Ingrid Cipakova scite author profile

Proper meiotic chromosome segregation, essential for sexual reproduction, requires timely formation and removal of sister chromatid cohesion and crossing-over between homologs. Early in meiosis cohesins hold sisters together and also promote formation of DNA double-strand breaks, obligate precursors to crossovers. Later, cohesin cleavage allows chromosome segregation. We show that in fission yeast redundant casein kinase 1 homologs, Hhp1 and Hhp2, previously shown to regulate segregation via phosphorylation of the Rec8 cohesin subunit, are also required for high-level meiotic DNA breakage and recombination. Unexpectedly, these kinases also mediate phosphorylation of a different meiosis-specific cohesin subunit Rec11. This phosphorylation in turn leads to loading of linear element proteins Rec10 and Rec27, related to synaptonemal complex proteins of other species, and thereby promotes DNA breakage and recombination. Our results provide novel insights into the regulation of chromosomal features required for crossing-over and successful reproduction. The mammalian functional homolog of Rec11 (STAG3) is also phosphorylated during meiosis and appears to be required for fertility, indicating wide conservation of the meiotic events reported here.

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The spliceosome-associated protein Nrl1 suppresses homologous recombination-dependent R-loop formation in fission yeast

Aronica

Kasparek

Ruchman

et al. 2015

Nucleic Acids Res

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The formation of RNA–DNA hybrids, referred to as R-loops, can promote genome instability and cancer development. Yet the mechanisms by which R-loops compromise genome instability are poorly understood. Here, we establish roles for the evolutionarily conserved Nrl1 protein in pre-mRNA splicing regulation, R-loop suppression and in maintaining genome stability. nrl1Δ mutants exhibit endogenous DNA damage, are sensitive to exogenous DNA damage, and have defects in homologous recombination (HR) repair. Concomitantly, nrl1Δ cells display significant changes in gene expression, similar to those induced by DNA damage in wild-type cells. Further, we find that nrl1Δ cells accumulate high levels of R-loops, which co-localize with HR repair factors and require Rad51 and Rad52 for their formation. Together, our findings support a model in which R-loop accumulation and subsequent DNA damage sequesters HR factors, thereby compromising HR repair at endogenously or exogenously induced DNA damage sites, leading to genome instability.

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Maintenance of genome stability: the unifying role of interconnections between the DNA damage response and RNA-processing pathways

et al. 2018

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Endogenous and exogenous factors can severely affect the integrity of genetic information by inducing DNA damage and impairing genome stability. The protection of genome integrity is ensured by the so-called "DNA damage response" (DDR), a set of evolutionary-conserved events that, triggered upon DNA damage detection, arrests the cell cycle, and attempts DNA repair. Here, we review the role of the DDR proteins as post-transcriptional regulators of gene expression, in addition to their roles in DNA damage recognition, signaling, and repair. At the same time, we discuss recent insights into how pre-mRNA splicing factors go beyond their splicing activities and play direct functions in detecting, signaling, and repairing DNA damage. The importance of extensive two-way crosstalk and interaction between the RNA processing and the DDR stems from growing evidence that the defects of their communication lead to genomic instability.

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Ingrid Cipakova

Casein Kinase 1 and Phosphorylation of Cohesin Subunit Rec11 (SA3) Promote Meiotic Recombination through Linear Element Formation

The spliceosome-associated protein Nrl1 suppresses homologous recombination-dependent R-loop formation in fission yeast

Maintenance of genome stability: the unifying role of interconnections between the DNA damage response and RNA-processing pathways

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