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GPCRmd uncovers the dynamics of the 3D-GPCRome

Authors :: Minos-Timotheos Matsoukas
David E. Gloriam
Ismael Rodríguez-Espigares
Agnieszka Sztyler
Davide Provasi
Arnau Cordomí
Peter Kolb
David Aranda-García
Toni Giorgino
Ferran Sanz
Mariona Torrens-Fontanals
Peter W. Hildebrand
Maria Marti-Solano
Mireia Olivella
Alejandro Varela-Rial
Gianni De Fabritiis
José Carlos Gómez-Tamayo
Laura Pérez-Benito
Tomasz Maciej Stepniewski
Eduardo Mayol
Silvana Vasile
Slawomir Filipek
Ulrich Zachariae
Jens Carlsson
Dorota Latek
Harel Weinstein
Gáspár Pándy-Szekeres
Przemyslaw Miszta
Willem Jespers
Nathalie Worp
Mireia Jiménez-Rosés
Juan Manuel Ramírez-Anguita
Marta Filizola
George Khelashvili
Angel Gonzalez
Brian Medel Lacruz
Pierre Matricon
Iván Rodríguez-Torrecillas
Xavier Deupi
Adrián Morales-Pastor
Jessica Sallander
Hugo Gutiérrez-de-Terán
Johanna K. S. Tiemann
Jana Selent
Jon Kapla
Ramon Guixà-González
Santiago Ríos
Source :: Nature Methods, Nature methods (Online) 17 (2020): 777–787. doi:10.1038/s41592-020-0884-y, info:cnr-pdr/source/autori:Rodríguez-Espigares, Ismael; Torrens-Fontanals, Mariona; Tiemann, Johanna K.S.; Aranda-García, David; Ramírez-Anguita, Juan Manuel; Stepniewski, Tomasz Maciej; Worp, Nathalie; Varela-Rial, Alejandro; Morales-Pastor, Adrián; Medel-Lacruz, Brian; Pándy-Szekeres, Gáspár; Mayol, Eduardo; Giorgino, Toni; Carlsson, Jens; Deupi, Xavier; Filipek, Slawomir; Filizola, Marta; Gómez-Tamayo, José Carlos; Gonzalez, Angel; Gutiérrez-de-Terán, Hugo; Jiménez-Rosés, Mireia; Jespers, Willem; Kapla, Jon; Khelashvili, George; Kolb, Peter; Latek, Dorota; Marti-Solano, Maria; Matricon, Pierre; Matsoukas, Minos Timotheos; Miszta, Przemyslaw; Olivella, Mireia; Perez-Benito, Laura; Provasi, Davide; Ríos, Santiago; R. Torrecillas, Iván; Sallander, Jessica; Sztyler, Agnieszka; Vasile, Silvana; Weinstein, Harel; Zachariae, Ulrich; Hildebrand, Peter W.; De Fabritiis, Gianni; Sanz, Ferran; Gloriam, David E.; Cordomi, Arnau; Guixà-González, Ramon; Selent, Jana/titolo:GPCRmd uncovers the dynamics of the 3D-GPCRome/doi:10.1038%2Fs41592-020-0884-y/rivista:Nature methods (Online)/anno:2020/pagina_da:777/pagina_a:787/intervallo_pagine:777–787/volume:17
Publication Year :: 2020
Abstract: G-protein-coupled receptors (GPCRs) are involved in numerous physiological processes and are the most frequent targets of approved drugs. The explosion in the number of new three-dimensional (3D) molecular structures of GPCRs (3D-GPCRome) over the last decade has greatly advanced the mechanistic understanding and drug design opportunities for this protein family. Molecular dynamics (MD) simulations have become a widely established technique for exploring the conformational landscape of proteins at an atomic level. However, the analysis and visualization of MD simulations require efficient storage resources and specialized software. Here we present GPCRmd (http://gpcrmd.org/), an online platform that incorporates web-based visualization capabilities as well as a comprehensive and user-friendly analysis toolbox that allows scientists from different disciplines to visualize, analyze and share GPCR MD data. GPCRmd originates from a community-driven effort to create an open, interactive and standardized database of GPCR MD simulations.