WATCLUST: a tool for improving the design of drugs based on protein-water interactions | Zendy

Elias D. López | Zendy; Juan Pablo Arcon | Zendy; Diego F. Gauto | Zendy; Ariel A. Petruk | Zendy; Carlos P. Modenutti | Zendy; Victoria Gisel Dumas | Zendy; Marcelo A. Martí | Zendy; Adrián G. Turjanski | Zendy

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WATCLUST: a tool for improving the design of drugs based on protein-water interactions

Author(s) -

Elias D. López,

Juan Pablo Arcon,

Diego F. Gauto,

Ariel A. Petruk,

Carlos P. Modenutti,

Victoria Gisel Dumas,

Marcelo A. Martí,

Adrián G. Turjanski

Publication year - 2015

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btv411

Subject(s) - plug in , autodock , computer science , docking (animal) , surface protein , folding (dsp implementation) , documentation , computational science , chemistry , human–computer interaction , operating system , in silico , biology , engineering , biochemistry , medicine , nursing , electrical engineering , virology , gene

Water molecules are key players for protein folding and function. On the protein surface, water is not placed randomly, but display instead a particular structure evidenced by the presence of specific water sites (WS). These WS can be derived and characterized using explicit water Molecular Dynamics simulations, providing useful information for ligand binding prediction and design. Here we present WATCLUST, a WS determination and analysis tool running on the VMD platform. The tool also allows direct transfer of the WS information to Autodock program to perform biased docking.

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