Mcp7是裂殖酵母中一种减数分裂特异性的卷曲螺旋蛋白，它与Meu13相互作用，是减数分裂重组所必需的。

Mcp7, a meiosis-specific coiled-coil protein of fission yeast, associates with Meu13 and is required for meiotic recombination.

作者信息

Saito Takamune T, Tougan Takahiro, Kasama Takashi, Okuzaki Daisuke, Nojima Hiroshi

机构信息

Department of Molecular Genetics, Research Institute for Microbial Diseases, Osaka University, 3-1 Yamadaoka, Suita, Osaka 565-0871, Japan.

出版信息

Nucleic Acids Res. 2004 Jun 21;32(11):3325-39. doi: 10.1093/nar/gkh654. Print 2004.

DOI:10.1093/nar/gkh654

PMID:15210864

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC443530/

Abstract

We previously showed that Meu13 of Schizosaccharomyces pombe functions in homologous pairing and recombination at meiosis I. Here we show that a meiosis-specific gene encodes a coiled-coil protein that complexes with Meu13 during meiosis in vivo. This gene denoted as mcp7+ (after meiotic coiled-coil protein) is an ortholog of Mnd1 of Saccharomyces cerevisiae. Mcp7 proteins are detected on meiotic chromatin. The phenotypes of mcp7Delta cells are similar to those of meu13Delta cells as they show reduced recombination rates and spore viability and produce spores with abnormal morphology. However, a delay in initiation of meiosis I chromosome segregation of mcp7Delta cells is not so conspicuous as meu13Delta cells, and no meiotic delay is observed in mcp7Deltameu13Delta cells. Mcp7 and Meu13 proteins depend on each other differently; Mcp7 becomes more stable in meu13Delta cells, whereas Meu13 becomes less stable in mcp7Delta cells. Genetic analysis shows that Mcp7 acts in the downstream of Dmc1, homologs of Escherichia coli RecA protein, for both recombination and subsequent sporulation. Taken together, we conclude that Mcp7 associates with Meu13 and together they play a key role in meiotic recombination.

摘要

我们之前表明，裂殖酵母的Meu13在减数分裂I的同源配对和重组中发挥作用。在此我们表明，一个减数分裂特异性基因编码一种卷曲螺旋蛋白，该蛋白在体内减数分裂过程中与Meu13形成复合物。这个基因被命名为mcp7⁺（减数分裂卷曲螺旋蛋白之后），是酿酒酵母Mnd1的直系同源物。在减数分裂染色质上可检测到Mcp7蛋白。mcp7Δ细胞的表型与meu13Δ细胞相似，因为它们显示出重组率和孢子活力降低，并产生形态异常的孢子。然而，mcp7Δ细胞减数分裂I染色体分离起始的延迟不如meu13Δ细胞明显，并且在mcp7Δmeu13Δ细胞中未观察到减数分裂延迟。Mcp7和Meu13蛋白相互依赖的方式不同；Mcp7在meu13Δ细胞中变得更稳定，而Meu13在mcp7Δ细胞中变得不太稳定。遗传分析表明，Mcp7在大肠杆菌RecA蛋白的同源物Dmc1的下游发挥作用，参与重组和随后的孢子形成。综上所述，我们得出结论，Mcp7与Meu13结合，它们共同在减数分裂重组中起关键作用。

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本文引用的文献

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