Publications

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Journal Article
Zirah S, Kozin SA, Mazur AK, Blond A, Cheminant M, Segalas-Milazzo I, Debey P, Rebuffat S.  2006.  Structural changes of region 1-16 of the Alzheimer disease amyloid beta-peptide upon zinc binding and in vitro aging. J. Biol. Chem.. 281:2151–2161.
Lev B, Murail S, Poitevin F, Cromer BA, Baaden M, Delarue M, Allen TW.  2017.  String method solution of the gating pathways for a pentameric ligand-gated ion channel.. Proc Natl Acad Sci U S A. 114(21):E4158-E4167.
Chakraborty D, Taly A, Sterpone F.  2015.  Stay Wet, Stay Stable? How Internal Water Helps the Stability of Thermophilic Proteins The Journal of Physical Chemistry B. 119:12760–12770.
Chiche L, Heitz A, Gelly JC, Gracy J, Chau PTT, Ha PT, Hernandez JF, Le-Nguyen D.  2004.  Squash inhibitors: From structural motifs to macrocyclic knottins. Current Protein \& Peptide Science. 5:341–349.
Chiche L, Heitz A, Gelly JC, Gracy J, Chau PTT, Ha PT, Hernandez JF, Le-Nguyen D.  2004.  Squash inhibitors: From structural motifs to macrocyclic knottins. Current Protein \& Peptide Science. 5:341–349.
Bornet O., Prévost C, Vovelle F., Chassignol M., Thuong N.T, Lancelot G..  1995.  Solution structure of oligonucleotides covalently linked to a psoralen derivative.. Nucleic Acids Res.. 23:788–795.
Cote S, Laghaei R, Derreumaux P, Mousseau N.  2011.  Simulation of the Oligomerization Pathway for Different Alloforms of the Amyloid Beta Protein Related to Alzheimer's Disease. Biophys. J.. 100:401.
Phillips J, Hardy D, Maia J, Stone J, Ribeiro J, Bernardi R, Buch R, Fiorin G, Hénin J, Jiang W et al..  2020.  Scalable molecular dynamics on CPU and GPU architectures with NAMD. The Journal of Chemical Physics. 153
Sauguet L., Poitevin F., Murail S., Van Renterghem C., Moraga-Cid G., Malherbe L., Thompson A.W, Koehl P., Corringer P.J, Baaden M et al..  2013.  Structural basis for ion permeation mechanism in pentameric ligand-gated ion channels. Embo J.. 32:728–741.
Chebaro Y, Dong X, Laghaei R, Derreumaux P, Mousseau N.  2009.  Replica exchange molecular dynamics simulations of coarse-grained proteins in implicit solvent.. J. Phys. Chem. B. 113:267–274.
Chakravarty D, Guharoy M, Robert CH, Chakrabarti P, Janin J.  2013.  Reassessing buried surface areas in protein-protein complexes.. Protein Sci.. 22:1453–57.
Chakravarty D, Guharoy M, Robert CH, Chakrabarti P, Janin J.  2013.  Reassessing buried surface areas in protein-protein complexes.. Protein Sci.. 22:1453–57.
Isabelle V, Prévost C, Spotheim-Maurizot M, Sabattier R, Charlier M.  1995.  Radiation-induced damages in single- and double-stranded DNA. Int. J. Radiat. Biol.. 67:169–76.
Lopes A, Sacquin-Mora S, Dimitrova V, Laine E, Ponty Y, Carbone A.  2013.  Protein-protein interactions in a crowded environment: an analysis via cross-docking simulations and evolutionary information. Plos Comput. Biol.. 9:e1003369.
Bocquet N., L. de Carvalho P, Cartaud J., Neyton J., Le Poupon C., Taly A, Grutter T., Changeux J-P, Corringer P.J.  2007.  A prokaryotic proton-gated ion channel from the nicotinic acetylcholine receptor family. Nature. 445:116–119.
Bocquet N., L. de Carvalho P, Cartaud J., Neyton J., Le Poupon C., Taly A, Grutter T., Changeux J-P, Corringer P.J.  2007.  A prokaryotic proton-gated ion channel from the nicotinic acetylcholine receptor family. Nature. 445:116–119.
Bocquet N., L. de Carvalho P, Cartaud J., Neyton J., Le Poupon C., Taly A, Grutter T., Changeux J-P, Corringer P.J.  2007.  A prokaryotic proton-gated ion channel from the nicotinic acetylcholine receptor family. Nature. 445:116–119.
Hénin J, Maigret B., Tarek M, Escrieut C., Fourmy D., Chipot C.  2006.  Probing a model of a GPCR/ligand complex in an explicit membrane environment: The human cholecystokinin-1 receptor. Biophys. J.. 90:1232–1240.
Cragnolini T., Doutreligne S., Baaden M, Derreumaux P, Pasquali S..  2015.  Predicting and exploring complex nucleic acids architectures through a coarse-grained model. Journal of Biomolecular Structure & Dynamics. 33:30–31.
Brandner A, De Vecchis D, Baaden M, Cohen MM, Taly A.  2019.  Physics-based oligomeric models of the yeast mitofusin Fzo1 at the molecular scale in the context of membrane docking. Mitochondrion. 49:234–244.
Versini R., Sritharan S., B. Fas A, Tubiana T., Aimeur S.Z, Henri J., Erard M., Nüsse O., Andreani J., Baaden M. et al..  2024.  A Perspective on the Prospective Use of AI in Protein Structure Prediction. J Chem Inf Model. 64:26–41.
Versini R., Sritharan S., B. Fas A, Tubiana T., Aimeur S.Z, Henri J., Erard M., Nüsse O., Andreani J., Baaden M. et al..  2024.  A Perspective on the Prospective Use of AI in Protein Structure Prediction. J Chem Inf Model. 64:26–41.
Cragnolini T., Doutreligne S., Baaden M, Derreumaux P, Pasquali S..  2015.  Predicting and exploring complex nucleic acids architectures through a coarse-grained model. J. Biomol. Struct. Dyn.. 33 Suppl 1:30–31.
Hénin J, Chipot C.  2004.  Overcoming free energy barriers using unconstrained molecular dynamics simulations. J. Chem. Phys.. 121:2904–2914.
Cox K, Bond PJ, Grottesi A, Baaden M, Sansom MSP.  2008.  Outer membrane proteins: comparing X-ray and NMR structures by MD simulations in lipid bilayers. European Biophysics Journal with Biophysics Letters. 37:131–141.

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