Classification of Intrinsically Disordered Regions and Proteins

Robin van der Lee; Marija Buljan; Benjamin Lang; Robert J. Weatheritt; Gary W. Daughdrill; A. Keith Dunker; Mónika Fuxreiter; Julian Gough; Joerg Gsponer; David T. Jones; Philip M. Kim; Richard W. Kriwacki; Christopher J. Oldfield; Rohit V. Pappu; Péter Tompa; Vladimir N. Uversky; Peter E. Wright; M. Madan Babu

doi:10.1021/cr400525m

Classification of Intrinsically Disordered Regions and Proteins

Robin van der Lee(Radboud University Nijmegen), Marija Buljan(MRC Laboratory of Molecular Biology), Benjamin Lang(MRC Laboratory of Molecular Biology), Robert J. Weatheritt(MRC Laboratory of Molecular Biology), Gary W. Daughdrill(University of South Florida), A. Keith Dunker(Indiana University School of Medicine), Mónika Fuxreiter(University of Debrecen), Julian Gough(University of Bristol), Joerg Gsponer(University of British Columbia), David T. Jones(University College London), Philip M. Kim(University of Toronto), Richard W. Kriwacki(St. Jude Children's Research Hospital), Christopher J. Oldfield(Indiana University School of Medicine), Rohit V. Pappu(Washington University in St. Louis), Péter Tompa(Vrije Universiteit Brussel), Vladimir N. Uversky(University of South Florida), Peter E. Wright(Scripps Research Institute), M. Madan Babu(MRC Laboratory of Molecular Biology)

Chemical Reviews

April 29, 2014

10.1021/cr400525m

Cited by 2,240Open Access

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Abstract

Characterization of unannotated and uncharacterized protein segments is expected to lead to the discovery of novel functions as well as provide important insights into existing biological processes. In addition, it is likely to shed new light on molecular mechanisms of diseases that are not yet fully understood. The classical concept implies that protein sequence defines structure, which in turn determines function; that is, function can be inferred from the sequence and its structure. Even when protein sequences diverge during evolution, for example, after gene duplication, the overall fold of their structures remains roughly the same. Therefore, structural similarity between proteins can reveal distant evolutionary relationships that are not easily detectable using sequence-based methods.

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