Spo11 generates gaps through concerted cuts at sites of topological stress
NATURE(2021)
摘要
Meiotic recombination is essential for chromosome segregation at meiosis and fertility. It is initiated by programmed DNA double-strand breaks (DSBs) introduced by Spo11, a eukaryotic homologue of an archaeal topoisomerase (Topo VIA) 1 . Here we describe previously uncharacterized Spo11-induced lesions, 34 to several hundred base pair-long gaps, which are generated by coordinated pairs of DSBs termed double DSBs. Isolation and genome-wide mapping of the resulting fragments with single base-pair precision revealed enrichment at DSB hotspots but also a widely dispersed distribution across the genome. Spo11 prefers to cut sequences with similarity to a DNA-bending motif 2 , which indicates that bendability contributes to the choice of cleavage site. Moreover, fragment lengths have a periodicity of approximately (10.4 n + 3) base pairs, which indicates that Spo11 favours cleavage on the same face of underwound DNA. Consistently, double DSB signals overlap and correlate with topoisomerase II-binding sites, which points to a role for topological stress and DNA crossings in break formation, and suggests a model for the formation of DSBs and double DSBs in which Spo11 traps two DNA strands. Double DSB gaps, which make up an estimated 20% of all initiation events, can account for full gene conversion events that are independent of both Msh2-dependent heteroduplex repair 3 , 4 and the MutLγ endonuclease 4 . Because non-homologous gap repair results in deletions, and ectopically re-integrated double DSB fragments result in insertions, the formation of double DSBs is a potential source of evolutionary diversity and pathogenic germline aberrations.
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关键词
Chromatin immunoprecipitation,DNA recombination,Eukaryote,Meiosis,Science,Humanities and Social Sciences,multidisciplinary
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