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Sumoylation of the DNA polymerase ? by the Smc5/6 complex contributes to DNA replication.


ABSTRACT: DNA polymerase epsilon (Pol ?) is critical for genome duplication, but little is known about how post-translational modification regulates its function. Here we report that the Pol ? catalytic subunit Pol2 in yeast is sumoylated at a single lysine within a catalytic domain insertion uniquely possessed by Pol2 family members. We found that Pol2 sumoylation occurs specifically in S phase and is increased under conditions of replication fork blockade. Analyses of the genetic requirements of this modification indicate that Pol2 sumoylation is associated with replication fork progression and dependent on the Smc5/6 SUMO ligase known to promote DNA synthesis. Consistently, the pol2 sumoylation mutant phenotype suggests impaired replication progression and increased levels of gross chromosomal rearrangements. Our findings thus indicate a direct role for SUMO in Pol2-mediated DNA synthesis and a molecular basis for Smc5/6-mediated regulation of genome stability.

SUBMITTER: Meng X 

PROVIDER: S-EPMC6876774 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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Sumoylation of the DNA polymerase ε by the Smc5/6 complex contributes to DNA replication.

Meng Xiangzhou X   Wei Lei L   Peng Xiao P XP   Zhao Xiaolan X  

PLoS genetics 20191125 11


DNA polymerase epsilon (Pol ε) is critical for genome duplication, but little is known about how post-translational modification regulates its function. Here we report that the Pol ε catalytic subunit Pol2 in yeast is sumoylated at a single lysine within a catalytic domain insertion uniquely possessed by Pol2 family members. We found that Pol2 sumoylation occurs specifically in S phase and is increased under conditions of replication fork blockade. Analyses of the genetic requirements of this mo  ...[more]

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