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DNA结构特异性蛋白Rad1、Msh2、Msh3和Sgs1在酵母基因靶向中的相反作用。

Opposing roles for DNA structure-specific proteins Rad1, Msh2, Msh3, and Sgs1 in yeast gene targeting.

作者信息

Langston Lance D, Symington Lorraine S

机构信息

Integrated Program in Cellular, Molecular, and Biophysical Studies, Columbia University Medical Center, New York, NY 10032, USA.

出版信息

EMBO J. 2005 Jun 15;24(12):2214-23. doi: 10.1038/sj.emboj.7600698. Epub 2005 May 26.

DOI:10.1038/sj.emboj.7600698
PMID:15920474
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1150892/
Abstract

Targeted gene replacement (TGR) in yeast and mammalian cells is initiated by the two free ends of the linear targeting molecule, which invade their respective homologous sequences in the chromosome, leading to replacement of the targeted locus with a selectable gene from the targeting DNA. To study the postinvasion steps in recombination, we examined the effects of DNA structure-specific proteins on TGR frequency and heteroduplex DNA formation. In strains deleted of RAD1, MSH2, or MSH3, we find that the frequency of TGR is reduced and the mechanism of TGR is altered while the reverse is true for deletion of SGS1, suggesting that Rad1 and Msh2:Msh3 facilitate TGR while Sgs1 opposes it. The altered mechanism of TGR in the absence of Msh2:Msh3 and Rad1 reveals a separate role for these proteins in suppressing an alternate gene replacement pathway in which incorporation of both homology regions from a single strand of targeting DNA into heteroduplex with the targeted locus creates a mismatch between the selectable gene on the targeting DNA and the targeted gene in the chromosome.

摘要

酵母和哺乳动物细胞中的靶向基因置换(TGR)由线性靶向分子的两个自由末端启动,这两个末端侵入染色体中各自的同源序列,导致靶向基因座被来自靶向DNA的可选择基因所取代。为了研究重组中的入侵后步骤,我们检测了DNA结构特异性蛋白对TGR频率和异源双链DNA形成的影响。在缺失RAD1、MSH2或MSH3的菌株中,我们发现TGR频率降低且TGR机制发生改变,而缺失SGS1时情况则相反,这表明Rad1和Msh2:Msh3促进TGR,而Sgs1则起相反作用。在缺乏Msh2:Msh3和Rad1的情况下,TGR机制的改变揭示了这些蛋白在抑制另一种基因置换途径中的单独作用,在这种途径中,来自靶向DNA单链的两个同源区域与靶向基因座掺入异源双链中,会导致靶向DNA上的可选择基因与染色体中的靶向基因之间出现错配。

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