Crossover recombination facilitates accurate segregation of homologous chromosomes during meiosis1,2. In mammals, poorly characterized regulatory processes ensure every pair of chromosomes obtains at least one crossover, even though the majority of recombination sites yield non-crossovers3. Designation of crossovers involves selective localization of SUMO-ligase RNF212 to a minority of recombination sites where it stabilizes pertinent factors, such as MutSγ4. Here we show ubiquitin-ligase HEI10/CCNB1IP15,6 is essential for this crossover/non-crossover differentiation process. In Hei10 mutant mice, RNF212 localizes to most recombination sites and dissociation of RNF212 and MutSγ from chromosomes is blocked. Consequently, recombination is impeded and crossing-over fails. In wild-type mice, HEI10 accumulates at designated crossover sites suggesting a late role to implement crossing-over. Like RNF212, dosage-sensitivity indicates HEI10 is a limiting factor for crossing-over. We suggest SUMO and ubiquitin play antagonistic roles during meiotic recombination that are balanced to effect differential stabilization of recombination factors at crossover and non-crossover sites.
SUMMARY Oocyte quality control culls eggs with defects in meiosis. In mouse, oocyte death can be triggered by defects in chromosome synapsis and recombination, which involve repair of DNA double-strand breaks (DSBs) between homologous chromosomes. We show that RNF212, a SUMO ligase required for crossing over, also mediates oocyte quality control. Both physiological apoptosis and wholesale oocyte elimination in meiotic mutants require RNF212. RNF212 sensitizes oocytes to DSB-induced apoptosis within a narrow window as chromosomes desynapse and cells transition into quiescence. Analysis of DNA damage during this transition implies that RNF212 impedes DSB repair. Consistently, RNF212 is required for HORMAD1, a negative regulator of inter-sister recombination, to associate with desynapsing chromosomes. We infer that oocytes impede repair of residual DSBs to retain a “memory” of meiotic defects that enables quality control processes. These results define the logic of oocyte quality control and suggest RNF212 variants may influence transmission of defective genomes.
Oocyte quality control culls eggs with defects in meiosis. In mouse, oocyte death is triggered by defects in chromosome synapsis and recombination, which involve repair of programmed DNA double-strand breaks (DSBs) between homologous chromosomes. We show that RNF212, a SUMO ligase required for crossing over, also mediates oocyte quality control. Both physiological apoptosis and wholesale oocytes elimination in meiotic mutants require RNF212.RNF212 sensitizes cells to DSB-induced apoptosis within a narrow window when chromosomes desynapse during the transition into quiescence. Analysis of DNA damage during this transition implies that RNF212 impedes DSB repair. Consistently, RNF212 is required for HORMAD1, a negative regulator of inter-sister recombination, to associate with desynapsing chromosomes. We infer that oocytes impede repair of residual DSBs to retain a "memory" of meiotic defects that enables quality control processes. These results define the logic of oocyte quality control and suggest RNF212 variants may influence transmission of defective genomes.
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