Genomics

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Persistent DNA-break potential near telomeres increases initiation of meiotic recombination on short chromosomes


ABSTRACT: Faithful meiotic chromosome inheritance and fertility relies on the stimulation of meiotic crossover recombination by potentially genotoxic DNA double-strand breaks (DSBs). To avoid excessive damage, feedback mechanisms down-regulate DSBs on chromosomes that have successfully initiated crossover repair. In Saccharomyces cerevisiae, this regulation requires the removal of the conserved DSB-promoting protein Hop1/HORMAD during chromosome synapsis. Here, we identify privileged end-adjacent regions (EARs) spanning roughly 100 Kb near all telomeres that escape DSB downregulation. These regions retain Hop1 and continue to break in pachynema despite normal synaptonemal complex deposition. Differential retention of Hop1 requires the disassemblase Pch2/TRIP13, which preferentially removes Hop1 from telomere-distant sequences, and is modulated by the histone deacetylase Sir2 and the nucleoporin Nup2. Importantly, the uniform size of EARs among chromosomes contributes to disproportionately high DSB and repair signals on short chromosomes in pachynema, suggesting that EARs partially underlie the curiously high recombination rate of short chromosomes. Grant ID: Research grant #6-FY16-208 Grant title: Meiotic segregation of small chromosomes Funding Source: March of Dimes Foundation Affiliation: NEW YORK UNIVERSITY Name: Andreas Hochwagen

ORGANISM(S): Saccharomyces cerevisiae

PROVIDER: GSE105111 | GEO | 2019/01/10

REPOSITORIES: GEO

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