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W2073288192 abstract "The characterization of the protein folding process represents one of the major challenges in molecular biology. Here, a method to simulate the folding process of a protein to its native state is reported, the essential dynamics sampling (EDS) method, and is successfully applied to detecting the correct folding pathways of two small proteins, the all-β SH3 domain of Src tyrosine kinase transforming protein (SH3) and the α/β B1 domain of streptococcal protein G (GB1). The main idea of the method is that a subset of the natural modes of fluctuation in the native state is key in directing the folding process. A biased molecular dynamics simulation is performed, in which the restrained degrees of freedom are chosen among those obtained by a principal component, or essential dynamics, analysis of the positional fluctuations of the Cα atoms in the native state. Successful folding is obtained if the restraints are applied only to the eigenvectors with lowest eigenvalues, representing the most rigid quasi-constraint motions. If the essential eigenvectors, the ones accounting for most of the variance, are used, folding is not successful. These results clearly show that the eigenvectors with lowest eigenvalues contain the main mechanical information necessary to drive the folding process, while the essential eigenvectors represent the large concerted motions which can occur without folding/unfolding the protein." @default.
W2073288192 created "2016-06-24" @default.
W2073288192 creator A5000267232 @default.
W2073288192 creator A5051763103 @default.
W2073288192 creator A5070335899 @default.
W2073288192 creator A5090817979 @default.
W2073288192 date "2008-10-21" @default.
W2073288192 modified "2023-10-16" @default.
W2073288192 title "Protein Folding Pathways Revealed by Essential Dynamics Sampling" @default.
W2073288192 cites W1505900198 @default.
W2073288192 cites W1561923743 @default.
W2073288192 cites W1570122994 @default.
W2073288192 cites W1593625064 @default.
W2073288192 cites W1690887682 @default.
W2073288192 cites W1960408443 @default.
W2073288192 cites W1973555184 @default.
W2073288192 cites W1982764243 @default.
W2073288192 cites W1993282347 @default.
W2073288192 cites W1993543753 @default.
W2073288192 cites W1999152484 @default.
W2073288192 cites W2001773296 @default.
W2073288192 cites W2002004665 @default.
W2073288192 cites W2004330902 @default.
W2073288192 cites W2005047375 @default.
W2073288192 cites W2007553441 @default.
W2073288192 cites W2007880132 @default.
W2073288192 cites W2009929688 @default.
W2073288192 cites W2014095962 @default.
W2073288192 cites W2020388963 @default.
W2073288192 cites W2027095682 @default.
W2073288192 cites W2027166643 @default.
W2073288192 cites W2030303115 @default.
W2073288192 cites W2030522763 @default.
W2073288192 cites W2030787892 @default.
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W2073288192 cites W2036492113 @default.
W2073288192 cites W2048268480 @default.
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W2073288192 cites W2050241111 @default.
W2073288192 cites W2056254169 @default.
W2073288192 cites W2067174909 @default.
W2073288192 cites W2067798279 @default.
W2073288192 cites W2074400988 @default.
W2073288192 cites W2077042715 @default.
W2073288192 cites W2079199763 @default.
W2073288192 cites W2080945020 @default.
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W2073288192 cites W2088780328 @default.
W2073288192 cites W2089258285 @default.
W2073288192 cites W2091114929 @default.
W2073288192 cites W2094178674 @default.
W2073288192 cites W2094468099 @default.
W2073288192 cites W2096049475 @default.
W2073288192 cites W2096599403 @default.
W2073288192 cites W2097163770 @default.
W2073288192 cites W2100250556 @default.
W2073288192 cites W2102074396 @default.
W2073288192 cites W2107538253 @default.
W2073288192 cites W2108619849 @default.
W2073288192 cites W2112615307 @default.
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W2073288192 cites W2132589721 @default.
W2073288192 cites W2134194891 @default.
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W2073288192 cites W2154106236 @default.
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W2073288192 doi "https://doi.org/10.1021/ct800157v" @default.
W2073288192 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26620336" @default.
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