amyloid-forming peptides by computer simulations.}, booktitle = {Abstracts of Papers of the American Chemical Society}, volume = {229}, number = {Part 2}, year = {2005}, pages = {U735}, author = {Philippe Derreumaux} } @article {2005|1879, title = {Following the aggregation of amyloid-forming peptides by computer simulations}, journal = {J. Chem. Phys.}, volume = {122}, number = {17}, year = {2005}, month = {may}, pages = {174904}, doi = {10.1063/1.1886725}, author = {Melquiond, A and Boucher, G and Mousseau, N and Philippe Derreumaux} } @article {2005|1538, title = {Free energy landscape and folding mechanism of a beta-hairpin in explicit water: A replica exchange molecular dynamics study}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {61}, number = {4}, year = {2005}, month = {dec}, pages = {795{\textendash}808}, author = {Phuong Hoang Nguyen and Stock, G and Mittag, E and Hu, CK and Li, MS} } @article {2005|1400, title = {Hydration and thermodynamic equilibrium of non-ionic surfactant in solution}, journal = {Coll Surf A}, volume = {261}, year = {2005}, pages = {93{\textendash}99}, author = {Briganti, Giuseppe and D{\textquoteright}arrigo, Giovanni and Maccarini, Marco and Pierleoni, Carlo and Sterpone, Fabio} } @article {2005|1405, title = {Immersive graph-based visualization and exploration of biological data relationships}, journal = {Data Sci. J.}, volume = {4}, year = {2005}, month = {mar}, pages = {189{\textendash}194}, author = {Nicolas F{\'e}rey and P.-E. Gros and J. H{\'e}risson and R. Gherbi} } @article {2005|1900, title = {Improved greedy algorithm for protein structure reconstruction}, journal = {J. Comput. Chem.}, volume = {26}, number = {5}, year = {2005}, month = {apr}, pages = {506{\textendash}513}, doi = {10.1002/jcc.20181}, author = {Pierre Tuffery and Guyon, F and Philippe Derreumaux} } @article {2005|1839, title = {Insights into the recognition and association of transmembrane $\alpha$-helices. {T}he free energy of $\alpha$-helix dimerization in glycophorin {A}}, journal = {J. Am. Chem. Soc.}, volume = {127}, number = {23}, year = {2005}, pages = {8478{\textendash}8484}, abstract = {The free energy of alpha-helix dimerization of the transmembrane (TM) region of glycophorin A was estimated from a 125-ns molecular dynamics (MD) simulation in a membrane mimetic. The free energy profile was obtained by allowing the TM helical segments to diffuse reversibly along the reaction pathway. Partition of the potential of mean force into free energy components illuminates the critical steps of alpha-helix recognition and association. At large separations, the TM segments are pushed together by the solvent, allowing initial, but not necessarily native, interhelical interactions to occur. This early recognition stage precedes the formation of native contacts, which is accompanied by a tilt of the helices, characteristic of the dimeric structure. This step is primarily driven by the van der Waals helix-helix interactions. Free energy perturbation calculations of the L75A and I76A point mutations reveal a disruption in helix-helix association due to a loss of favorable dispersion interactions. Additional MD simulations of the native TM dimer and of a single alpha-helix confirm that, prior to association, individual alpha-helices are independently stable, in agreement with the "two-stage" model of integral membrane protein folding.}, doi = {10.1021/ja050581y}, author = {J{\'e}r{\^o}me H{\'e}nin and A. Pohorille and Christophe Chipot} } @article {2005|2011, title = {{M}olecular tuning of fast gating in pentameric ligand-gated ion channels}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {102}, number = {50}, year = {2005}, month = {dec}, pages = {18207{\textendash}18212}, publisher = {National Acad Sciences}, author = {Grutter, T. and de Carvalho, L. P. and Dufresne, V. and Antoine Taly and Edelstein, S. J. and Jean-Pierre Changeux} } @article {2005|1476, title = {Membrane protein structure quality in molecular dynamics simulation}, journal = {Journal of Molecular Graphics \& Modelling}, volume = {24}, number = {2}, year = {2005}, note = {International Meeting of the Molecular-Graphics-and-Modelling-Society, Manchester, ENGLAND, 2004}, month = {oct}, pages = {157{\textendash}165}, author = {Law, RJ and Capener, C and Marc Baaden and Bond, PJ and Campbell, J and Patargias, G and Arinaminpathy, Y and Sansom, MSP} } @article {2005|1508, title = {Modular RNA architecture revealed by computational analysis of existing pseudoknots and ribosomal RNAs}, journal = {Nuc. Acids Res.}, volume = {33}, year = {2005}, pages = {1384{\textendash}1398}, author = {S. Pasquali and H.H. Gan and T. Schlick} } @article {2005|2003, title = {{N}ormal mode analysis suggests a quaternary twist model for the nicotinic receptor gating mechanism}, journal = {Biophys. J.}, volume = {88}, number = {6}, year = {2005}, month = {jun}, pages = {3954{\textendash}3965}, publisher = {Cell Press}, author = {Antoine Taly and Delarue, M. and Grutter, T. and Nilges, M. and Le Novere, N. and Corringer, P. J. and Jean-Pierre Changeux} } @article {2005|1952, title = {Navigation and analysis of the energy landscape of small proteins using the activation-relaxation technique}, journal = {Phys. Biol.}, volume = {2}, number = {4, Sp. Iss. SI}, year = {2005}, month = {dec}, pages = {S101-S107}, doi = {10.1088/1478-3975/2/4/S04}, author = {Mousseau, N and Philippe Derreumaux and Gilbert, G} } @article {2005|1539, title = {Structure and energy landscape of a photoswitchable peptide: A replica exchange molecular dynamics study}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {60}, number = {3}, year = {2005}, month = {aug}, pages = {485{\textendash}494}, author = {Phuong Hoang Nguyen and Mu, YG and Stock, G} } @conference {2005|1422, title = {Visual data mining of genomic databases by immersive graph-based exploration}, booktitle = {international Conference on Computer Graphics and interactive Techniques in Australasia and South East Asia (GRAPHITE 2005 - ACM-ACMSIGRAPH Sponsored)}, year = {2005}, month = {nov}, pages = {143{\textendash}146}, address = {Dunedin - New Zealand}, author = {Nicolas F{\'e}rey and P.-E. Gros and J. H{\'e}risson and R. Gherbi} } @article {2004|1867, title = {The antitumor properties of the alpha 3(IV)-(185-203) peptide from the NC1 domain of type IV collagen (tumstatin) are conformation-dependent}, journal = {J. Biol. Chem.}, volume = {279}, number = {3}, year = {2004}, month = {jan}, pages = {2091{\textendash}2100}, doi = {10.1074/jbc.M307736200}, author = {Floquet, N and Pasco, S and Ramont, L and Philippe Derreumaux and Laronze, JY and Nuzillard, JM and Maquart, FX and Alix, AJP and Monboisse, JC} } @conference {2004|1815, title = {Combining Applications and Databases Integration Approaches in a Common Distributed Genomic Platform}, booktitle = {International CODATA Conference, The Information Society: New Horizons for Science}, year = {2004}, month = {nov}, publisher = {Tamkang University}, organization = {Tamkang University}, address = {Berlin, Germany}, author = {P.-E. Gros and J. H{\'e}risson and Nicolas F{\'e}rey and R. Gherbi} } @article {2004|1978, title = {Complex folding pathways in a simple beta-hairpin}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {56}, number = {3}, year = {2004}, month = {aug}, pages = {464{\textendash}474}, doi = {10.1002/prot.20127}, author = {Wei, GH and Mousseau, N and Philippe Derreumaux} } @article {2004|1537, title = {Conformational sampling and dynamics of membrane proteins from 10-nanosecond computer simulations}, journal = {Proteins: Struct., Funct., Bioinf.}, volume = {57}, number = {4}, year = {2004}, month = {dec}, pages = {783{\textendash}791}, author = {Faraldo-Gomez, JD and Forrest, LR and Marc Baaden and Bond, PJ and Domene, C and Patargias, G and Cuthbertson, J and Sansom, MSP} } @inbook {2004|1730, title = {Conformational transitions in proteins and membranes}, booktitle = {Novel Approaches to the Structure and Dynamics of Liquids: Experiments, Theories and Simulations}, year = {2004}, pages = {485{\textendash}502}, publisher = {Springer Netherlands}, organization = {Springer Netherlands}, author = {Smith, Jeremy C and Cournia, Zoe and Antoine Taly and Tournier, Alexander L and Mihailescu, Dan and Ullmann, G Matthias} } @article {2004|1647, title = {Critical role of the C-terminal segment in the maturation and export to the cell surface of the homopentameric $\alpha$7{\textendash}5HT3A receptor}, journal = {Eur. J. Neurosci.}, volume = {20}, number = {8}, year = {2004}, pages = {2022{\textendash}2030}, publisher = {Wiley Online Library}, author = {Pons, S and Sallette, J and Bourgeois, JP and Antoine Taly and Jean-Pierre Changeux and Devillers-Thi{\'e}ry, A} } @article {2004|1807, title = {The C-terminal domain of Escherichia coli Hfq increases the stability of the hexamer}, journal = {Eur. J. Biochem.}, volume = {271}, number = {7}, year = {2004}, month = {apr}, pages = {1258{\textendash}1265}, doi = {10.1111/j.1432-1033.2004.04026.x}, author = {Arluison, V and Folichon, M and Marco, S and Philippe Derreumaux and Pellegrini, O and Seguin, J and Hajnsdorf, E and Regnier, P} } @conference {2004|1420, title = {A Distributed Multimedia Database Visualization within An Immersive Environment for Bioinformatics}, booktitle = {International Symposium on Multimedia Software Engineering (ISMSE 2004 - IEEE)}, year = {2004}, month = {dec}, pages = {156{\textendash}159}, address = {Miami - USA}, author = {Nicolas F{\'e}rey and P.-E. Gros and J. H{\'e}risson and R. Gherbi} } @conference {2004|1425, title = {DNA in Virtuo: Visualization and Exploration of 3D Genomic Structures}, booktitle = {International Conference on Virtual Reality, Computer Graphics, Visualization and Interaction (Afrigraph 2005 - ACM-SIGRAPH sponsored)}, year = {2004}, month = {nov}, address = {Stellenbosch (Cap town), South Africa}, author = {J. H{\'e}risson and P.-E. Gros and Nicolas F{\'e}rey and O. Magneau and R. Gherbi} } @conference {2004|1419, title = {DNA in Virtuo: Visualization and Virtual Manipulation of 3D Genomic Structures}, booktitle = {International CODATA Conference, The Information Society: New Horizons for Science}, year = {2004}, month = {nov}, address = {Berlin, Germany}, author = {J. H{\'e}risson and P.-E. Gros and Nicolas F{\'e}rey and O. Magneau and R. Gherbi} } @article {2004|1939, title = {Early steps of amyloid-petide oligomerisation explored by simulations}, journal = {Neurobiol. Aging}, volume = {25}, number = {Suppl. 2}, year = {2004}, month = {jul}, pages = {S143}, doi = {10.1016/S0197-4580(04)80481-0}, author = {Philippe Derreumaux and Wei, GH and Santini, S and Mousseau, NN} } @article {2004|1462, title = {Exploration by visualization of numerical and textual genomic data}, journal = {Journal of Biological Physics and Chemistry}, volume = {4}, number = {2}, year = {2004}, month = {jun}, pages = {102{\textendash}110}, author = {Nicolas F{\'e}rey and P.-E. Gros and J. H{\'e}risson and R. Gherbi} } @article {2004|1928, title = {Exploring the early steps of aggregation of amyloid-forming peptide KFFE}, journal = {Journal of Physics-condensed Matter}, volume = {16}, number = {44, Sp. Iss. SI}, year = {2004}, month = {nov}, pages = {S5047-S5054}, doi = {10.1088/0953-8984/16/44/002}, author = {Wei, GH and Mousseau, N and Philippe Derreumaux} } @conference {2004|1423, title = {GenoMEDIA, a Midlleware Platform for Distributed Genomic Information}, booktitle = {International Conference on Information \& Communication Technologies: from Theory to Applications (ICTTA 2004 - IEEE)}, year = {2004}, month = {apr}, address = {Damascus - Syria}, author = {P.-E. Gros and Nicolas F{\'e}rey and J. H{\'e}risson and R. Gherbi} } @article {2004|1791, title = {Helix H1 of the prion protein is rather stable against environmental perturbations: molecular dynamics of mutation and deletion variants of PrP(90-231)}, journal = {Cell. Mol. Life Sci.}, volume = {61}, number = {7-8}, year = {2004}, month = {apr}, pages = {951{\textendash}960}, doi = {10.1007/s00018-003-3455-3}, author = {Santini, S and Philippe Derreumaux} } @article {2004|1825, title = {Identification of the subunit-subunit interface of Xenopus Rad51.1 protein: Similarity to RecA}, journal = {J. Mol. Biol.}, volume = {335}, number = {4}, year = {2004}, month = {jan}, pages = {895{\textendash}904}, abstract = {

Rad51, like its prokaryotic homolog RecA, forms a helical filament for homologous DNA recombination and recombinational DNA repair. Comparison of the three-dimensional structures of human Rad51 and Escherichia coli RecA indicated that the tyrosine residue at position 191 in human Rad51 lies at the centre of a putative subunit-subunit contact interface. We inserted a tryptophan residue as a fluorescent probe at the corresponding position in Xenopus Rad51.1 and found that its fluorescence depended upon the protein concentration, indicating that the residue is truly in the subunit-subunit interface. We also found that 3 M urea, which promoted the dissociation of Rad51 filament without complete unfolding of the protein, exposed the tryptophan residue to solvent. The fluorescence was not modified by binding to DNA and only slightly modified by ATP, indicating that the same site is used for formation of the active ATP-Rad51-DNA filament. The slight changes in fluorescence caused by ATP and ADP suggest that the subunit-subunit contact is altered, leading to the elongation of the filament by these nucleotides, as with the RecA filament. Thus, Rad51 forms filaments by subunit-subunit contact much like RecA does.

}, author = {Selmane, T and Camadro, JM and Conilleau, S and Fleury, F and Tran, V and Chantal Pr{\'e}vost and Takahashi, M} } @conference {2004|1418, title = {Immersive Graph-based Visualization and Exploration of Biological Data}, booktitle = {International CODATA Conference - The Information Society: New Horizons for Science}, year = {2004}, month = {nov}, address = {Berlin - Germany}, author = {Nicolas F{\'e}rey and P.-E. Gros and J. H{\'e}risson and R. Gherbi} } @article {2004|1930, title = {In silico assembly of Alzheimer{\textquoteright}s A beta(16-22) peptide into beta-sheets}, journal = {J. Am. Chem. Soc.}, volume = {126}, number = {37}, year = {2004}, month = {sep}, pages = {11509{\textendash}11516}, doi = {10.1021/ja047286i}, author = {Santini, S and Mousseau, N and Philippe Derreumaux} } @article {2004|1824, title = {Integrating three views of Arf1 activation dynamics}, journal = {J. Mol. Biol.}, volume = {337}, number = {4}, year = {2004}, month = {apr}, pages = {969{\textendash}983}, author = {Robert, Charles H and Cherfils, Jacqueline and Mouawad, Liliane and Perahia, David} } @article {2004|1513, title = {The KNOTTIN website and database: a new information system dedicated to the knottin scaffold}, journal = {Nucleic Acids Res.}, volume = {32}, number = {Sp. Iss. SI}, year = {2004}, month = {jan}, pages = {D156-D159}, author = {Gelly, JC and Gracy, J and Kaas, Q and Le-Nguyen, D and Heitz, A and Chiche, L} } @article {2004|1801, title = {Molecular cloning of a mollusk glucanase}, journal = {Comp. Biochem. Physiol.}, volume = {137}, number = {2}, year = {2004}, pages = {169{\textendash}178}, author = {Valeri B. Kozhemyako and Denis V. Rebrikov and Sergey A. Lukyanov and Ekaterina A. Bogdanova and Antoine Marin and Alexey K Mazur and Svetlana N. Kovalchuk and Elena V. Agafonova and Victoria V. Sova and Ludmila A. Elyakova and Valeri A. Rasskazov} } @article {2004|1493, title = {Molecular dynamics study of temperature dehydration of a C12E6 spherical micelle}, journal = {Langmuir}, volume = {20}, number = {11}, year = {2004}, pages = {4311{\textendash}4}, author = {Sterpone, Fabio and Pierleoni, Carlo and Briganti, Giuseppe and Marchit, Massimo} } @article {2004|1826, title = {Molecular Modeling and Simulations of AOT{\^a}{\textasciicircum}{\textquoteright}Water Reverse Micelles in Isooctane:{\^a}{\texteuro}{\textperthousand} Structural and Dynamic Properties}, journal = {J. Phys. Chem. B}, volume = {108}, number = {50}, year = {2004}, pages = {19458{\textendash}19466}, author = {Abel, St{\'e}phane and Sterpone, Fabio and Bandyopadhyay, Sanjoy and Marchi, Massimo} } @article {2004, title = {OmpT: Molecular dynamics simulations of an outer membrane enzyme}, journal = {Biophys. J.}, volume = {87}, number = {5}, year = {2004}, month = {nov}, pages = {2942{\textendash}2953}, author = {Marc Baaden and Sansom, MSP} } @article {2004|1846, title = {Overcoming free energy barriers using unconstrained molecular dynamics simulations}, journal = {J. Chem. Phys.}, volume = {121}, year = {2004}, pages = {2904{\textendash}2914}, author = {J{\'e}r{\^o}me H{\'e}nin and Christophe Chipot} } @article {2004|1994, title = {Pathway complexity of Alzheimer{\textquoteright}s beta-amyloid A beta(16-22) peptide assembly}, journal = {Structure}, volume = {12}, number = {7}, year = {2004}, month = {jul}, pages = {1245{\textendash}1255}, doi = {10.1016/j.str.2004.04.018}, author = {Santini, S and Wei, GH and Mousseau, N and Philippe Derreumaux} } @article {2004|1620, title = {Sampling the self-assembly pathways of KFFE hexamers}, journal = {Biophys. J.}, volume = {87}, number = {6}, year = {2004}, month = {dec}, pages = {3648{\textendash}3656}, doi = {10.1529/biophysj.104.047688}, author = {Wei, G. H. and Mousseau, N. and Philippe Derreumaux} } @article {2004|1778, title = {Single-stranded breaks relax intrinsic curvature in {DNA}?}, journal = {Biochemistry}, volume = {43}, number = {25}, year = {2004}, pages = {8160{\textendash}8168}, author = {Dimitri E. Kamashev and Alexey K Mazur} } @article {2004|1404, title = {Squash inhibitors: From structural motifs to macrocyclic knottins}, journal = {Current Protein \& Peptide Science}, volume = {5}, number = {5}, year = {2004}, pages = {341{\textendash}349}, author = {Chiche, L and Heitz, A and Gelly, JC and Gracy, J and Chau, PTT and Ha, PT and Hernandez, JF and Le-Nguyen, D} } @article {2004|1787, title = {Structural characterization of VGVAPG, an elastin-derived peptide}, journal = {Biopolymers}, volume = {76}, number = {3}, year = {2004}, pages = {266{\textendash}280}, doi = {10.1002/bip.20029}, author = {Floquet, N and Hery-Huynh, S and Dauchez, M and Philippe Derreumaux and Tamburro, AM and Alix, AJP} } @article {2004|1718, title = {Temperature dehydration of C12E6 micelle}, journal = {Langmuir}, volume = {20}, year = {2004}, pages = {4311{\textendash}4314}, author = {Fabio Sterpone and C. Pierleoni and G. Briganti and M. Marchi} } @article {2004|1878, title = {Torsion-induced phase transitions in fluids confined between chemically decorated substrates}, journal = {J. Chem. Phys.}, volume = {121}, number = {18}, year = {2004}, month = {nov}, pages = {9077{\textendash}9086}, doi = {10.1063/1.1804154}, author = {S Sacquin-Mora and Fuchs, AH and Schoen, M} } @conference {2004|1492, title = {Visualization and Exploration of Factual and Textual Genomic Data}, booktitle = {Journ{\'e}es Ouvertes de Biologie, Informatique et Math{\'e}matiques (JOBIM 2004)}, year = {2004}, month = {jun}, address = {Montr{\'e}al - Canada}, author = {Nicolas F{\'e}rey and P.-E. Gros and J. H{\'e}risson and R. Gherbi} } @article {2003|1663, title = {Docking macromolecules with flexible segments}, journal = {J. Comput. Chem.}, volume = {24}, year = {2003}, month = {nov}, pages = {1910{\textendash}20}, abstract = {

We address a major obstacle to macromolecular docking algorithms by presenting a new method that takes into account the induced conformational adjustment of flexible loops situated at a protein/macromolecule interface. The method, MC2, is based on a multiple copy representation of the loops, coupled with a Monte Carlo conformational search of the relative position of the macromolecules and their side chain conformations. The selection of optimal loop conformations takes place during Monte Carlo cycling by the iterative adjustment of the weight of each copy. We describe here the parameterization of the method and trials on a protein-DNA complex of known 3-D structure, involving the Drosophila prd paired domain protein and its target oligonucleotide Wenqing, X. et al., Cell 1995, 80, 639. We demonstrate that our algorithm can correctly configure and position this protein, despite its relatively complex interactions with both grooves of DNA.

}, doi = {10.1002/jcc.10329}, author = {Bastard, Karine and Thureau, Aur{\'e}lien and Richard Lavery and Chantal Pr{\'e}vost} } @article {2003|1428, title = {Exploring the folding pathways of proteins through energy landscape sampling: Application to Alzheimer{\textquoteright}s beta-amyloid peptide}, journal = {Internet Electron. J. Mol. Des.}, volume = {2}, year = {2003}, pages = {564{\textendash}577}, author = {S. Santini and G. Wei and N. Mousseau and Philippe Derreumaux} } @article {2003|1507, title = {Exploring The Repertoire of RNA Secondary Motifs Using Graph Theory with Implications for RNA Design}, journal = {Nuc. Acids Res.}, volume = {31}, year = {2003}, pages = {2926{\textendash}2943}, author = {H. H. Gan and S. Pasquali and and T. Schlick} } @article {2003, title = {Extending the structure of an ABC transporter to atomic resolution: Modeling and simulation studies of MsbA}, journal = {Biochemistry}, volume = {42}, number = {13}, year = {2003}, month = {apr}, pages = {3666{\textendash}3673}, author = {Campbell, JD and Biggin, PC and Marc Baaden and Sansom, MSP} } @article {2003|1706, title = {Fluid phase transitions at chemically heterogeneous, nonplanar solid substrates: Surface versus confinement effects}, journal = {J. Chem. Phys.}, volume = {118}, number = {3}, year = {2003}, month = {jan}, pages = {1453{\textendash}1465}, doi = {10.1063/1.1529683}, author = {S Sacquin-Mora and Schoen, M. and Fuchs, A. H.} } @mastersthesis {2003|1561, title = {Fluide nanoconfines dans des systemes de basse symetrie : Simulations et Theorie}, year = {2003}, school = {Universit{\'e} Paris XI, Orsay}, type = {phd}, author = {S Sacquin-Mora} } @article {2003|1914, title = {Generating conformations for two zinc-binding sites of HIV-1 nucleocapsid protein from random conformations by a hierarchical procedure and polarizable force field}, journal = {J. Phys. Chem. B}, volume = {107}, number = {20}, year = {2003}, month = {may}, pages = {4862{\textendash}4870}, doi = {10.1021/jp022527z}, author = {Gresh, N and Philippe Derreumaux} } @article {2003|1761, title = {Geometry of the DNA strands within the RecA nucleofilament: role in homologous recombination}, journal = {Q. Rev. Biophys.}, volume = {36}, year = {2003}, month = {nov}, pages = {429{\textendash}53}, abstract = {

Homologous recombination consists of exchanging DNA strands of identical or almost identical sequence. This process is important for both DNA repair and DNA segregation. In prokaryotes, it involves the formation of long helical filaments of the RecA protein on DNA. These filaments incorporate double-stranded DNA from the cell\&$\#$39;s genetic material, recognize sequence homology and promote strand exchange between the two DNA segments. DNA processing by these nucleofilaments is characterized by large amplitude deformations of the double helix, which is stretched by 50\% and unwound by 40\% with respect to B-DNA. In this article, information concerning the structure and interactions of the RecA, DNA and ATP molecules involved in DNA strand exchange is gathered and analyzed to present a view of their possible arrangement within the filament, their behavior during strand exchange and during ATP hydrolysis, the mechanism of RecA-promoted DNA deformation and the role of DNA deformation in the process of homologous recombination. In particular, the unusual characteristics of DNA within the RecA filament are compared to the DNA deformations locally induced by architectural proteins which bind in the DNA minor groove. The possible role and location of two flexible loops of RecA are discussed.

}, author = {Chantal Pr{\'e}vost and M. Takahashi} } @article {2003|1990, title = {Impact of the tail and mutations G131V and M129V on prion protein flexibility}, journal = {Proteins-structure Function and Genetics}, volume = {51}, number = {2}, year = {2003}, month = {may}, pages = {258{\textendash}265}, doi = {10.1002/prot.10348}, author = {Santini, S and Claude, JB and Audic, S and Philippe Derreumaux} } @article {2003|1694, title = {Linear response and electron transfer in complex biomolecules systems and Reaction Center Protein}, journal = {J. Phys. Chem. B}, volume = {107}, year = {2003}, pages = {11208{\textendash}11215}, author = {Fabio Sterpone and M. Ceccarelli and M. Marchi} } @article {2003|1465, title = {Local structure in nematic and isotropic liquid crystals}, journal = {J. Chem. Phys.}, volume = {119}, number = {2}, year = {2003}, month = {jul}, pages = {1214{\textendash}1222}, author = {Phuong, NH and Schmid, F} } @article {2003|1475, title = {A molecular dynamics investigation of mono and dimeric states of the outer membrane enzyme OMPLA}, journal = {J. Mol. Biol.}, volume = {331}, number = {1}, year = {2003}, month = {aug}, pages = {177{\textendash}189}, author = {Marc Baaden and Meier, C and Sansom, MSP} } @article {2003|1957, title = {Nanoscopic liquid bridges exposed to a torsional strain}, journal = {Physical Review E}, volume = {68}, number = {6, Part 2}, year = {2003}, month = {dec}, pages = {066103}, doi = {10.1103/PhysRevE.68.066103}, author = {S Sacquin-Mora and Fuchs, AH and Schoen, M} } @article {2003|1464, title = {Nonequilibrium molecular-dynamics study of the vibrational energy relaxation of peptides in water}, journal = {J. Chem. Phys.}, volume = {119}, number = {21}, year = {2003}, month = {dec}, pages = {11350{\textendash}11358}, author = {Phuong Hoang Nguyen and Stock, G} } @article {2003|1621, title = {The position of Q B in the photosynthetic reaction center depends on pH: A theoretical analysis of the proton uptake upon Q B reduction}, journal = {Biophys. J.}, volume = {84}, number = {3}, year = {2003}, pages = {2090{\textendash}2098}, publisher = {Cell Press}, author = {Antoine Taly and Sebban, Pierre and Smith, Jeremy C and Ullmann, G Matthias} } @article {2003|1877, title = {Role of supersecondary structural elements in protein G folding}, journal = {J. Chem. Phys.}, volume = {119}, number = {9}, year = {2003}, month = {sep}, pages = {4940{\textendash}4944}, doi = {10.1063/1.1596891}, author = {Philippe Derreumaux} } @article {2003|1876, title = {Sampling the complex energy landscape of a simple beta-hairpin}, journal = {J. Chem. Phys.}, volume = {119}, number = {13}, year = {2003}, month = {oct}, pages = {6403{\textendash}6406}, doi = {10.1063/1.1613642}, author = {Wei, GH and Philippe Derreumaux and Mousseau, N} } @article {2003|1548, title = {Theoretical studies on lanthanide cation extraction by picolinamides: Ligand-cation interactions and interfacial behavior}, journal = {Solvent Extr. Ion Exch.}, volume = {21}, number = {2}, year = {2003}, pages = {199{\textendash}220}, author = {Marc Baaden and Berny, F and Madic, C and Schurhammer, R and Wipff, G} } @article {2003|1838, title = {Titration {\em in silico} of reversible {B${\l}eftrightarrow$A} transitions in {DNA}}, journal = {J. Am. Chem. Soc.}, volume = {125}, number = {26}, year = {2003}, pages = {7849{\textendash}7859}, author = {Alexey K Mazur} } @article {2002, title = {Analysis of Protein Sequence/Structure Similarity Relationships}, journal = {Biophys. J.}, volume = {83}, year = {2002}, pages = {2781{\textendash}2791}, author = {H. H. Gan and R. A. Perow and S. Roy and J. Ko, M. Wu, J. Huang and S. Yan and A. Nicoletta and J. Vafai, D. Sun and L. Wang and J. E. Noah and S. Pasquali and T. Schlick} } @conference {2002|1622, title = {Cd2+ binding effect on bacterial reaction center mutants: The proton penetration involves interdependent pathways}, booktitle = {BIOPHYSICAL JOURNAL}, volume = {82}, number = {1}, year = {2002}, pages = {518A-518A}, publisher = {BIOPHYSICAL SOCIETY 9650 ROCKVILLE PIKE, BETHESDA, MD 20814-3998 USA}, organization = {BIOPHYSICAL SOCIETY 9650 ROCKVILLE PIKE, BETHESDA, MD 20814-3998 USA}, author = {Gerencser, L and Antoine Taly and Baciou, L and Maroti, P and Sebban, P} } @article {2002|1946, title = {Comparative bending dynamics in DNA with and without regularly repeated adenine tracts}, journal = {Phys. Rev. E}, volume = {66}, number = {1}, year = {2002}, pages = {011917}, author = {Alexey K Mazur and Dimitri E. Kamashev} } @article {2002|1790, title = {Differential core histone binding behavior: {R}{N}{A} polymerase {I} promoter region vs 5{S} r{D}{N}{A} positioning {D}{N}{A} sequences}, journal = {Cell Biochem. Biophys.}, volume = {37}, number = {1}, year = {2002}, pages = {1{\textendash}13}, author = {Georgel, Philippe T and Robert, Charles H} } @article {2002|1402, title = {The direct correlation function in nematic liquid crystals from computer simulation}, journal = {Comput. Phys. Commun.}, volume = {147}, number = {1-2}, year = {2002}, note = {Europhysics Conference on Computational Physics (CCP 2001), AACHEN, GERMANY, SEP 05-08, 2001}, month = {aug}, pages = {350{\textendash}353}, author = {Phuong, NH and Germano, G and Schmid, F} } @article {2002|1837, title = {{DNA} dynamics in a water drop without counterions}, journal = {J. Am. Chem. Soc.}, volume = {124}, number = {49}, year = {2002}, pages = {14707{\textendash}14715}, author = {Alexey K Mazur} } @article {2002|2002, title = {{E}ffect of binding of {C}d2+ on bacterial reaction center mutants: proton-transfer uses interdependent pathways}, journal = {Biochemistry}, volume = {41}, number = {29}, year = {2002}, month = {jul}, pages = {9132{\textendash}9138}, publisher = {ACS Publications}, author = {Gerencser, L. and Antoine Taly and Baciou, L. and Maroti, P. and Sebban, P.} } @article {2002|1874, title = {Exploring the energy landscape of proteins: A characterization of the activation-relaxation technique}, journal = {J. Chem. Phys.}, volume = {117}, number = {24}, year = {2002}, month = {dec}, pages = {11379{\textendash}11387}, doi = {10.1063/1.1522373}, author = {Wei, GH and Mousseau, N and Philippe Derreumaux} } @article {2002|1726, title = {Fluids confined by nanopatterned substrates of low symmetry}, journal = {Mol. Phys.}, volume = {100}, number = {18}, year = {2002}, month = {sep}, pages = {2971{\textendash}2982}, doi = {10.1080/00268970210121632}, author = {S Sacquin-Mora and Schoen, M. and Fuchs, A. H.} } @article {2002|1875, title = {Insight into protein topology from Monte Carlo simulations}, journal = {J. Chem. Phys.}, volume = {117}, number = {7}, year = {2002}, month = {aug}, pages = {3499{\textendash}3503}, doi = {10.1063/1.1494427}, author = {Philippe Derreumaux} } @article {2002|1483, title = {Molecular dynamics study of the uranyl extraction by tri-n-butylphosphate (TBP): Demixing of water/{{\textquoteright}{\textquoteright}}oil{{\textquoteright}{\textquoteright}}/TBP solutions with a comparison of supercritical CO2 and chloroform}, journal = {J. Phys. Chem. B}, volume = {106}, number = {2}, year = {2002}, month = {jan}, pages = {434{\textendash}441}, author = {Marc Baaden and Schurhammer, R and Wipff, G} } @article {2002|1599, title = {New insights into the allosteric mechanism of human hemoglobin from molecular dynamics simulations}, journal = {Biophys. J.}, volume = {82}, number = {6}, year = {2002}, month = {jun}, pages = {3224{\textendash}3245}, author = {Mouawad, Liliane and Perahia, David and Charles H. Robert and Guilbert, Christophe} } @conference {2002|1502, title = {Spatial order in liquid crystals: Computer simulations of systems of ellipsoids}, booktitle = {MORPHOLOGY OF CONDENSED MATTER: PHYSICS AND GEOMETRY OF SPATIALLY COMPLEX SYSTEMS}, series = {Lecture Notes in Physics}, volume = {600}, year = {2002}, note = {2nd International Wuppertal Workshop on Statistical Physics and Spatial Statistics, UNIV WUPPERTAL, WUPPERTAL, GERMANY, MAR 05-09, 2001}, pages = {172{\textendash}186}, author = {Schmid, F and Phuong, NH}, editor = {Mecke, K and Stoyan, D} } @article {2002|1902, title = {Structural modelling of the Sm-like protein Hfq from Escherichia coli}, journal = {J. Mol. Biol.}, volume = {320}, number = {4}, year = {2002}, month = {jul}, pages = {705{\textendash}712}, doi = {10.1016/S0022-2836(02)00548-X}, author = {Arluison, V and Philippe Derreumaux and Allemand, F and Folichon, M and Hajnsdorf, E and Regnier, P} } @article {2002|1650, title = {{T}he {D}{M}{P}{C} lipid phase transition influences differently the first and the second electron transfer reactions in bacterial reaction centers}, journal = {Febs Lett.}, volume = {532}, number = {1-2}, year = {2002}, month = {dec}, pages = {91{\textendash}96}, author = {Antoine Taly and Baciou, L. and Sebban, P.} } @article {2002|1817, title = {Water rotational relaxation and diffusion in hydrated lysozyme}, journal = {J. Am. Chem. Soc.}, volume = {124}, number = {23}, year = {2002}, month = {jun}, pages = {6787{\textendash}91}, abstract = {This paper is concerned with the dynamics of water around a small globular protein. Dipolar second-rank relaxation time and diffusion properties of surface water were computed by extensive molecular dynamics simulations of lysozyme in water which lasted a total of 28 ns. Our results indicate that the rotational relaxation of water in the vicinity of lysozyme is 3-7 times slower than that in the bulk depending on how the hydration shell is defined in the calculation. We have also verified that the dynamics of water translational diffusion in the vicinity of lysozyme have retardations similar to rotational relaxation. This is a common assumption in nuclear magnetic relaxation dispersion (NMRD) studies to derive residence times. In contrast to bulk water dynamics, surface water is in a dispersive diffusion regime or subdiffusion. Very good agreement of dipolar second-rank relaxation time with NMRD estimates is obtained by using appropriate dimensions of the hydration shell. Although our computed second-rank dipolar retardations are independent of the water model, SPC/E describes more realistically the time scale of the water dynamics around lysozyme than does TIP3P.}, author = {Marchi, Massimo and Sterpone, Fabio and Ceccarelli, Matteo} } @article {2001|1448, title = {{C}onvergent evolution of {M}ut{S} and topoisomerase {I}{I} for clamping {D}{N}{A} crossovers and stacked {H}olliday junctions}, journal = {J. Biomol. Struct. Dyn.}, volume = {19}, year = {2001}, month = {oct}, pages = {215{\textendash}218}, author = {Y Timsit} } @article {2001|1479, title = {The chloroform TBP aqueous nitric acid interfacial system: a molecular dynamics investigation}, journal = {J. Mol. Liq.}, volume = {90}, number = {1-3, Sp. Iss. SI}, year = {2001}, note = {26th International Conference on Solution Chemistry (26 ICSC), FUKUOKA, JAPAN, JUL 26-31, 1999}, month = {feb}, pages = {1{\textendash}9}, author = {Marc Baaden and Berny, F and Wipff, G} } @article {2001|1989, title = {Computer simulations aimed at structure prediction of supersecondary motifs in proteins}, journal = {Proteins-structure Function and Genetics}, volume = {45}, number = {2}, year = {2001}, month = {nov}, pages = {159{\textendash}166}, doi = {10.1002/prot.1135}, author = {Forcellino, F and Philippe Derreumaux} } @article {2001|1823, title = {Dynamics of hydration in hen egg white lysozyme}, journal = {J. Mol. Biol.}, volume = {311}, number = {2}, year = {2001}, month = {aug}, pages = {409{\textendash}19}, abstract = {We investigate the hydration dynamics of a small globular protein, hen egg-white lysozyme. Extensive simulations (two trajectories of 9 ns each) were carried out to identify the time-scales and mechanism of water attachment to this protein. The location of the surface and integral water molecules in lysozyme was also investigated. Three peculiar temporal scales of the hydration dynamics can be discerned: two among these, with sub-nanosecond mean residence time, tau(w), are characteristic of surface hydration water; the slower time-scale (tau(w) approximately 2/3 ns) is associated with buried water molecules in hydrophilic pores and in superficial clefts. The computed tau(w) values in the two independent runs fall in a similar range and are consistent with each other, thus adding extra weight to our result. The tau(w) of surface water obtained from the two independent trajectories is 20 and 24 ps. In both simulations only three water molecules are bound to lysozyme for the entire length of the trajectories, in agreement with nuclear magnetic relaxation dispersion estimates. Locations other than those identified in the protein crystal are found to be possible for these long-residing water molecules. The dynamics of the hydration water molecules observed in our simulations implies that each water molecule visits a multitude of residues during the lifetime of its bound with the protein. The number of residues seen by a single water molecule increases with the time-scale of its residence time and, on average, is equal to one only for the water molecules with shorter residence time. Thus, tau(w) values obtained from inelastic neutron scattering and based on jump-diffusion models are likely not to account for the contribution of water molecules with longer residence time.}, doi = {10.1006/jmbi.2001.4860}, author = {Sterpone, F and Ceccarelli, M and Marchi, M} } @article {2001|1463, title = {Elastic constants from direct correlation functions in nematic liquid crystals: A computer simulation study}, journal = {J. Chem. Phys.}, volume = {115}, number = {15}, year = {2001}, month = {oct}, pages = {7227{\textendash}7234}, author = {Phuong, NH and Germano, G and Schmid, F} } @article {2001|1623, title = {Evidence that the 127-164 region of prion proteins has two equi-energetic conformations with beta or alpha features}, journal = {Biophys. J.}, volume = {81}, number = {3}, year = {2001}, month = {sep}, pages = {1657{\textendash}1665}, author = {Philippe Derreumaux} } @article {2001, title = {{H}ydration and structural alterations of {A}-{D}{N}{A}. {I}mplications for the accuracy of {D}{N}{A} replication}, journal = {Cell. Mol. Biol. (noisy-le-grand)}, volume = {47}, year = {2001}, pages = {815{\textendash}822}, author = {Mayer, C. and Y Timsit} } @article {2001|1461, title = {Induction-independent recruitment of CREB-binding protein to the c-fos serum response element through interactions between the bromodomain and Elk-1}, journal = {J. Biol. Chem.}, volume = {276}, number = {7}, year = {2001}, month = {feb}, pages = {5213{\textendash}5221}, author = {Nissen, LJ and Gelly, JC and Hipskind, RA} } @article {2001|1802, title = {Internal coordinate phase space analysis of macromolecular systems}, journal = {Comput. Theor. Polym. Sci.}, volume = {11}, number = {1}, year = {2001}, pages = {35{\textendash}47}, author = {Alexey K Mazur and Bobby G. Sumpter and Donald W. Noid} } @inbook {2001|1640, title = {Internal coordinate simulation method}, booktitle = {Computational Biochemistry and Biophysics}, year = {2001}, pages = {115{\textendash}131}, publisher = {Marcel Dekker}, organization = {Marcel Dekker}, address = {New York}, author = {Alexey K Mazur}, editor = {Oren M. Becker and Alexander D. MacKerell and Benoit Roux and Masakatsu Watanabe} } @article {2001|1520, title = {Lanthanide cation binding to a phosphoryl-calix{[}4]arene: the importance of solvent and counterions investigated by molecular dynamics and quantum mechanical simulations}, journal = {Phys. Chem. Chem. Phys.}, volume = {3}, number = {7}, year = {2001}, pages = {1317{\textendash}1325}, author = {Marc Baaden and Burgard, M and Boehme, C and Wipff, G} } @article {2001|1853, title = {Molecular dynamics of minimal B-DNA}, journal = {J. Comput. Chem.}, volume = {22}, number = {4}, year = {2001}, pages = {457{\textendash}467}, author = {Alexey K Mazur} } @article {2001|1844, title = {Molecular dynamics studies of sequence-directed curvature in bending locus of Trypanosome kinetoplast DNA}, journal = {J. Biomol. Struct. Dyn.}, volume = {18}, number = {6}, year = {2001}, pages = {832{\textendash}843}, author = {Alexey K Mazur} } @article {2001|1933, title = {Molecular Dynamics Study of Spherical Aggregates of Chain Molecules at Different Degrees of Hydrophilicity in Water Solution}, journal = {Langmuir}, volume = {17}, number = {16}, year = {2001}, pages = {5103{\textendash}5110}, author = {Sterpone, Fabio and Briganti, Giuseppe and Pierleoni, Carlo} } @article {2001|1903, title = {Sampling activated mechanisms in proteins with the activation-relaxation technique}, journal = {Journal of Molecular Graphics \& Modelling}, volume = {19}, number = {1}, year = {2001}, pages = {78{\textendash}86}, doi = {10.1016/S1093-3263(00)00134-0}, author = {Mousseau, N and Philippe Derreumaux and Barkema, GT and Malek, R} } @article {2001|1841, title = {Sheep prion protein synthetic peptide spanning helix 1 and beta-strand 2 (residues 142-166) shows beta-hairpin structure in solution}, journal = {J. Biol. Chem.}, volume = {276}, number = {49}, year = {2001}, pages = {46364{\textendash}46370}, author = {S. A. Kozin and G. Bertho and Alexey K Mazur and H. Rabesona and J. P. Girault and T. Haertle and M. Takahashi and P. Debey and G. H. Hoa} } @article {2001|1482, title = {TBP at the water-oil interface: The effect of TBP concentration and water acidity investigated by molecular dynamics simulations}, journal = {J. Phys. Chem. B}, volume = {105}, number = {45}, year = {2001}, month = {nov}, pages = {11131{\textendash}11141}, author = {Marc Baaden and Burgard, M and Wipff, G} } @article {2000|1997, title = {Ab initio polypeptide structure prediction}, journal = {Theor. Chem. Acc.}, volume = {104}, number = {1}, year = {2000}, month = {may}, pages = {1{\textendash}6}, doi = {10.1007/s002149900095}, author = {Philippe Derreumaux} } @article {2000, title = {Calix{[}4]arenes as selective extracting agents. An NMR dynamic and conformational investigation of the lanthanide(III) and thorium(IV) complexes}, journal = {Inorg. Chem.}, volume = {39}, number = {10}, year = {2000}, month = {may}, pages = {2033{\textendash}2041}, author = {Lambert, B and Jacques, V and Shivanyuk, A and Matthews, SE and Tunayar, A and Marc Baaden and Wipff, G and Bohmer, V and Desreux, JF} } @article {2000|1490, title = {Cation coordination by calix{[}4]arenes bearing amide and/or phosphine oxide pendant groups: how many arms are needed to bind Li+ vs. Na+? A combined NMR and molecular dynamics study}, journal = {Journal of the Chemical Society-perkin Transactions 2}, number = {7}, year = {2000}, pages = {1315{\textendash}1321}, author = {Marc Baaden and Wipff, G and Yaftian, MR and Burgard, M and Matt, D} } @article {2000|1551, title = {Complexation of M3+ lanthanide cations by calix{[}4]arene-CMPO ligands: A molecular dynamics study in methanol solution and at a water/chloroform interface}, journal = {Supramol. Chem.}, volume = {12}, number = {1, Sp. Iss. SI}, year = {2000}, note = {International Symposium on Supramolecular Chemistry, FUKUOKA, JAPAN, 1997}, pages = {27+}, author = {Troxler, L and Marc Baaden and Bohmer, V and Wipff, G} } @article {2000|1501, title = {Dependence of NMR isotropic shift averages and nuclear shielding tensors on the internal rotation of the functional group X about the C-X bond in seven simple vinylic derivatives H2C=CH-X}, journal = {Mol. Phys.}, volume = {98}, number = {6}, year = {2000}, month = {mar}, pages = {329{\textendash}342}, author = {Marc Baaden and Granger, P and Strich, A} } @mastersthesis {2000|1560, title = {Etudes de mol{\'e}cules extractantes en solution et aux interfaces liquide-liquide: aspects structuraux et m{\'e}canistiques des effets de synergie}, year = {2000}, note = {(N�: 3630), 2 vol., 218/42 pages.}, school = {Universit{\'e} Louis Pasteur, Strasbourg}, type = {phd}, author = {Marc Baaden} } @article {2000|1958, title = {Generating ensemble averages for small proteins from extended conformations by Monte Carlo simulations}, journal = {Phys. Rev. Lett.}, volume = {85}, number = {1}, year = {2000}, month = {jul}, pages = {206{\textendash}209}, doi = {10.1103/PhysRevLett.85.206}, author = {Philippe Derreumaux} } @article {2000|1460, title = {Interaction of trivalent lanthanide cations with phosphoryl derivatives, amide, anisole, pyridine and triazine ligands: a quantum mechanics study}, journal = {J. Alloys Compd.}, volume = {303}, year = {2000}, note = {22nd Rare Earth Research Conference, ARGONNE, ILLINOIS, JUL 11-15, 1999}, month = {may}, pages = {104{\textendash}111}, author = {Marc Baaden and Berny, F and Boehme, C and Muzet, N and Schurhammer, R and Wipff, G} } @inbook {2000|1559, title = {Interfacial features of assisted liquid-liquid extraction of uranyl and cesium salts: a molecular dynamics investigation}, booktitle = {ACS Symposium Series 757}, year = {2000}, pages = {71{\textendash}85}, publisher = {Oxford University Press, New York}, organization = {Oxford University Press, New York}, chapter = {Calixarenes for separations}, author = {Marc Baaden and F. Berny and N. Muzet and L. Troxler and G. Wipff}, editor = {G. Lumetta, R.D. Rogers, and A.S. Gopalan} } @article {2000|1481, title = {M3+ lanthanide cation solvation by acetonitrile: The role of cation size, counterions, and polarization effects investigated by molecular dynamics and quantum mechanical simulations}, journal = {J. Phys. Chem. A}, volume = {104}, number = {32}, year = {2000}, month = {aug}, pages = {7659{\textendash}7671}, author = {Marc Baaden and Berny, F and Madic, C and Wipff, G} } @article {2000|1431, title = {A mechanism for RecA-promoted sequence homology recognition and strand exchange between single-stranded DNA and duplex DNA, via triple-helical intermediates}, journal = {J. Biomol. Struct. Dyn.}, number = {Sp. Iss. S1}, year = {2000}, note = {11th Conversation in Biomolecular Stereodynamics, ALBANY, NEW YORK, JUN 15-19, 1999}, pages = {147{\textendash}153}, author = {Bertucat, G and Lavery, R and Chantal Pr{\'e}vost} } @article {2000|1899, title = {Predicting helical hairpins from sequences by Monte Carlo simulations}, journal = {J. Comput. Chem.}, volume = {21}, number = {7}, year = {2000}, month = {may}, pages = {582{\textendash}589}, doi = {10.1002/(SICI)1096-987X(200005)21:7<582}, author = {Philippe Derreumaux} } @conference {2000|1532, title = {Separation of radioactive cations by liquid-liquid extraction: computer simulations of water / oil solutions of salts and ionophores}, booktitle = {Proceedings of the Euradwaste 1999 conference}, year = {2000}, pages = {390{\textendash}393}, address = {EC, Luxembourg}, author = {Marc Baaden and F. Berny and N. Muzet and R. Schurhammer and G. Wipff}, editor = {C. Davies} } @article {2000|1836, title = {Theoretical studies of the possible origin of intrinsic static bends in double helical DNA}, journal = {J. Am. Chem. Soc.}, volume = {122}, number = {51}, year = {2000}, pages = {12778{\textendash}12785}, author = {Alexey K Mazur} } @article {1999|1803, title = {Ab initio prediction of polypeptide structure from its sequence}, journal = {Comput. Phys. Commun.}, volume = {122}, number = {Sp. Iss. SI}, year = {1999}, month = {sep}, pages = {139{\textendash}140}, doi = {10.1016/S0010-4655(99)00299-4}, author = {Philippe Derreumaux} } @article {1999|1455, title = {{D}{N}{A} structure and polymerase fidelity}, journal = {J. Mol. Biol.}, volume = {293}, year = {1999}, month = {nov}, pages = {835{\textendash}853}, author = {Y Timsit} } @article {1999|1873, title = {From polypeptide sequences to structures using Monte Carlo simulations and an optimized potential}, journal = {J. Chem. Phys.}, volume = {111}, number = {5}, year = {1999}, month = {aug}, pages = {2301{\textendash}2310}, doi = {10.1063/1.479501}, author = {Philippe Derreumaux} } @article {1999|1856, title = {Internal correlations in minor groove profiles of experimental and computed B-DNA conformations}, journal = {J. Mol. Biol.}, volume = {290}, year = {1999}, pages = {373{\textendash}377}, author = {Alexey K Mazur} } @article {1999, title = {{L}eft-handed {D}{N}{A} crossovers. {I}mplications for {D}{N}{A}-{D}{N}{A} recognition and structural alterations}, journal = {J. Biomol. Struct. Dyn.}, volume = {16}, year = {1999}, month = {feb}, pages = {775{\textendash}785}, author = {Y Timsit and Shatzky-Schwartz, M. and Shakked, Z.} } @article {1999|1600, title = {A molecular model for RecA-promoted strand exchange via parallel triple-stranded helices}, journal = {Biophys. J.}, volume = {77}, year = {1999}, month = {sep}, pages = {1562{\textendash}76}, abstract = {

A number of studies have concluded that strand exchange between a RecA-complexed DNA single strand and a homologous DNA duplex occurs via a single-strand invasion of the minor groove of the duplex. Using molecular modeling, we have previously demonstrated the possibility of forming a parallel triple helix in which the single strand interacts with the intact duplex in the minor groove, via novel base interactions (Bertucat et al., J. Biomol. Struct. Dynam. 16:535-546). This triplex is stabilized by the stretching and unwinding imposed by RecA. In the present study, we show that the bases within this triplex are appropriately placed to undergo strand exchange. Strand exchange is found to be exothermic and to result in a triple helix in which the new single strand occupies the major groove. This structure, which can be equated to so-called R-form DNA, can be further stabilized by compression and rewinding. We are consequently able to propose a detailed, atomic-scale model of RecA-promoted strand exchange. This model, which is supported by a variety of experimental data, suggests that the role of RecA is principally to prepare the single strand for its future interactions, to guide a minor groove attack on duplex DNA, and to stabilize the resulting, stretched triplex, which intrinsically favors strand exchange. We also discuss how this mechanism can incorporate homologous recognition.

}, doi = {10.1016/S0006-3495(99)77004-9}, author = {Bertucat, G and Richard Lavery and Chantal Pr{\'e}vost} } @booklet {1999|1558, title = {Molecular Modeling with the ChemOffice Ultra 4.5 program suite.}, year = {1999}, author = {Marc Baaden} } @article {1999|1845, title = {Symplectic integration of closed chain rigid body dynamics with internal coordinate equations of motion}, journal = {J. Chem. Phys.}, volume = {111}, number = {4}, year = {1999}, pages = {1407{\textendash}1414}, author = {Alexey K Mazur} } @article {1998|1835, title = {Accurate DNA dynamics without accurate long range electrostatics}, journal = {J. Am. Chem. Soc.}, volume = {120}, number = {42}, year = {1998}, pages = {10928{\textendash}10937}, author = {Alexey K Mazur} } @article {1998|1454, title = {{D}{N}{A} crossovers and type {I}{I} {D}{N}{A} topoisomerases: {A} thermodynamical study}, journal = {J. Mol. Biol.}, volume = {284}, year = {1998}, month = {dec}, pages = {1279{\textendash}1287}, author = {Sikorav, J.L. and Duplantier, B. and Jannink, G. and Y Timsit} } @article {1998|1872, title = {Finding the low-energy forms of avian pancreatic polypeptide with the diffusion-process-controlled Monte Carlo method}, journal = {J. Chem. Phys.}, volume = {109}, number = {4}, year = {1998}, month = {jul}, pages = {1567{\textendash}1574}, doi = {10.1063/1.476708}, author = {Philippe Derreumaux} } @article {1998|1530, title = {Folding and Aggregation of Designed Protein Chains}, journal = {Proc. Natl. Acad. Sci. Usa}, volume = {95}, year = {1998}, pages = {12930{\textendash}1293}, author = {R.A. Broglia and G. Tiana and S. Pasquali and H. E. Roman and E. Vigezzi} } @article {1998, title = {{H}ydration and recognition of methylated {C}p{G} steps in {D}{N}{A}}, journal = {Embo J.}, volume = {17}, year = {1998}, month = {may}, pages = {2709{\textendash}2718}, author = {Mayer-Jung, C. and Moras, D. and Y Timsit} } @article {1998|1859, title = {Hierarchy of fast motions in protein dynamics}, journal = {J. Phys. Chem. B}, volume = {102}, number = {2}, year = {1998}, pages = {473{\textendash}479}, author = {Alexey K Mazur} } @article {1998|1624, title = {The loop opening/closing motion of the enzyme triosephosphate isomerase}, journal = {Biophys. J.}, volume = {74}, number = {1}, year = {1998}, month = {jan}, pages = {72{\textendash}81}, author = {Philippe Derreumaux and Schlick, T.} } @article {1998|1659, title = {A model for parallel triple helix formation by RecA: single-single association with a homologous duplex via the minor groove}, journal = {J. Biomol. Struct. Dyn.}, volume = {16}, year = {1998}, month = {dec}, pages = {535{\textendash}46}, abstract = {

The nucleoproteic filaments of RecA polymerized on single stranded DNA are able to integrate double stranded DNA in a coaxial arrangement (with DNA stretched by a factor 1.5), to recognize homologous sequences in the duplex and to perform strand exchange between the single stranded and double stranded molecules. While experimental results favor the hypothesis of an invasion of the minor groove of the duplex by the single strand, parallel minor groove triple helices have never been isolated or even modeled, the minor groove offering little space for a third strand to interact. Based on an internal coordinate modeling study, we show here that such a structure is perfectly conceivable when the two interacting oligomers are stretched by a factor 1.5, in order to open the minor groove of the duplex. The model helix presents characteristics that coincide with known experimental data on unwinding, base pair inclination and inter-proton distances. Moreover, we show that extension and unwinding stabilize the triple helix. New patterns of triplet interaction via the minor groove are presented.

}, doi = {10.1080/07391102.1998.10508268}, author = {Bertucat, G and Richard Lavery and Chantal Pr{\'e}vost} } @article {1998|1453, title = {{S}ymmetry and chirality in topoisomerase {I}{I}-{D}{N}{A} crossover recognition}, journal = {J. Mol. Biol.}, volume = {284}, year = {1998}, month = {dec}, pages = {1289{\textendash}1299}, author = {Y Timsit and Duplantier, B. and Jannink, G. and Sikorav, J.L.} } @article {1998|1822, title = {A soft, mean{\textendash}field potential derived from crystal contacts for predicting protein{\textendash}protein interactions}, journal = {J. Mol. Biol.}, volume = {283}, number = {5}, year = {1998}, month = {nov}, pages = {1037{\textendash}1047}, author = {Robert, C H and Janin, J} } @article {1997|1680, title = {Collective-variable Monte Carlo simulation of DNA}, journal = {J. Comp. Chem.}, volume = {18}, year = {1997}, pages = {2001{\textendash}2011}, author = {H. Gabb and Chantal Pr{\'e}vost and G. Bertucat and Charles H. Robert and Richard Lavery} } @article {1997|1854, title = {Common molecular dynamics algorithms revisited: Accuracy and optimal time steps of St{\H o}rmer-leapfrog integrators}, journal = {J. Comput. Phys.}, volume = {136}, number = {2}, year = {1997}, pages = {354{\textendash}365}, author = {Alexey K Mazur} } @article {1997|1871, title = {A diffusion process-controlled Monte Carlo method for finding the global energy minimum of a polypeptide chain .1. Formulation and test on a hexadecapeptide}, journal = {J. Chem. Phys.}, volume = {106}, number = {12}, year = {1997}, month = {mar}, pages = {5260{\textendash}5270}, doi = {10.1063/1.473525}, author = {Philippe Derreumaux} } @article {1997|1819, title = {Distortions of the DNA double helix induced by 1,3-trans-diamminedichloroplatinum(II)-intrastrand cross-link: An internal coordinate molecular modeling study}, journal = {J. Biomol. Struct. Dyn.}, volume = {14}, number = {6}, year = {1997}, month = {jun}, pages = {703{\textendash}714}, abstract = {

A trans-diamminedichloroplatinum(II) (trans-DDP) intrastrand adduct within the sequence d(TCTG*TG*TC).d(GACACAGA) (where G* represents a platinated guanine) is modeled on the basis of qualitative experimental data concerning global unwinding and curvature as well as information on base pairing. Modeling is performed using the internal coordinate JUMNA program, specific to nucleic acids, and modified to include the possibility of covalently bound ligands. Calibration of the energy functions representing the Pt-N7 bond with guanine is described. The platinum atom and the platinum-nitrogen bonds are parameterized for use in the H{\"u}ckel Del Re method to calculate monopoles at each atom. These monopoles are consistent with the Flex force field included in Jumna. By developing an appropriate minimization protocol we are able to generate stable, distorted three-dimensional structures compatible with the experimental data and including an unusually high global unwinding. No a priori geometric assumptions are made in generating these structures.

}, doi = {10.1080/07391102.1997.10508173}, author = {Chantal Pr{\'e}vost and Boudvillain, M and Beudaert, P and Leng, M and Lavery, R and Vovelle, F} } @article {1997, title = {{E}ffect of cytosine methylation on {D}{N}{A}-{D}{N}{A} recognition at {C}p{G} steps}, journal = {J. Mol. Biol.}, volume = {270}, year = {1997}, month = {jul}, pages = {328{\textendash}335}, author = {Mayer-Jung, C. and Moras, D. and Y Timsit} } @article {1997|1870, title = {Folding a 20 amino acid alpha beta peptide with the diffusion process-controlled Monte Carlo method}, journal = {J. Chem. Phys.}, volume = {107}, number = {6}, year = {1997}, month = {aug}, pages = {1941{\textendash}1947}, doi = {10.1063/1.474546}, author = {Philippe Derreumaux} } @article {1997|1852, title = {Quasi-Hamiltonian equations of motion for internal coordinate molecular dynamics of polymers}, journal = {J. Comput. Chem.}, volume = {18}, number = {11}, year = {1997}, pages = {1354{\textendash}1364}, author = {Alexey K Mazur} } @article {1996, title = {{C}ruciform structures and functions}, journal = {Q. Rev. Biophys.}, volume = {29}, year = {1996}, month = {dec}, pages = {279{\textendash}307}, author = {Y Timsit and Moras, D.} } @article {1996|1666, title = {Finding and visualizing nucleic acid base stacking}, journal = {J Mol Graph}, volume = {14}, number = {1}, year = {1996}, month = {feb}, pages = {6{\textendash}11}, author = {Gabb, H A and Sanghani, S R and Charles H. Robert and Chantal Pr{\'e}vost} } @article {1996|1660, title = {Molecular modelling study of the netropsin complexation with a nucleic acid triple helix}, journal = {J. Biomol. Struct. Dyn.}, volume = {14}, year = {1996}, month = {dec}, pages = {293{\textendash}302}, abstract = {

A detailed molecular mechanical study has been made on the complexes of netropsin with the double stranded oligonucleotide (dA)12.(dT)12 and with the triple helix (dA)12.(dT)12.(dT)12. The complexes were built using computer graphics and energy refined using JUMNA program. In agreement with circular dichroism experiments we have shown that 3 netropsins can bind the minor grooves of the triple helix and of the double helix. The groove geometry in the duplex and in the triplex is very similar. However a detailed analysis of the energetic terms shows, in agreement with thermal denaturation studies, that the affinity of netropsin toward the double helices is larger than towards triple helices.

}, doi = {10.1080/07391102.1996.10508125}, author = {Vovelle, F and Chantal Pr{\'e}vost and Durand, M and Maurizot, J C} } @article {1995|1681, title = {Efficient conformational space sampling for nucleosides using internal coordinate Monte-Carlo simulations and a modified furanose description}, journal = {J. Comput. Chem.}, volume = {16}, year = {1995}, month = {jun}, pages = {667{\textendash}680}, chapter = {667}, abstract = {

Internal coordinates can be very helpful in modeling large biomacromolecules because freezing stiffer degrees of freedom, such as bond lengths, strongly reduces the number of variables describing the system. This, however, leads to difficulties in treating flexible rings such as the furanose sugars of nucleic acids or the proline residues of proteins, for which internal coordinates are an overcomplete description. We present here a new, internal coordinate furanose model based on the pseudorotational variables phase and amplitude which avoids having to solve a ring closure problem. The choice of a two- rather than a four-variable description is justified by a detailed analysis of molecular dynamic simulations. The efficiency and accuracy of the method are also demonstrated using extensive Monte Carlo simulations. This method of ring treatment is fast and well adapted to macromolecular simulations. (C) 1995 by John Wiley \& Sons, Inc.

}, issn = {0192-8651}, author = {Gabb, HA and Richard Lavery and Chantal Pr{\'e}vost} } @article {1995|1601, title = {Estimating friction coefficients of mixed globular/chain molecules, such as protein/{DNA} complexes}, journal = {Biophys. J.}, volume = {69}, number = {3}, year = {1995}, month = {sep}, pages = {840{\textendash}848}, author = {Charles H. Robert} } @article {1995|1632, title = {Investigation of the conformational properties of a {$\beta$}-(1-3) branched {$\beta$}-(1-6) heptasacchardie elicitor and its analogues by internal coordinate stochastic dynamics}, journal = {Carbohydr. Res.}, volume = {279}, year = {1995}, pages = {41{\textendash}57}, author = {Michael G. Petukhov and Alexey K Mazur and Lyudmila A. Elyakova} } @article {1995|1988, title = {LONG TIMESTEP DYNAMICS OF PEPTIDES BY THE DYNAMICS DRIVER APPROACH}, journal = {Proteins-structure Function and Genetics}, volume = {21}, number = {4}, year = {1995}, month = {apr}, pages = {282{\textendash}302}, doi = {10.1002/prot.340210403}, author = {Philippe Derreumaux and SCHLICK, T} } @article {1995|1869, title = {A NEW SPECTROSCOPIC MOLECULAR MECHANICS FORCE-FIELD - PARAMETERS FOR PROTEINS}, journal = {J. Chem. Phys.}, volume = {102}, number = {21}, year = {1995}, month = {jun}, pages = {8586{\textendash}8605}, doi = {10.1063/1.468848}, author = {Philippe Derreumaux and VERGOTEN, G} } @article {1995, title = {Radiation-induced damages in single- and double-stranded DNA}, journal = {Int. J. Radiat. Biol.}, volume = {67}, year = {1995}, month = {feb}, pages = {169{\textendash}76}, abstract = {

In the present study, we searched for possible effects of DNA strandedness (single and double), on two types of damages, frank strand breaks (FSB, observed at neutral pH) and alkali labile sites (ALS, leading to breaks at alkaline pH) induced by irradiation with gamma-rays (60Co) or fast neutrons (p34,Be). Sequencing gel electrophoresis allowed us to follow the occurrence of these damages at each nucleotide site in single (ss-ss), double (ds-ds), and half single-half double (ss-ds and ds-ss) stranded oligonucleotides. Globally, in DNA with random sequences of bases, no differences in FSB and ALS yield between the single and the double-stranded conformations were observed. One observes, however, an increased alkaline lability at some guanine sites belonging to single-stranded region of ss-ds or ds-ss. Nevertheless, strandedness influences the radiosensitivity of some particular sequences, i.e. the 5\&$\#$39;-AATT sequences. This region is less radiosensitive than the rest of DNA in the double helical, but not in the single-stranded conformation. The results are discussed in terms of DNA conformation.

}, author = {Isabelle, V and Chantal Pr{\'e}vost and Spotheim-Maurizot, M and Sabattier, R and Charlier, M} } @article {1995|1452, title = {{S}elf-fitting and self-modifying properties of the {B}-{D}{N}{A} molecule}, journal = {J. Mol. Biol.}, volume = {251}, year = {1995}, month = {sep}, pages = {629{\textendash}647}, author = {Y Timsit and Moras, D.} } @article {1995|1969, title = {Significance of bound water to local chain conformations in protein crystals}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {92}, number = {16}, year = {1995}, month = {aug}, pages = {7600{\textendash}7604}, author = {Robert, C H and Ho, P S} } @article {1995|1941, title = {Solution structure of oligonucleotides covalently linked to a psoralen derivative.}, journal = {Nucleic Acids Res.}, volume = {23}, number = {5}, year = {1995}, month = {mar}, pages = {788{\textendash}795}, abstract = {

Psoralen (pso) was attached via its C-5 position to the 5\&$\#$39;-phosphate group of an oligodeoxynucleotide d(TAAGCCG) by a hexamethylene linker (m6). Complex formation between pso-m6-d(TAAGCCG) and the complementary strands d(CGGCTTA)[7-7mer] or d(CGGCTTAT)[7-8mer] was investigated by nuclear magnetic resonance in aqueous solution. Structural informations derived from DQF-COSY and NOESY maps, revealed that the mini double helix adopts a B-form conformation and that the deoxyriboses preferentially adopt a C2\&$\#$39;-endo conformation. The nOe connectivities observed between the protons of the bases or the sugars in each duplex, and the protons of the psoralen and the hexamethylene chain, led us to propose a model involving an equilibrium between two conformations due to different locations of the psoralen. Upon UV-irradiation, the psoralen moiety cross-linked the two DNA strands at the level of 5\&$\#$39;TpA3\&$\#$39; sequences. NMR studies of the single major photo-cross-linked duplex pso-m6-d(TAAGCCG) and d(CGGCTTA) were performed. The stereochemistry of the diadduct is indeed cis-syn at both cyclobutane rings. In addition, the effects of this diadduct on the helical structure are analyzed in detail.

}, keywords = {Base Sequence, chemistry, chemistry/radiation effects, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Sequence Data, Nucleic Acid Conformation, Oligodeoxyribonucleotides, Psoralens, Solutions}, author = {O. Bornet and Chantal Pr{\'e}vost and F. Vovelle and M. Chassignol and N. T. Thuong and G. Lancelot} } @article {1995|1898, title = {A VIBRATIONAL MOLECULAR-FORCE FIELD OF MODEL COMPOUNDS WITH BIOLOGICAL INTEREST .4. PARAMETERS FOR THE DIFFERENT GLYCOSIDIC LINKAGES OF OLIGOSACCHARIDES}, journal = {J. Comput. Chem.}, volume = {16}, number = {2}, year = {1995}, month = {feb}, pages = {188{\textendash}199}, doi = {10.1002/jcc.540160206}, author = {Dauchez, M and Philippe Derreumaux and LAGANT, P and VERGOTEN, G} } @article {1994|1584, title = {The catalytic mechanism of {$\alpha$}-amylases based upon enzyme crystal structures and model building calculations}, journal = {Biochem. Biophys. Res. Commun.}, volume = {204}, year = {1994}, pages = {297{\textendash}302}, author = {Alexey K Mazur and R. Haser and F. Payan} } @article {1994, title = {{D}{N}{A} self-fitting: the double helix directs the geometry of its supramolecular assembly}, journal = {Embo J.}, volume = {13}, year = {1994}, month = {jun}, pages = {2737{\textendash}2746}, author = {Y Timsit and Moras, D.} } @article {1994|1992, title = {FORCE-FIELD AND VIBRATIONAL-SPECTRA OF OLIGOSACCHARIDES WITH DIFFERENT GLYCOSIDIC LINKAGES .1. TREHALOSE DIHYDRATE, SOPHOROSE MONOHYDRATE AND LAMINARIBIOSE}, journal = {Spectrochimica Acta Part A-molecular and Biomolecular Spectroscopy}, volume = {50}, number = {1}, year = {1994}, month = {jan}, pages = {87{\textendash}104}, doi = {10.1016/0584-8539(94)80117-7}, author = {Dauchez, M and Philippe Derreumaux and LAGANT, P and VERGOTEN, G and SEKKAL, M and LEGRAND, P} } @article {1994|1993, title = {FORCE-FIELD AND VIBRATIONAL-SPECTRA OF OLIGOSACCHARIDES WITH DIFFERENT GLYCOSIDIC LINKAGES .2. MALTOSE MONOHYDRATE, CELLOBIOSE AND GENTIOBIOSE}, journal = {Spectrochimica Acta Part A-molecular and Biomolecular Spectroscopy}, volume = {50}, number = {1}, year = {1994}, month = {jan}, pages = {105{\textendash}118}, doi = {10.1016/0584-8539(94)80118-5}, author = {Dauchez, M and LAGANT, P and Philippe Derreumaux and VERGOTEN, G and SEKKAL, M and SOMBRET, B} } @article {1994|1968, title = {Three-dimensional structure of extended chromatin fibers as revealed by tapping-mode scanning force microscopy}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {91}, number = {24}, year = {1994}, month = {nov}, pages = {11621{\textendash}11625}, abstract = {Unfixed chicken erythrocyte chromatin fibers in very low salt have been imaged with a scanning force microscope operating in the tapping mode in air at ambient humidity. These images reveal a three-dimensional organization of the fibers. The planar "zig-zag" conformation is rare, and extended "beads-on-a-string" fibers are seen only in chromatin depleted of histones H1 and H5. Glutaraldehyde fixation reveals very similar structures. Fibers fixed in 10 mM salt appear somewhat more compacted. These results, when compared with modeling studies, suggest that chromatin fibers may exist as irregular three-dimensional arrays of nucleosomes even at low ionic strength.}, keywords = {Animals, Atomic Force, Biological, Chickens, Chromatin, Fixatives, Histones, Microscopy, Models, Non-P.H.S., Non-U.S. Gov{\textquoteright}t, Osmolar Concentration, P.H.S., Research Support, Sodium Chloride, U.S. Gov{\textquoteright}t}, author = {S. H. Leuba and G. Yang and C. Robert and B. Samori and K. van Holde and J. Zlatanova and C. Bustamante} } @article {1994|1897, title = {A TRUNCATED NEWTON MINIMIZER ADAPTED FOR CHARMM AND BIOMOLECULAR APPLICATIONS}, journal = {J. Comput. Chem.}, volume = {15}, number = {5}, year = {1994}, month = {may}, pages = {532{\textendash}552}, doi = {10.1002/jcc.540150506}, author = {Philippe Derreumaux and ZHANG, GH and SCHLICK, T and BROOKS, B} } @article {1994|1909, title = {THE USE OF THE SPASIBA SPECTROSCOPIC POTENTIAL FOR REPRODUCING THE STRUCTURES AND VIBRATIONAL FREQUENCIES OF A SERIES OF ACIDS - ACETIC-ACID, PIVALIC ACID, SUCCINIC ACID, ADIPIC ACID AND L-GLUTAMIC ACID}, journal = {J. Mol. Struct.}, volume = {317}, number = {1-2}, year = {1994}, month = {jan}, pages = {171{\textendash}184}, doi = {10.1016/0022-2860(93)07860-Y}, author = {CHHIBA, M and Philippe Derreumaux and VERGOTEN, G} } @article {1993|1907, title = {COMPARISON OF THE IR AND RAMAN VIBRATIONAL FREQUENCIES AND INTENSITIES OF ALKANES USING THE AMBER AND SPASIBA FORCE-FIELDS - APPLICATION TO ETHANE, AND GAUCHE-N-BUTANE AND TRANS-N-BUTANE}, journal = {J. Mol. Struct.}, volume = {295}, year = {1993}, month = {may}, pages = {223{\textendash}232}, doi = {10.1016/0022-2860(93)85022-M}, author = {Philippe Derreumaux and LAGANT, P and VERGOTEN, G} } @article {1993|1908, title = {HARMONIC AND MOLECULAR-DYNAMICS OF N-OCTANE - COMPARISON BETWEEN THE AMBER AND SPASIBA FORCE-FIELDS}, journal = {J. Mol. Struct.}, volume = {295}, year = {1993}, month = {may}, pages = {233{\textendash}244}, doi = {10.1016/0022-2860(93)85023-N}, author = {Philippe Derreumaux and VERGOTEN, G} } @article {1993|1996, title = {INFLUENCE OF THE SPECTROSCOPIC POTENTIAL-ENERGY FUNCTION SPASIBA ON MOLECULAR-DYNAMICS OF PROTEINS - COMPARISON WITH THE AMBER POTENTIAL}, journal = {Theochem-journal of Molecular Structure}, volume = {105}, year = {1993}, month = {oct}, pages = {55{\textendash}64}, author = {Philippe Derreumaux and VERGOTEN, G} } @article {1993|1673, title = {Investigation of conformational equilibrium of polypeptides by internal coordinate stochastic dynamics: Met-enkephalin}, journal = {J. Biomol. Struct. Dyn.}, volume = {10}, year = {1993}, pages = {143{\textendash}167}, author = {Vladimir E. Dorofeyev and Alexey K Mazur} } @article {1993, title = {Multiple attack in the porcine pancreatic alpha-amylase hydrolysis of amylose and amylopectine}, journal = {Arch. Biochem. Biophys.}, volume = {306}, year = {1993}, pages = {29{\textendash}38}, author = {Alexey K Mazur and H. Nakatani} } @article {1993|1682, title = {Optimization of numerical algorithms for internal coordinate molecular dynamics}, journal = {J. Comput. Phys.}, volume = {107}, year = {1993}, pages = {359{\textendash}366}, author = {Vladimir E. Dorofeyev and Alexey K Mazur} } @article {1993|1628, title = {Persistence analysis of the static and dynamical helix deformations of DNA oligonucleotides: application to the crystal structure and molecular dynamics simulation of d(CGCGAATTCGCG)2}, journal = {Biopolymers}, volume = {33}, year = {1993}, month = {mar}, pages = {335{\textendash}50}, abstract = {

A theory and graphical presentation for the analysis of helix structure and deformations in oligonucleotides is presented. The parameters \"persistence\" and \"flexibility\" as defined in the configurational statistics of polymers of infinite length are reformulated at the oligonucleotide level in an extension of J. A. Schellman\&$\#$39;s method [(1974) Biopolymers, Vol. 17, pp. 217-226], and used as a basis for a systematic \"Persistence Analysis\" of the helix deformation properties for all possible subsequences in the structure. The basis for the analysis is a set of link vectors referenced to individual base pairs, and is limited to sequences exhibiting only perturbed rod-like behavior, i.e., below the threshold for supercoiling. The present application of the method is concerned with a physical model for the angular component of bending, so the link vectors are defined as the unit components of a global helix axis obtained by the procedure \"Curves\" of R. Lavery and H. Sklenar [(1988) J. Biomol. Struct. Dynam., Vol. 6, pp. 63-91; (1989) ibid., Vol. 6, pp. 655-667]. A discussion of the relationship between global bending and relative orientation of base pairs is provided. Our approach is illustrated by analysis of some model oligonucleotide structures with intrinsic kinks, the crystal structure of the dodecamer d(CGCGAATTCGCG)2, and the results of two molecular dynamics simulations on this dodecamer using two variations of the GROMOS force field. The results indicate that essentially all aspects of curvature in short oligonucleotides can be determined, such as the position and orientation of each bend, the sharpness or smoothness, and the location and linearity of subsequences. In the case of molecular dynamics simulations, where a Boltzmann ensemble of structures is analyzed, the spatial extent of the deformations (flexibility) is also considered.

}, doi = {10.1002/bip.360330303}, author = {Chantal Pr{\'e}vost and Louise-May, S and Ravishanker, G and Richard Lavery and Beveridge, D L} } @article {1993|1906, title = {THE STRUCTURES AND VIBRATIONAL FREQUENCIES OF A SERIES OF ALKANES USING THE SPASIBA FORCE-FIELD}, journal = {J. Mol. Struct.}, volume = {295}, year = {1993}, month = {may}, pages = {203{\textendash}221}, doi = {10.1016/0022-2860(93)85021-L}, author = {Philippe Derreumaux and Dauchez, M and VERGOTEN, G} } @article {1993|1896, title = {VIBRATIONAL MOLECULAR-FORCE FIELD OF MODEL COMPOUNDS WITH BIOLOGIC INTEREST .2. HARMONIC DYNAMICS OF BOTH ANOMERS OF GLUCOSE IN THE CRYSTALLINE STATE}, journal = {J. Comput. Chem.}, volume = {14}, number = {3}, year = {1993}, month = {mar}, pages = {263{\textendash}277}, doi = {10.1002/jcc.540140303}, author = {Dauchez, M and Philippe Derreumaux and VERGOTEN, G} } @article {1992, title = {{C}rystallization of {D}{N}{A}}, journal = {Meth. Enzymol.}, volume = {211}, year = {1992}, pages = {409{\textendash}429}, author = {Y Timsit and Moras, D.} } @article {1992|1626, title = {Global optimization of conformation energy of polypeptides by tunnel algorithm}, journal = {Biophysics}, volume = {37}, year = {1992}, pages = {226{\textendash}230}, author = {M. G. Petuhov and V. E. Dorofeyev and R. A. Abagyan and Alexey K Mazur} } @article {1992|1596, title = {Kinetics of pore-mediated release of marker molecules from liposomes or cells}, journal = {Biophys. Chem.}, volume = {42}, number = {3}, year = {1992}, month = {apr}, pages = {291{\textendash}296}, author = {Schwarz, G and Charles H. Robert} } @article {1992|1722, title = {Modeling of the possible binding modes of substrates in the active site of {Taka-Amylase A}}, journal = {Mol. Biol.}, volume = {26}, year = {1992}, pages = {292{\textendash}299}, author = {M. G. Petuhov and Alexey K Mazur} } @article {1992|1594, title = {Multiple attack in the mechanism of endoglucanase action}, journal = {Bioorg. Chem.}, volume = {18}, year = {1992}, pages = {1141{\textendash}1163}, author = {P. V. Bezukladnikov and L. A. Elyakova and Alexey K Mazur} } @article {1992|1697, title = {Schematic methods for probabilistic enzyme kinetics}, journal = {J. Theor. Biol.}, volume = {155}, year = {1992}, pages = {387{\textendash}407}, author = {Alexey K Mazur and A. V. Kuchinski} } @article {1991|1503, title = {{B}ase-pairing shift in the major groove of ({C}{A})n tracts by {B}-{D}{N}{A} crystal structures}, journal = {Nature}, volume = {354}, year = {1991}, month = {nov}, pages = {167{\textendash}170}, author = {Y Timsit and Vilbois, E. and Moras, D.} } @article {1991|1593, title = {A combined study of aggregation, membrane affinity and pore activity of natural and modified melittin}, journal = {Biochim. Biophys. Acta}, volume = {1069}, number = {1}, year = {1991}, month = {oct}, pages = {77{\textendash}86}, author = {Stankowski, S and Pawlak, M and Kaisheva, E and Charles H. Robert and Schwarz, G} } @article {1991|1683, title = {Derivation and testing of explicit equations of motion for polymers described by internal coordinates}, journal = {J. Comput. Phys.}, volume = {92}, year = {1991}, pages = {261{\textendash}272}, author = {Alexey K Mazur and Vladimir E. Dorofeyev and Ruben A. Abagyan} } @article {1991|1987, title = {EFFECT OF UREY-BRADLEY-SHIMANOUCHI FORCE-FIELD ON THE HARMONIC DYNAMICS OF PROTEINS}, journal = {Proteins-structure Function and Genetics}, volume = {11}, number = {2}, year = {1991}, pages = {120{\textendash}132}, doi = {10.1002/prot.340110205}, author = {Philippe Derreumaux and VERGOTEN, G} } @article {1991, title = {{G}roove-backbone interaction in {B}-{D}{N}{A}. {I}mplication for {D}{N}{A} condensation and recombination}, journal = {J. Mol. Biol.}, volume = {221}, year = {1991}, month = {oct}, pages = {919{\textendash}940}, author = {Y Timsit and Moras, D.} } @article {1991|1767, title = {Mechanism of the rearrangement of the bicyclo [4.2. 0] octan system to the bicyclo [3.2. 1] octan system}, journal = {Tetrahedron}, volume = {47}, year = {1991}, pages = {229{\textendash}238}, abstract = {

A concerted mechanism has been demonstrated for the rearrangement of a tetracyclic ion including a bicyclo [4.2.0] octan system to hibaol, using a selective deuteration on the migrating bond. The stereochemistry of the selectively introduced deuterium was determined by three routes: 1. comparison of the high field 1H NMR spectra of the deuterated and undeuterated compounds, using double irradiation; 2. high field 1H NMR, coupled with molecular mechanics calculations; 3. two dimensional homo and heteronuclear NMR.

}, doi = {10.1016/S0040-4020(01)80919-4}, url = {http://www.sciencedirect.com/science/article/pii/S0040402001809194}, author = {Bastard, Josette and Do Khac, Duc and Fetizon, Marcel and Chantal Pr{\'e}vost and Beloeil, Jean-Claude} } @conference {1991|1580, title = {Methodological considerations on molecular dynamics simulations of DNA oligonucleotides}, booktitle = {AIP Conference Proceedings}, year = {1991}, month = {oct}, publisher = {AIP}, organization = {AIP}, abstract = {

Methodological aspects of solvent effects, simulation protocol, analysis and visualization of results, accuracy, and sensitivity of results to force field parametrization are discussed for molecular dynamics simulation on oligonucleotides. Recent results comparing AMBER, CHARMM and GROMOS force fields are included. The calculation of build\‚{\"A}{\^e}up curves for the nuclear Overhauser effect from simulations is also described.

}, doi = {10.1063/1.41314}, author = {Beveridge, DL and Swaminathan, S and Ravishanker, G and Withka, J and Srinivasan, J and Chantal Pr{\'e}vost and Louise-May, S and DiCapua, FM and Bolton, PH} } @article {1991|1762, title = {Molecular dynamics of polymers with fixed internal structure: Choice of models and methods}, journal = {Russ. J. Phys. Chem.}, volume = {65}, year = {1991}, pages = {2548{\textendash}2552}, author = {V. E. Dorofeyev and Alexey K Mazur} } @article {1991|1719, title = {NMR and conformational studies of the cyclobutane ring involved in the bicyclo [4.2. 0] octane system of a tetracyclic diterpene structure}, journal = {Magn. Reson. Chem.}, volume = {29}, year = {1991}, pages = {870{\textendash}877}, abstract = {

Conformational studies were performed on the bicyclo [4.2.0] octane system of a series of related tetracyclic diterpenes, using molecular mechanics and 1H NMR. Both methods gave compatible results, but did not permit the deduction of any quantitative relationship linking the vicinal coupling constants to the cyclobutane dihedral angles. Nevertheless, the Karplus relationship allowed a qualitative interpretation of the coupling constants in terms of conformation. A set of characteristic 1H NMR coupling constants was obtained which allows the interpretation of the 1H NMR spectrum of any compound presenting a similar system.

}, doi = {DOI: 10.1002/mrc.1260290903}, url = {http://onlinelibrary.wiley.com/doi/10.1002/mrc.1260290903/full}, author = {Do Khac Manh, Duc and Fetizon, Marcel and Chantal Pr{\'e}vost and Roy, Pierre} } @article {1991|1698, title = {A probabilistic view on steady state enzyme kinetics}, journal = {J. Theor. Biol.}, volume = {148}, year = {1991}, pages = {229{\textendash}242}, author = {Alexey K Mazur} } @article {1991|1895, title = {THE USE OF ULTRAVIOLET RESONANCE RAMAN INTENSITIES TO TEST PROPOSED MOLECULAR-FORCE FIELDS FOR NUCLEIC-ACID BASES}, journal = {J. Comput. Chem.}, volume = {12}, number = {6}, year = {1991}, month = {jul}, pages = {731{\textendash}741}, doi = {10.1002/jcc.540120610}, author = {LAGANT, P and Philippe Derreumaux and VERGOTEN, G and PETICOLAS, W} } @article {1990|1638, title = {Conformational energy derivatives for polypeptides with flexible proline rings}, journal = {Comput. \& Chem.}, volume = {14}, year = {1990}, pages = {169{\textendash}175}, author = {Ruben A. Abagyan and Alexey K Mazur} } @article {1990|1786, title = {A hierarchical {\textquoteleft}nesting{\textquoteright} approach to describe the stability of alpha helices with side-chain interactions}, journal = {Biopolymers}, volume = {30}, number = {3-4}, year = {1990}, pages = {335{\textendash}347}, author = {Robert, C H} } @article {1990|1723, title = {A new method for analysing of kinetic graphs in enzymatic catalysis}, journal = {Mol. Biol.}, volume = {24}, year = {1990}, pages = {209{\textendash}213}, author = {Alexey K Mazur} } @article {1990|1929, title = {NORMAL-COORDINATE TREATMENT OF A NUCLEIC BASE PAIR MODEL IN ITS CRYSTALLINE STATE - 1-METHYLCYTOSINE-9-ETHYLGUANINE}, journal = {J. Raman Spectrosc.}, volume = {21}, number = {4}, year = {1990}, month = {apr}, pages = {215{\textendash}226}, doi = {10.1002/jrs.1250210402}, author = {LAGANT, P and VERGOTEN, G and Philippe Derreumaux and DHENNIN, R} } @article {1990, title = {Pore formation kinetics in membranes, determined from the release of marker molecules out of liposomes or cells}, journal = {Biophys. J.}, volume = {58}, year = {1990}, pages = {577{\textendash}583}, author = {Schwarz, Gerhard and Charles H. Robert} } @article {1990|1724, title = {Toward a theory of quasi-steady-state enzymatic processes}, journal = {Mol. Biol.}, volume = {24}, year = {1990}, pages = {202{\textendash}208}, author = {Alexey K Mazur} } @article {1990|1894, title = {A VIBRATIONAL MOLECULAR-FORCE FIELD OF MODEL COMPOUNDS WITH BIOLOGICAL INTEREST .1. HARMONIC DYNAMICS OF CRYSTALLINE UREA AT 123-K}, journal = {J. Comput. Chem.}, volume = {11}, number = {5}, year = {1990}, month = {jun}, pages = {560{\textendash}568}, doi = {10.1002/jcc.540110504}, author = {Philippe Derreumaux and VERGOTEN, G and LAGANT, P} } @article {1989|1785, title = {Allosteric formulation of thermal transitions in macromolecules, including effects of ligand binding and oligomerization}, journal = {Biopolymers}, volume = {28}, number = {10}, year = {1989}, month = {oct}, pages = {1705{\textendash}1729}, author = {Robert, C H and Colosimo, A and Gill, S J} } @article {1989|1821, title = {Binding of oxygen and carbon monoxide to the hemocyanin from the spiny lobster}, journal = {J. Mol. Biol.}, volume = {207}, number = {4}, year = {1989}, month = {jun}, pages = {829{\textendash}832}, author = {Connelly, P R and Johnson, C R and Robert, C H and Bak, H J and Gill, S J} } @article {1989|1912, title = {CONFORMATIONAL STUDIES OF NEUROACTIVE LIGANDS .1. FORCE-FIELD AND VIBRATIONAL-SPECTRA OF CRYSTALLINE ACETYLCHOLINE}, journal = {J. Phys. Chem.}, volume = {93}, number = {4}, year = {1989}, month = {feb}, pages = {1338{\textendash}1350}, doi = {10.1021/j100341a033}, author = {Philippe Derreumaux and WILSON, KJ and VERGOTEN, G and PETICOLAS, WL} } @article {1989|1913, title = {CONFORMATIONAL STUDIES OF NEUROACTIVE LIGANDS .2. SOLUTION-STATE CONFORMATIONS OF ACETYLCHOLINE}, journal = {J. Phys. Chem.}, volume = {93}, number = {4}, year = {1989}, month = {feb}, pages = {1351{\textendash}1357}, doi = {10.1021/j100341a034}, author = {WILSON, KJ and Philippe Derreumaux and VERGOTEN, G and PETICOLAS, WL} } @article {1989|1644, title = {A new approach to the modelling of the structure and dynamics of biomacromolecules and their complexes}, journal = {Doklady. Biophysics}, volume = {304}, year = {1989}, pages = {456{\textendash}460}, author = {Alexey K Mazur and R. A. Abagyan and G. B. Elyakov} } @article {1989|1674, title = {New methodology for computer-aided modelling of biomolecular structure and dynamics: 2. Local deformations and cycles}, journal = {J. Biomol. Struct. Dyn.}, volume = {6}, year = {1989}, pages = {833{\textendash}845}, author = {Ruben A. Abagyan and Alexey K Mazur} } @article {1989|1675, title = {New methodology for computer-aided modelling of biomolecular structure and dynamics: 1. Non-cyclic structures}, journal = {J. Biomol. Struct. Dyn.}, volume = {6}, year = {1989}, pages = {815{\textendash}832}, author = {Alexey K Mazur and Ruben A. Abagyan} } @article {1989|1796, title = {RAMAN-SPECTROSCOPY, MOLECULAR-FORCE FIELDS, AND THE DYNAMICS OF BIOLOGICAL MOLECULES}, journal = {Chemica Scripta}, volume = {29A}, year = {1989}, month = {sep}, pages = {113{\textendash}122}, author = {PETICOLAS, WL and WILSON, KJ and Philippe Derreumaux and VERGOTEN, G} } @inbook {1989|1579, title = {Stereospecific Ion-Molecule reactions in the collision cell induced by nucleophilic gas phase reagents on CI/NH4+ protonated diastereoisomeric tetracyclic terpenes.}, booktitle = {Advances in Mass Spectrometry}, volume = {11}, year = {1989}, pages = {1056}, edition = {P. Longevialle, Heyden and Son, Ed, New York}, author = {Cole, RB and Chantal Pr{\'e}vost and Tabet, JC} } @article {1989, title = {{U}nusual helical packing in crystals of {D}{N}{A} bearing a mutation hot spot}, journal = {Nature}, volume = {341}, year = {1989}, month = {oct}, pages = {459{\textendash}462}, author = {Y Timsit and Westhof, E. and Fuchs, R.P. and Moras, D.} } @article {1988|1597, title = {Analysis and parameter resolution in highly cooperative systems}, journal = {Biophys. Chem.}, volume = {30}, number = {2}, year = {1988}, month = {jun}, pages = {133{\textendash}141}, author = {Gill, S J and Connelly, P R and Di Cera, E and Charles H. Robert} } @inbook {1988, title = {Analysis of allosteric systems}, booktitle = {Biochemical Thermodynamics}, year = {1988}, publisher = {Elsevier}, organization = {Elsevier}, edition = {2nd}, address = {Holland}, author = {Gill, S. J. and Robert, C. H. and Wyman, J.} } @article {1988|1858, title = {Enthalpy of dimerization of benzene in water}, journal = {J. Phys. Chem.}, volume = {92}, year = {1988}, pages = {3623{\textendash}3625}, author = {D. Hallen and I. Wadso and D. J. Wasserman and C. H. Robert and S. J. Gill} } @article {1988|1589, title = {Linkage of organic phosphates to oxygen binding in human hemoglobin at high concentrations}, journal = {Biochemistry}, volume = {27}, number = {18}, year = {1988}, month = {sep}, pages = {6835{\textendash}6843}, author = {Charles H. Robert and Fall, L and Gill, S J} } @article {1988|1627, title = {Model of spatial random movement of depolymerase when interacting with the substrate}, journal = {Biophysics}, volume = {23}, year = {1988}, pages = {417{\textendash}421}, author = {Alexey K Mazur and M. G. Petukhov and L. A. Elyakova} } @article {1988|1590, title = {Nested allosteric interaction in tarantula hemocyanin revealed through the binding of oxygen and carbon monoxide}, journal = {Biochemistry}, volume = {27}, number = {18}, year = {1988}, month = {sep}, pages = {6901{\textendash}6908}, author = {Decker, H and Connelly, P R and Charles H. Robert and Gill, S J} } @article {1988|1591, title = {Quantitative analysis of linkage in macromolecules when one ligand is present in limited total quantity}, journal = {Biochemistry}, volume = {27}, number = {18}, year = {1988}, month = {sep}, pages = {6829{\textendash}6835}, author = {Charles H. Robert and Gill, S J and Wyman, J} } @article {1988|1625, title = {Uv Resonance Raman-spectra and Solution State Conformations of Cholinergic Neurotransmitters}, journal = {Biophys. J.}, volume = {53}, number = {2}, year = {1988}, month = {feb}, pages = {A287-A287}, author = {WILSON, K. J. and Philippe Derreumaux and VERGOTEN, G. and W. L. Peticolas} } @article {1987|1777, title = {Allosteric interpretation of the oxygen-binding reaction of human hemoglobin tetramers}, journal = {Biochemistry}, volume = {26}, number = {13}, year = {1987}, month = {jun}, pages = {4003{\textendash}4008}, author = {Di Cera, E and Robert, C H and Gill, S J} } @inbook {1987, title = {Calorimetric analysis of oxygen binding to lobster hemocyanin}, booktitle = {Invertebrate Oxygen Carriers}, year = {1987}, publisher = {Springer-Verlag}, organization = {Springer-Verlag}, address = {Berlin}, author = {Parody-Morreale, A. and Robert, C. H. and Gill, S. J.} } @article {1987|1818, title = {Calorimetric studies of oxygen and carbon monoxide binding to human hemoglobin. Sequential binding heats for oxygen}, journal = {J. Biol. Chem.}, volume = {262}, number = {23}, year = {1987}, month = {aug}, pages = {10994{\textendash}10999}, author = {Parody-Morreale, A and Robert, C H and Bishop, G A and Gill, S J} } @article {1987|1820, title = {Carbon dioxide and oxygen linkage in human hemoglobin tetramers}, journal = {J. Mol. Biol.}, volume = {196}, number = {4}, year = {1987}, month = {aug}, pages = {927{\textendash}934}, author = {Doyle, M L and Di Cera, E and Robert, C H and Gill, S J} } @article {1987|1991, title = {Gas-solution microcalorimeter for determining heat binding curves}, journal = {Rev. Sci. Instr.}, volume = {58}, year = {1987}, pages = {632{\textendash}638}, author = {Bishop, G. A. and Parody-Morreale, A. and Robert, C. and and Gill, S. J.} } @inbook {1987|1429, title = {Nesting- An extension of the MWC model and its application to tarantula hemocyanin}, booktitle = {Invertebrate Oxygen Carriers}, year = {1987}, publisher = {Springer-Verlag}, organization = {Springer-Verlag}, address = {Berlin}, author = {Decker, H. and Robert, C. H. and Gill, S. J.} } @article {1987|1967, title = {Nesting: hierarchies of allosteric interactions}, journal = {Proc. Natl. Acad. Sci. U.s.a.}, volume = {84}, number = {7}, year = {1987}, month = {apr}, pages = {1891{\textendash}1895}, author = {Robert, C H and Decker, H and Richey, B and Gill, S J and Wyman, J} } @article {1987|1592, title = {Oxygen binding constants for human hemoglobin tetramers}, journal = {Biochemistry}, volume = {26}, number = {13}, year = {1987}, month = {jun}, pages = {3995{\textendash}4002}, author = {Gill, S J and Di Cera, E and Doyle, M L and Bishop, G A and Charles H. Robert} } @article {1986, title = {Active sites of the endo-beta-1,3-glucanases from Spisula sacchalinensis and Chlyamys albidys}, journal = {Bioorg. Chem.}, volume = {12}, year = {1986}, pages = {1478{\textendash}1483}, author = {N. I. Nazarova and Alexey K Mazur and L. A. Elyakova} } @article {1986|1781, title = {Analysis of zeros of binding polynomials for tetrameric hemoglobins}, journal = {Biophys. Chem.}, volume = {24}, number = {3}, year = {1986}, month = {aug}, pages = {295{\textendash}309}, author = {Connelly, P R and Charles H. Robert and Briggs, W E and Gill, S J} } @article {1986|1602, title = {Cooperative free energies for nested allosteric models as applied to human hemoglobin}, journal = {Biophys. J.}, volume = {50}, number = {4}, year = {1986}, month = {oct}, pages = {747{\textendash}752}, author = {Gill, S J and Charles H. Robert and Coletta, M and Di Cera, E and Brunori, M} } @article {1986|1652, title = {Ion-Molecule reaction in the gas phase part VI Regioselective SN2 reaction from terpenoid diastereoisomeric diols using CI/NH 4+}, journal = {Helv. Chim. Acta}, volume = {69}, year = {1986}, pages = {806{\textendash}815}, abstract = {

A stereospecific and regioselective SN2 mechanism (Walden inversion) is observed during studies involving modified terpenoid epimeric diols in a high-pressure ion source using ammonia as a reagent gas.

}, doi = {10.1002/hlca.19860690408}, author = {Tabet, Jean-Claude and Chantal Pr{\'e}vost and Bouillot, Anne and Bastard, Josette and Manh, Due Do Khae and Tondeur, Yves} } @article {1986|1595, title = {A study of interaction of an O-specific polysaccharide from Pseudomonas fluorescense with antibodies}, journal = {Bioorg. Chem.}, volume = {12}, year = {1986}, pages = {265{\textendash}272}, author = {T. F. Solovjeva and G. A. Naberezhnykh and Alexey K Mazur and V. A. Khomenko and Yu. S. Ovodov} } @article {1985|1855, title = {Dry deposition of nitric acid to grass}, journal = {J. Geophys. Res.}, volume = {90}, year = {1985}, pages = {2085{\textendash}2090}, author = {B. A. Huebert and C. H. Robert} } @article {1985, title = {Oligomer distribution of depolymerase digests: Comparison of theory and experiments}, journal = {Febs Lett.}, volume = {192}, year = {1985}, pages = {43{\textendash}46}, author = {Alexey K Mazur and N. I. Nazarova and L. A. Elyakova} } @article {1985|1725, title = {On the possible mechanism of multiple enzyme attack in polysaccharide degradation}, journal = {Mol. Biol.}, volume = {19}, year = {1985}, pages = {1400{\textendash}1408}, author = {Alexey K Mazur} } @article {1984, title = {Mathematical models of depolymerization of amylose by alpha-amylases}, journal = {Biopolymers}, volume = {23}, year = {1984}, pages = {1735{\textendash}1756}, author = {Alexey K Mazur} } @article {1984|1629, title = {Most probable distribution at enzyme depolymerization of polysaccharides}, journal = {Biopolymers}, volume = {23}, year = {1984}, pages = {859{\textendash}876}, author = {Alexey K Mazur} } @article {1983, title = {Kinetics of glucose accumulation during depolimerization of polysaccharides by enzymes with different mechanisms of action}, journal = {Mol. Biol.}, volume = {17}, year = {1983}, pages = {101{\textendash}111}, author = {Alexey K Mazur and L. A. Elyakova} } @article {1982, title = {Mathematical modelling of endoglucanase-catalysed hydrolysis of a linear polysaccharide}, journal = {Mol. Biol.}, volume = {16}, year = {1982}, pages = {499{\textendash}510}, author = {L. A. Elyakova and Alexey K Mazur} }