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Replication Fork Stability Is Essential for the Maintenance of Centromere Integrity in the Absence of Heterochromatin

Pao-Chen Li,Ruben C. Petreaca,Amanda Jensen,Ji‐Ping Yuan,Marc D. Green,Susan L. Forsburg

Centromere

Heterochromatin

Replication (statistics)

2013

The centromere of many eukaryotes contains highly repetitive sequences marked by methylation of histone H3K9 by Clr4KMT1. This recruits multiple heterochromatin proteins, including Swi6 and Chp1, to form a rigid centromere and ensure accurate chromosome segregation. In the absence of heterochromatin, cells show an increased rate of recombination in the centromere, as well as chromosome loss. These defects are severely aggravated by loss of replication fork stability. Thus, heterochromatin proteins and replication fork protection mechanisms work in concert to prevent abnormal recombination, preserve centromere integrity, and ensure faithful chromosome segregation.

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“Replication Fork Stability Is Essential for the Maintenance of Centromere Integrity in the Absence of Heterochromatin” is a paper by Pao-Chen Li Ruben C. Petreaca Amanda Jensen Ji‐Ping Yuan Marc D. Green Susan L. Forsburg published in 2013. It has an Open Access status of “gold”. You can read and download a PDF Full Text of this paper here.