The budding yeast protein Chl1p is required for delaying progression through G1/S phase after DNA damage

被引:2
作者
Katheeja, Muhseena N. [1 ]
Das, Shankar Prasad [1 ,2 ]
Laha, Suparna [1 ,2 ]
机构
[1] Yenepoya Deemed Univ, Yenepoya Med Coll, Yenepoya Res Ctr, Cell Biol & Mol Genet Div, Univ Rd,3rd Floor,Acad Block, Mangalore 575018, India
[2] Bose Inst, Dept Biochem, P1-12 CIT Scheme 7 M, Kolkata 700054, India
关键词
Yeast; Chl1p; Checkpoint; Bud-emergence; DNA damage; G1; S phase; DNA repair; SACCHAROMYCES-CEREVISIAE HOMOLOG; SISTER-CHROMATID COHESION; HELICASE-LIKE PROTEIN; S-PHASE; CELL-CYCLE; REPLICATION CHECKPOINT; RAD9; GENE; PHOSPHORYLATION; GENOME;
D O I
10.1186/s13008-021-00072-x
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
Background The budding yeast protein Chl1p is a nuclear protein required for sister-chromatid cohesion, transcriptional silencing, rDNA recombination, ageing and plays an instrumental role in chromatin remodeling. This helicase is known to preserve genome integrity and spindle length in S-phase. Here we show additional roles of Chl1p at G1/S phase of the cell cycle following DNA damage. Results G1 arrested cells when exposed to DNA damage are more sensitive and show bud emergence with faster kinetics in chl1 mutants compared to wild-type cells. Also, more damage to DNA is observed in chl1 cells. The viability falls synergistically in rad24chl1 cells. The regulation of Chl1p on budding kinetics in G1 phase falls in line with Rad9p/Chk1p and shows a synergistic effect with Rad24p/Rad53p. rad9chl1 and chk1chl1 shows similar bud emergence as the single mutants chl1, rad9 and chk1. Whereas rad24chl1 and rad53chl1 shows faster bud emergence compared to the single mutants rad24, rad53 and chl1. In presence of MMS induced damage, synergistic with Rad24p indicates Chl1p's role as a checkpoint at G1/S acting parallel to damage checkpoint pathway. The faster movement of DNA content through G1/S phase and difference in phosphorylation profile of Rad53p in wild type and chl1 cells confirms the checkpoint defect in chl1 mutant cells. Further, we have also confirmed that the checkpoint defect functions in parallel to the damage checkpoint pathway of Rad24p. Conclusion Chl1p shows Rad53p independent bud emergence and Rad53p dependent checkpoint activity in presence of damage. This confirms its requirement in two different pathways to maintain the G1/S arrest when cells are exposed to damaging agents. The bud emergence kinetics and DNA segregation were similar to wild type when given the same damage in nocodazole treated chl1 cells which establishes the absence of any role of Chl1p at the G2/M phase. The novelty of this paper lies in revealing the versatile role of Chl1p in checkpoints as well as repair towards regulating G1/S transition. Chl1p thus regulates the G1/S phase by affecting the G1 replication checkpoint pathway and shows an additive effect with Rad24p for Rad53p activation when damaging agents perturb the DNA. Apart from checkpoint activation, it also regulates the budding kinetics as a repair gene.
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页数:16
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