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高拷贝数抑制由dmc1突变引起的减数分裂停滞:REC114施加早期重组阻滞,而RAD54促进不依赖DMC1的双链断裂修复途径。

High copy number suppression of the meiotic arrest caused by a dmc1 mutation: REC114 imposes an early recombination block and RAD54 promotes a DMC1-independent DSB repair pathway.

作者信息

Bishop D K, Nikolski Y, Oshiro J, Chon J, Shinohara M, Chen X

机构信息

Department of Radiation and Cellular Oncology, University of Chicago, Chicago IL 60637, USA.

出版信息

Genes Cells. 1999 Aug;4(8):425-44. doi: 10.1046/j.1365-2443.1999.00273.x.

DOI:10.1046/j.1365-2443.1999.00273.x
PMID:10526232
Abstract

BACKGROUND

DMC1, the meiosis-specific eukaryotic homologue of bacterial recA, is required for completion of meiotic recombination and cell cycle progression past prophase. In a dmc1 mutant, double strand break recombination intermediates accumulate and cells arrest in prophase. We isolated genes which, when present at high copy numbers, suppress the meiotic arrest phenotype conferred by dmc1 mutations.

RESULTS

Among the genes isolated were two which suppress arrest by altering the recombination process. REC114 suppresses formation of double strand break (DSB) recombination intermediates. The low viability of spores produced by dmc1 mutants carrying high copy numbers of REC114 is rescued when reductional segregation is bypassed by mutation of spo13. High copy numbers of RAD54 suppress dmc1 arrest, promote DSB repair, and allow formation of viable spores following reductional segregation. Analysis of the combined effects of a null mutation in RED1, a gene required for meiotic chromosome structure, with null mutations in RAD54 and DMC1 shows that RAD54, while not normally important for repair of DSBs during meiosis, is required for efficient repair of breaks by the intersister recombination pathway that operates in red1 dmc1 double mutants.

CONCLUSIONS

Over-expression of REC114 suppresses meiotic arrest by preventing formation of DSBs. High copy numbers of RAD54 activate a DMC1-independent mechanism that promotes repair of DSBs by homology-mediated recombination. The ability of RAD54 to promote DMC1-independent recombination is proposed to involve suppression of a constraint that normally promotes recombination between homologous chromatids rather than sisters.

摘要

背景

DMC1是细菌recA在真核生物中减数分裂特异性的同源物,是减数分裂重组完成和细胞周期越过前期进展所必需的。在dmc1突变体中,双链断裂重组中间体积累,细胞停滞在前期。我们分离出了一些基因,当它们以高拷贝数存在时,可抑制由dmc1突变赋予的减数分裂停滞表型。

结果

分离出的基因中有两个通过改变重组过程来抑制停滞。REC114抑制双链断裂(DSB)重组中间体的形成。当通过spo13突变绕过减数分裂分离时,携带高拷贝数REC114的dmc1突变体产生的孢子的低活力得以挽救。高拷贝数的RAD54抑制dmc1停滞,促进DSB修复,并允许在减数分裂分离后形成有活力的孢子。对RED1(减数分裂染色体结构所需基因)的无效突变与RAD54和DMC1的无效突变的联合效应分析表明,RAD54虽然在减数分裂期间对DSB修复通常不重要,但对于在red1 dmc1双突变体中起作用的姐妹染色单体间重组途径有效修复断裂是必需的。

结论

REC114的过表达通过阻止DSB的形成来抑制减数分裂停滞。高拷贝数的RAD54激活一种不依赖DMC1的机制,该机制通过同源介导的重组促进DSB的修复。RAD54促进不依赖DMC1的重组的能力被认为涉及抑制一种通常促进同源染色单体而非姐妹染色单体之间重组的限制因素。

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