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Connecting GCN5's centromeric SAGA to the mitotic tension-sensing checkpoint.


ABSTRACT: Multiple interdependent mechanisms ensure faithful segregation of chromosomes during cell division. Among these, the spindle assembly checkpoint monitors attachment of spindle microtubules to the centromere of each chromosome, whereas the tension-sensing checkpoint monitors the opposing forces between sister chromatid centromeres for proper biorientation. We report here a new function for the deeply conserved Gcn5 acetyltransferase in the centromeric localization of Rts1, a key player in the tension-sensing checkpoint. Rts1 is a regulatory component of protein phopshatase 2A, a near universal phosphatase complex, which is recruited to centromeres by the Shugoshin (Sgo) checkpoint component under low-tension conditions to maintain sister chromatid cohesion. We report that loss of Gcn5 disrupts centromeric localization of Rts1. Increased RTS1 dosage robustly suppresses gcn5? cell cycle and chromosome segregation defects, including restoration of Rts1 to centromeres. Sgo1's Rts1-binding function also plays a key role in RTS1 dosage suppression of gcn5? phenotypes. Notably, we have identified residues of the centromere histone H3 variant Cse4 that function in these chromosome segregation-related roles of RTS1. Together, these findings expand the understanding of the mechanistic roles of Gcn5 and Cse4 in chromosome segregation.

SUBMITTER: Petty EL 

PROVIDER: S-EPMC6249797 | biostudies-other | 2018 Sep

REPOSITORIES: biostudies-other

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Connecting GCN5's centromeric SAGA to the mitotic tension-sensing checkpoint.

Petty Emily L EL   Evpak Masha M   Pillus Lorraine L  

Molecular biology of the cell 20180711 18


Multiple interdependent mechanisms ensure faithful segregation of chromosomes during cell division. Among these, the spindle assembly checkpoint monitors attachment of spindle microtubules to the centromere of each chromosome, whereas the tension-sensing checkpoint monitors the opposing forces between sister chromatid centromeres for proper biorientation. We report here a new function for the deeply conserved Gcn5 acetyltransferase in the centromeric localization of Rts1, a key player in the ten  ...[more]

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