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Multivalent interaction of ESCO2 with the replication machinery is required for sister chromatid cohesion in vertebrates.


ABSTRACT: The tethering together of sister chromatids by the cohesin complex ensures their accurate alignment and segregation during cell division. In vertebrates, sister chromatid cohesion requires the activity of the ESCO2 acetyltransferase, which modifies the Smc3 subunit of cohesin. It was shown recently that ESCO2 promotes cohesion through interaction with the MCM replicative helicase. However, ESCO2 does not significantly colocalize with the MCM complex, suggesting there are additional interactions important for ESCO2 function. Here we show that ESCO2 is recruited to replication factories, sites of DNA replication, through interaction with PCNA. We show that ESCO2 contains multiple PCNA-interaction motifs in its N terminus, each of which is essential to its ability to establish cohesion. We propose that multiple PCNA-interaction motifs embedded in a largely flexible and disordered region of the protein underlie the unique ability of ESCO2 to establish cohesion between sister chromatids precisely as they are born during DNA replication.

SUBMITTER: Bender D 

PROVIDER: S-EPMC6969535 | biostudies-literature | 2020 Jan

REPOSITORIES: biostudies-literature

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Multivalent interaction of ESCO2 with the replication machinery is required for sister chromatid cohesion in vertebrates.

Bender Dawn D   Da Silva Eulália Maria Lima EML   Chen Jingrong J   Poss Annelise A   Gawey Lauren L   Rulon Zane Z   Rankin Susannah S  

Proceedings of the National Academy of Sciences of the United States of America 20191226 2


The tethering together of sister chromatids by the cohesin complex ensures their accurate alignment and segregation during cell division. In vertebrates, sister chromatid cohesion requires the activity of the ESCO2 acetyltransferase, which modifies the Smc3 subunit of cohesin. It was shown recently that ESCO2 promotes cohesion through interaction with the MCM replicative helicase. However, ESCO2 does not significantly colocalize with the MCM complex, suggesting there are additional interactions  ...[more]

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