Publications

Export 809 results:
[ Author(Desc)] Title Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
S
Sacquin-Mora S, Sebban P., Derrien V., Frick B., Lavery R, Alba-Simionesco C..  2007.  Probing the flexibility of the bacterial reaction center: The wild-type protein is more rigid than two site-specific mutants. Biochemistry. 46:14960–14968.
Sacquin-Mora S.  2019.  Coarse-grain simulations on NMR conformational ensembles highlight functional residues in proteins.. J R Soc Interface. 16(156):20190075.
Sacquin-Mora S, Prévost C.  2015.  Docking Peptides on Proteins: How to Open a Lock, in the Dark, with a Flexible Key. Structure. 23:1373–1374.
Sacquin-Mora S, Delalande O., Baaden M.  2010.  Functional Modes and Residue Flexibility Control the Anisotropic Response of Guanylate Kinase to Mechanical Stress. Biophys. J.. 99:3412–3419.
Sacquin-Mora S, Schoen M., Fuchs A.H.  2002.  Fluids confined by nanopatterned substrates of low symmetry. Mol. Phys.. 100:2971–2982.
Sacquin-Mora S, Fuchs AH, Schoen M.  2003.  Nanoscopic liquid bridges exposed to a torsional strain. Physical Review E. 68:066103.
Sacquin-Mora S.  2011.  Coarse-grain models for proteins: Mechanical properties and interactions.
Sacquin-Mora S, Fuchs AH, Schoen M.  2004.  Torsion-induced phase transitions in fluids confined between chemically decorated substrates. J. Chem. Phys.. 121:9077–9086.
Sacquin-Mora S, Laforet E, Lavery R.  2007.  Locating the active sites of enzymes using mechanical properties. Proteins: Struct., Funct., Bioinf.. 67:350–359.
Sacquin-Mora S.  2014.  Motions and mechanics: investigating conformational transitions in multi-domain proteins with coarse-grain simulations. Mol. Simul.. 40:229–236.
Sacquin-Mora S.  2015.  Fold and flexibility: what can proteins' mechanical properties tell us about their folding nucleus? J. R. Soc. Interface. 12
Sacquin-Mora S, Prévost C.  2021.  When Order Meets Disorder: Modeling and Function of the Protein Interface in Fuzzy Complexes. Biomolecules. 11:1529.
Sacquin-Mora S.  2016.  Bridging Enzymatic Structure Function via Mechanics: A Coarse-Grain Approach. Methods in Enzymology. :227–248.
Sacquin-Mora S, Schoen M., Fuchs A.H.  2003.  Fluid phase transitions at chemically heterogeneous, nonplanar solid substrates: Surface versus confinement effects. J. Chem. Phys.. 118:1453–1465.
Sacquin-Mora S, Lavery R..  2009.  Modeling the Mechanical Response of Proteins to Anisotropic Deformation. Chemphyschem. 10:115–118.
Sacquin-Mora S, Carbone A., Lavery R.  2008.  Identification of Protein Interaction Partners and Protein-Protein Interaction Sites. J. Mol. Biol.. 382:1276–1289.
Sacquin-Mora S.  2018.  Mechanical variations in proteins with large-scale motions highlight the formation of structural locks. Journal of Structural Biology.
Sacquin-Mora S.  2003.  Fluide nanoconfines dans des systemes de basse symetrie : Simulations et Theorie.
Sacquin-Mora S, Lavery R.  2006.  Investigating the local flexibility of functional residues in hemoproteins. Biophys. J.. 90:2706–2717.
Saladin A, Fiorucci S, Poulain P, Prévost C, Zacharias M.  2009.  PTools: an opensource molecular docking library.. Bmc Struct. Biol.. 9:27–37.
Saladin A, Amourda C., Poulain P., Férey N, Baaden M, Zacharias M, Delalande O., Prévost C.  2010.  Modeling the early stage of DNA sequence recognition within RecA nucleoprotein filaments. Nucleic Acids Res.. 38:6313–6323.
Saladin A, Prévost C.  2010.  Protein-Protein Docking. Protein-Protein Complexes. Analysis, Modeling and Drug Design. :147–181.
Salari R, Joseph T, Lohia R, Hénin J, Brannigan G.  2018.  A Streamlined, General Approach for Computing Ligand Binding Free Energies and Its Application to GPCR-Bound Cholesterol.. Journal of Chemical Theory and Computation. 14:6560–6573.
Santini S, Mousseau N, Derreumaux P.  2004.  In silico assembly of Alzheimer's A beta(16-22) peptide into beta-sheets. J. Am. Chem. Soc.. 126:11509–11516.
Santini S, Claude JB, Audic S, Derreumaux P.  2003.  Impact of the tail and mutations G131V and M129V on prion protein flexibility. Proteins-structure Function and Genetics. 51:258–265.

Pages