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RNA-DNA hybrids regulate meiotic recombination

Xuan Yang, Binyuan Zhai, Shunxin Wang, Xiangfei Kong, Yingjin Tan, Lin Liu, Xiao Yang, Taicong Tan, Shuxian Zhang, Liangran Zhang

2021Cell Reports24 citationsDOIOpen Access PDF

Abstract

RNA-DNA hybrids are often associated with genome instability and also function as a cellular regulator in many biological processes. In this study, we show that accumulated RNA-DNA hybrids cause multiple defects in budding yeast meiosis, including decreased sporulation efficiency and spore viability. Further analysis shows that these RNA-DNA hybrid foci colocalize with RPA/Rad51 foci on chromosomes. The efficient formation of RNA-DNA hybrid foci depends on Rad52 and ssDNA ends of meiotic DNA double-strand breaks (DSBs), and their number is correlated with DSB frequency. Interestingly, RNA-DNA hybrid foci and recombination foci show similar dynamics. The excessive accumulation of RNA-DNA hybrids around DSBs competes with Rad51/Dmc1, impairs homolog bias, and decreases crossover and noncrossover recombination. Furthermore, precocious removal of RNA-DNA hybrids by RNase H1 overexpression also impairs meiotic recombination similarly. Taken together, our results demonstrate that RNA-DNA hybrids form at ssDNA ends of DSBs to actively regulate meiotic recombination.

Topics & Concepts

RAD51Homologous recombinationRNABiologyDNARAD52Molecular biologyGenetic recombinationMeiosisDNA repairCell biologyGeneticsRecombinationGeneDNA Repair MechanismsFungal and yeast genetics researchCRISPR and Genetic Engineering
RNA-DNA hybrids regulate meiotic recombination | Litcius