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Sequence-Dependent Backbone Dynamics of Intrinsically Disordered Proteins.


ABSTRACT: For intrinsically disordered proteins (IDPs), a pressing question is how sequence codes for function. Dynamics serves as a crucial link, reminiscent of the role of structure in sequence-function relations of structured proteins. To define general rules governing sequence-dependent backbone dynamics, we carried out long molecular dynamics simulations of eight IDPs. Blocks of residues exhibiting large amplitudes in slow dynamics are rigidified by local inter-residue interactions or secondary structures. A long region or an entire IDP can be slowed down by long-range contacts or secondary-structure packing. On the other hand, glycines promote fast dynamics and either demarcate rigid blocks or facilitate multiple modes of local and long-range inter-residue interactions. The sequence-dependent backbone dynamics endows IDPs with versatile response to binding partners, with some blocks recalcitrant while others readily adapting to intermolecular interactions.

SUBMITTER: Dey S 

PROVIDER: S-EPMC9561007 | biostudies-literature | 2022 Oct

REPOSITORIES: biostudies-literature

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Sequence-Dependent Backbone Dynamics of Intrinsically Disordered Proteins.

Dey Souvik S   MacAinsh Matthew M   Zhou Huan-Xiang HX  

Journal of chemical theory and computation 20220909 10


For intrinsically disordered proteins (IDPs), a pressing question is how sequence codes for function. Dynamics serves as a crucial link, reminiscent of the role of structure in sequence-function relations of structured proteins. To define general rules governing sequence-dependent backbone dynamics, we carried out long molecular dynamics simulations of eight IDPs. Blocks of residues exhibiting large amplitudes in slow dynamics are rigidified by local inter-residue interactions or secondary struc  ...[more]

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