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Molecular structure in biomolecular condensates.


ABSTRACT: Evidence accumulated over the past decade provides support for liquid-liquid phase separation as the mechanism underlying the formation of biomolecular condensates, which include not only 'membraneless' organelles such as nucleoli and RNA granules, but additional assemblies involved in transcription, translation and signaling. Understanding the molecular mechanisms of condensate function requires knowledge of the structures of their constituents. Current knowledge suggests that structures formed via multivalent domain-motif interactions remain largely unchanged within condensates. Two different viewpoints exist regarding structures of disordered low-complexity domains within condensates; one argues that low-complexity domains remain largely disordered in condensates and their multivalency is encoded in short motifs called 'stickers', while the other argues that the sequences form cross-? structures resembling amyloid fibrils. We review these viewpoints and highlight outstanding questions that will inform structure-function relationships for biomolecular condensates.

SUBMITTER: Peran I 

PROVIDER: S-EPMC7117980 | biostudies-literature | 2020 Feb

REPOSITORIES: biostudies-literature

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Molecular structure in biomolecular condensates.

Peran Ivan I   Mittag Tanja T  

Current opinion in structural biology 20191129


Evidence accumulated over the past decade provides support for liquid-liquid phase separation as the mechanism underlying the formation of biomolecular condensates, which include not only 'membraneless' organelles such as nucleoli and RNA granules, but additional assemblies involved in transcription, translation and signaling. Understanding the molecular mechanisms of condensate function requires knowledge of the structures of their constituents. Current knowledge suggests that structures formed  ...[more]

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