The Rad51 Pathway of Telomerase-Independent Maintenance of Telomeres Can Amplify TG1-3 Sequences in yku and cdc13 Mutants of Saccharomyces cerevisiae

Nathalie Grandin; Michel Charbonneau

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The Rad51 Pathway of Telomerase-Independent Maintenance of Telomeres Can Amplify TG1-3 Sequences in yku and cdc13 Mutants of Saccharomyces cerevisiae

机译：Rad51通路的端粒酶独立维护端粒可以扩增酿酒酵母的yku和cdc13突变体中的TG1-3序列。

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In the yeast Saccharomyces cerevisiae, Cdc13, Yku, and telomerase define three parallel pathways for telomere end protection that prevent chromosome instability and death by senescence. We report here that cdc13-1 yku70Δ mutants generated telomere deprotection-resistant cells that, in contrast with telomerase-negative senescent cells, did not display classical crisis events. cdc13-1 yku70Δ cells survived telomere deprotection by exclusively amplifying TG_1-3 repeats (type II recombination). In a background lacking telomerase (tlc1Δ), this process predominated over type I recombination (amplification of subtelomeric Y′ sequences). Strikingly, inactivation of the Rad50/Rad59 pathway (which is normally required for type II recombination) in cdc13-1 yku70Δ or yku70Δ tlc1Δ mutants, but also in cdc13-1 YKU70+ tlc1Δ mutants, still permitted type II recombination, but this process was now entirely dependent on the Rad51 pathway. In addition, delayed senescence was observed in cdc13-1 yku70Δ rad51Δ and cdc13-1 tlc1Δ rad51Δ cells. These results demonstrate that in wild-type cells, masking by Cdc13 and Yku prevents the Rad51 pathway from amplifying telomeric TG_1-3 sequences. They also suggest that Rad51 is more efficient than Rad50 in amplifying the sequences left uncovered by the absence of Cdc13 or Yku70.

机译：在酵母中，Cdc13，Yku和端粒酶定义了三个平行的端粒末端保护途径，这些途径可防止染色体不稳定和衰老而死亡。我们在这里报告， cdc13-1 yku70 Δ突变体产生了端粒去保护抗性细胞，与端粒酶阴性衰老细胞相反，它没有显示经典的危机事件。 cdc13-1 yku70 Δ细胞通过仅扩增TG _{1-3 重复序列（II型重组）而幸免于端粒去保护。在缺乏端粒酶（ tlc1 Δ）的背景下，该过程比I型重组（亚端粒Y'序列的扩增）更为重要。令人惊讶的是， cdc13-1 yku70 Δ或 yku70 Δ tlc1 中Rad50 / Rad59途径的失活（通常是II型重组所必需的） Δ突变体，以及 cdc13-1 YKU70 + tlc1 Δ突变体中，仍允许II型重组，但此过程现在完全取决于Rad51途径。此外，在 cdc13-1 yku70 Δ rad51 Δ和 cdc13-1 tlc1 Δ rad51 中观察到延迟衰老。 Δ细胞。这些结果表明，在野生型细胞中，Cdc13和Yku的掩蔽阻止Rad51途径扩增端粒TG _{1-3 序列。他们还建议，Rad51在扩增缺少Cdc13或Yku70时未发现的序列上比Rad50更有效。}} 展开▼

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《Molecular and Cellular Biology 》 |2003年第11期| 共14页

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Nathalie Grandin; Michel Charbonneau;
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中图分类细胞生物学 ;

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1. In Saccharomyces cerevisiae, yKu and subtelomeric core X sequences repress homologous recombination near telomeres as part of the same pathway. [J] . Marvin ME, Griffin CD, Eyre DE Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 2009 ,第2期

机译：在酿酒酵母中，yKu和亚端粒核心X序列可抑制端粒附近的同源重组，这是同一途径的一部分。

2. In Saccharomyces cerevisiae, yKu and Subtelomeric Core X Sequences Repress Homologous Recombination Near Telomeres as Part of the Same Pathway [J] . Craig D. Griffin, David B. H. Barton, David E. Eyre, Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 2009 ,第2期

机译：在酿酒酵母中，yKu和亚端粒的核心X序列抑制端粒附近的同源重组，作为同一途径的一部分

3. Telomere-Telomere Recombination Is an Efficient Bypass Pathway for Telomere Maintenance in Saccharomyces cerevisiae [J] . Shu-Chun Teng, Virginia A. Zakian Molecular and Cellular Biology . 1999 ,第12期

机译：端粒-端粒重组是酿酒酵母端粒维持的有效旁路途径。

4. Polysome-seq as a Measure of Translational Profile from Deoxyhypusine Synthase Mutant in Saccharomyces cerevisiae [C] . Fernanda Manaia Demarqui, Ana Carolina Silva Paiva, Mariana Marchi Santoni, Brazilian Symposium on Bioinformatics . 2020

机译：PolySome-SEQ作为酿酒酵母酿酒酵母中脱氧型血清合酶突变体的转化概况的量度

5. A study on telomere protection and telomerase- and cap-independent mechanisms of telomere maintenance in yeast Saccharomyces cerevisiae . [D] . Karpov, Victor. 2008

机译：酿酒酵母中端粒保护以及端粒维持的端粒酶和帽依赖性机制的研究。

6. The Rad51 Pathway of Telomerase-Independent Maintenance of Telomeres Can Amplify TG1-3 Sequences in yku and cdc13 Mutants of Saccharomyces cerevisiae [O] . Nathalie Grandin, Michel Charbonneau 2003

机译：Rad51通路的端粒酶独立维护端粒可以扩增酿酒酵母的yku和cdc13突变体中的TG1-3序列。

7. The Rad51 Pathway of Telomerase-Independent Maintenance of Telomeres Can Amplify TG1-3 Sequences in yku and cdc13 Mutants of Saccharomyces cerevisiae [O] . Grandin, Nathalie, Charbonneau, Michel 2003

机译：Rad51通路的端粒酶独立维护端粒可以扩增酿酒酵母的yku和cdc13突变体中的TG1-3序列。

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6. 阻断TPP1介导的端粒酶端粒募集通路在非小细胞肺癌中的抗肿瘤作用研究 [A] . 朱金芳 . 2019

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2. process for the production of a null mutant yeast of the stone strain ura3 gene (saccharomyces cerevisiae), mutant yeast and its use [P] . 外国专利： BRPI1010504A8 . 2019-03-26

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The Rad51 Pathway of Telomerase-Independent Maintenance of Telomeres Can Amplify TG1-3 Sequences in yku and cdc13 Mutants of Saccharomyces cerevisiae

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