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酿酒酵母突变体减数分裂过程中紧密稳定同源物并置的分析。

Analysis of close stable homolog juxtaposition during meiosis in mutants of Saccharomyces cerevisiae.

作者信息

Lui Doris Y, Peoples-Holst Tamara L, Mell Joshua Chang, Wu Hsin-Yen, Dean Eric W, Burgess Sean M

机构信息

Section of Molecular and Cellular Biology, University of California, Davis, California 95616, USA.

出版信息

Genetics. 2006 Jul;173(3):1207-22. doi: 10.1534/genetics.105.050658. Epub 2006 Apr 30.

DOI:10.1534/genetics.105.050658
PMID:16648640
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1526657/
Abstract

A unique aspect of meiosis is the segregation of homologous chromosomes at the meiosis I division. The pairing of homologous chromosomes is a critical aspect of meiotic prophase I that aids proper disjunction at anaphase I. We have used a site-specific recombination assay in Saccharomyces cerevisiae to examine allelic interaction levels during meiosis in a series of mutants defective in recombination, chromatin structure, or intracellular movement. Red1, a component of the chromosome axis, and Mnd1, a chromosome-binding protein that facilitates interhomolog interaction, are critical for achieving high levels of allelic interaction. Homologous recombination factors (Sae2, Rdh54, Rad54, Rad55, Rad51, Sgs1) aid in varying degrees in promoting allelic interactions, while the Srs2 helicase appears to play no appreciable role. Ris1 (a SWI2/SNF2 related protein) and Dot1 (a histone methyltransferase) appear to play minor roles. Surprisingly, factors involved in microtubule-mediated intracellular movement (Tub3, Dhc1, and Mlp2) appear to play no appreciable role in homolog juxtaposition, unlike their counterparts in fission yeast. Taken together, these results support the notion that meiotic recombination plays a major role in the high levels of homolog interaction observed during budding yeast meiosis.

摘要

减数分裂的一个独特之处在于同源染色体在减数第一次分裂时的分离。同源染色体的配对是减数第一次分裂前期的一个关键环节,有助于在后期I进行正确的分离。我们利用酿酒酵母中的位点特异性重组试验,在一系列重组、染色质结构或细胞内运动存在缺陷的突变体中,研究减数分裂过程中的等位基因相互作用水平。Red1是染色体轴的一个组成部分,Mnd1是一种促进同源物间相互作用的染色体结合蛋白,它们对于实现高水平的等位基因相互作用至关重要。同源重组因子(Sae2、Rdh54、Rad54、Rad55、Rad51、Sgs1)在不同程度上有助于促进等位基因相互作用,而Srs2解旋酶似乎没有明显作用。Ris1(一种与SWI2/SNF2相关的蛋白)和Dot1(一种组蛋白甲基转移酶)似乎起次要作用。令人惊讶的是,与裂殖酵母中的对应物不同,参与微管介导的细胞内运动的因子(Tub3、Dhc1和Mlp2)在同源物并列中似乎没有明显作用。综上所述,这些结果支持了减数分裂重组在芽殖酵母减数分裂过程中观察到的高水平同源物相互作用中起主要作用这一观点。

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