A computational method independent of experimental protein structure information is proposed to recognize key residues in protein folding, from the Study of hydration water dynamics. Based on all-atom molecular dynamics simulation, two key residues are recognized with distinct water dynamical behavior in a folding process of the Trp-cage protein. The identified key residues are shown to play an essential role in both 3D structure and hydrophobic-induced collapse. With observations on hydration water dynamics around key residues, a dynamical pathway of folding can be interpreted. (C) 2010 Elsevier Inc. All rights reserved.http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000274514...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
It is commonly accepted that water plays an essential role in determining both the stability of the ...
The hydrophobic effect drives the folding of proteins into their native states within cells by maxim...
Hydrophobic effect is the dominate force in protein folding.In 40 simulations around Trp-cage protei...
A "key-residue" hypothesis that a few residues' characteristics contain the essential...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
Proteins have evolved to use water to help guide folding. A physically motivated, nonpairwise-additi...
We study the dynamics of hydration water/protein association in folded proteins using lysozyme and m...
AbstractUnderstanding and modelling protein folding remains a key scientific and engineering challen...
By the time the reader reads this line, billions of protein association events just occurred in our ...
The hydrophobic effect is a major driving force in protein folding. A complete understanding of this...
Most proteins have evolved to function optimally in aqueous environments, and the interactions betwe...
Extensive molecular dynamics (MD) simulations have been used to characterize the multiple roles of w...
Water molecules play a significant role in biological process and are directly involved with bio-mol...
The role of intracellular water in biomolecular function is well recognized and yet quantifying this...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
It is commonly accepted that water plays an essential role in determining both the stability of the ...
The hydrophobic effect drives the folding of proteins into their native states within cells by maxim...
Hydrophobic effect is the dominate force in protein folding.In 40 simulations around Trp-cage protei...
A "key-residue" hypothesis that a few residues' characteristics contain the essential...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
Proteins have evolved to use water to help guide folding. A physically motivated, nonpairwise-additi...
We study the dynamics of hydration water/protein association in folded proteins using lysozyme and m...
AbstractUnderstanding and modelling protein folding remains a key scientific and engineering challen...
By the time the reader reads this line, billions of protein association events just occurred in our ...
The hydrophobic effect is a major driving force in protein folding. A complete understanding of this...
Most proteins have evolved to function optimally in aqueous environments, and the interactions betwe...
Extensive molecular dynamics (MD) simulations have been used to characterize the multiple roles of w...
Water molecules play a significant role in biological process and are directly involved with bio-mol...
The role of intracellular water in biomolecular function is well recognized and yet quantifying this...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
It is commonly accepted that water plays an essential role in determining both the stability of the ...
The hydrophobic effect drives the folding of proteins into their native states within cells by maxim...