Publications

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Journal Article
Maupetit J, Derreumaux P, Tuffery P.  2009.  PEP-FOLD: an online resource for de novo peptide structure prediction.. Nucleic Acids Res.. 37:W498–W503.
Thevenet P, Shen Y, Maupetit J, Guyon F, Derreumaux P, Tuffery P.  2012.  PEP-FOLD: an updated de novo structure prediction server for both linear and disulfide bonded cyclic peptides. Nucleic Acids Res.. 40:W288-W293.
Thevenet P, Shen Y, Maupetit J, Guyon F, Derreumaux P, Tuffery P.  2012.  PEP-FOLD: an updated de novo structure prediction server for both linear and disulfide bonded cyclic peptides. Nucleic Acids Res.. 40:W288-W293.
Lamiable A, Thevenet P, Rey J, Vavrusa M, Derreumaux P, Tuffery P.  2016.  PEP-FOLD3: faster denovo structure prediction for linear peptides in solution and in complex. Nucleic Acids Res.. 44:W449-W454.
Lamiable A, Thevenet P, Rey J, Vavrusa M, Derreumaux P, Tuffery P.  2016.  PEP-FOLD3: faster denovo structure prediction for linear peptides in solution and in complex. Nucleic Acids Res.. 44:W449-W454.
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.
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.
Viet MHoang, Truong PMinh, Derreumaux P, Li MSuan, Roland C, Sagui C, Nguyen PHoang.  2015.  Picosecond melting of peptide nanotubes using an infrared laser: a nonequilibrium simulation study. Phys. Chem. Chem. Phys.. 17:27275–27280.
Taly A, Sebban P, Smith JC, G Ullmann M.  2003.  The position of Q B in the photosynthetic reaction center depends on pH: A theoretical analysis of the proton uptake upon Q B reduction. Biophys. J.. 84:2090–2098.
Li C, Danilowicz C, Tashjian TF, Godoy VG, Prévost C, Prentiss M.  2019.  The positioning of Chi sites allows the RecBCD pathway to suppress some genomic rearrangements. Nucleic Acids Res. 47:1836-1846.
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.
Sutherland GA, Grayson KJ, Adams NBP, Mermans DMJ, Jones AS, Robertson AJ, Auman DB, Brindley AA, Sterpone F, Tuffery P et al..  2018.  Probing the quality control mechanism of the twin-arginine translocase with folding variants of a -designed heme protein.. J Biol Chem. 293(18):6672-6681.
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.
Jiang R., Martz A., Gonin S., Taly A, de Carvalho L.P, Grutter T..  2010.  A putative extracellular salt bridge at the subunit interface contributes to the ion channel function of the ATP-gated P2X2 receptor. J. Biol. Chem.. 285:15805–15815.
Kim R, Kanamaru S, Mikawa T, Prévost C, Ishii K, Ito K, Uchiyama S, Oda M, Iwasaki H, Kim SK et al..  2018.  RecA requires two molecules of Mg2+ ions for its optimal strand exchange activity in vitro. Nucleic Acids Res. ahead of print
Vartia AA, Mitchell-Koch KR, Stirnemann G, Laage D, Thompson WH.  2011.  On the reorientation and hydrogen-bond dynamics of Alcohols. J. Phys. Chem. B. 115:12173–12178.
Tashjian TF, Danilowicz C, Molza A-E, Nguyen BH, Prévost C, Prentiss M, Godoy VG.  2019.  Residues in the fingers domain of the translesion DNA polymerase DinB enable its unique participation in error-prone double-strand break repair. J Biol Chem. 294:7588-7600.
Licsandru E., Kocsis I., Shen Y.X, Murail S., Legrand Y.M, van der Lee A., Tsai D., Baaden M, Kumar M., Barboiu M..  2016.  Salt-Excluding Artificial Water Channels Exhibiting Enhanced Dipolar Water and Proton Translocation. J. Am. Chem. Soc.. 138:5403–5409.
Timsit Y, Moras D..  1995.  Self-fitting and self-modifying properties of the B-DNA molecule. J. Mol. Biol.. 251:629–647.
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.
Berges R., Balzeau J., Takahashi M., Prévost C, Eyer J..  2012.  Structure-function analysis of the NFL-TBS.40-63 peptide corresponding to the binding site of tubulin on the light neurofilament subunit. Plos One. 7:e49436.
Timsit Y, Duplantier B., Jannink G., Sikorav J.L..  1998.  Symmetry and chirality in topoisomerase II-DNA crossover recognition. J. Mol. Biol.. 284:1289–1299.
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
Trellet M, Férey N, Flotyński J, Baaden M, Bourdot P.  2018.  Semantics for an Integrative and Immersive Pipeline Combining Visualization and Analysis of Molecular Data.. J Integr Bioinform. 15(2)

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