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Phase separation properties of RPA combine high-affinity ssDNA binding with dynamic condensate functions at telomeres.


ABSTRACT: RPA has been shown to protect single-stranded DNA (ssDNA) intermediates from instability and breakage. RPA binds ssDNA with sub-nanomolar affinity, yet dynamic turnover is required for downstream ssDNA transactions. How ultrahigh-affinity binding and dynamic turnover are achieved simultaneously is not well understood. Here we reveal that RPA has a strong propensity to assemble into dynamic condensates. In solution, purified RPA phase separates into liquid droplets with fusion and surface wetting behavior. Phase separation is stimulated by sub-stoichiometric amounts of ssDNA, but not RNA or double-stranded DNA, and ssDNA gets selectively enriched in RPA condensates. We find the RPA2 subunit required for condensation and multi-site phosphorylation of the RPA2 N-terminal intrinsically disordered region to regulate RPA self-interaction. Functionally, quantitative proximity proteomics links RPA condensation to telomere clustering and integrity in cancer cells. Collectively, our results suggest that RPA-coated ssDNA is contained in dynamic RPA condensates whose properties are important for genome organization and stability.

SUBMITTER: Spegg V 

PROVIDER: S-EPMC10113159 | biostudies-literature | 2023 Apr

REPOSITORIES: biostudies-literature

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Phase separation properties of RPA combine high-affinity ssDNA binding with dynamic condensate functions at telomeres.

Spegg Vincent V   Panagopoulos Andreas A   Stout Merula M   Krishnan Aswini A   Reginato Giordano G   Imhof Ralph R   Roschitzki Bernd B   Cejka Petr P   Altmeyer Matthias M  

Nature structural & molecular biology 20230309 4


RPA has been shown to protect single-stranded DNA (ssDNA) intermediates from instability and breakage. RPA binds ssDNA with sub-nanomolar affinity, yet dynamic turnover is required for downstream ssDNA transactions. How ultrahigh-affinity binding and dynamic turnover are achieved simultaneously is not well understood. Here we reveal that RPA has a strong propensity to assemble into dynamic condensates. In solution, purified RPA phase separates into liquid droplets with fusion and surface wetting  ...[more]

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