进化上保守的MZIP2对哺乳动物减数分裂中的交叉形成至关重要。

Evolutionarily-conserved MZIP2 is essential for crossover formation in mammalian meiosis.

作者信息

Zhang Qianting, Shao Jingchen, Fan Heng-Yu, Yu Chao

机构信息

Department of Chemistry and Molecular Biology, University of Gothenburg, SE-40530, Gothenburg, Sweden.

Life Sciences Institute, Zhejiang University, Hangzhou, 310058, China.

出版信息

Commun Biol. 2018 Sep 21;1:147. doi: 10.1038/s42003-018-0154-z. eCollection 2018.

DOI:10.1038/s42003-018-0154-z

PMID:30272023

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6155065/

Abstract

During meiosis, formation of crossovers-the physical links that ensure the segregation of homologous chromosomes-requires a group of evolutionarily conserved ZMM proteins. In budding yeast, three ZMM proteins, Zip2, Spo16, and Zip4, form a trimeric complex to bind recombination intermediates and promote crossover formation. Here, we show that MZIP2 is the mammalian ortholog of Zip2. Complete ablation of MZIP2 in mice caused sterility in both males and females, as well as defects in repairing meiotic DNA double-strand breaks. MZIP2 forms discrete foci on chromosomes axes, and is required for the localization of TEX11 (mammalian Zip4 ortholog) and another ZMM protein, MSH4, to form crossover-prone recombination intermediates. As a consequence, formation of crossovers is abolished and formation of synaptonemal complex is incomplete in MZIP2-null meiocytes, resulting in meiosis arrest at a zygotene-like stage. Our results suggest that the processing of early recombination intermediates toward mature crossovers is dependent on MZIP2.

摘要

在减数分裂过程中，交叉的形成——确保同源染色体分离的物理连接——需要一组进化上保守的ZMM蛋白。在芽殖酵母中，三种ZMM蛋白Zip2、Spo16和Zip4形成三聚体复合物，以结合重组中间体并促进交叉形成。在此，我们表明MZIP2是Zip2的哺乳动物直系同源物。在小鼠中完全敲除MZIP2会导致雄性和雌性不育，以及减数分裂DNA双链断裂修复缺陷。MZIP2在染色体轴上形成离散的焦点，并且是TEX11（哺乳动物Zip4直系同源物）和另一种ZMM蛋白MSH4定位以形成易于交叉的重组中间体所必需的。因此，在缺失MZIP2的减数分裂细胞中，交叉的形成被消除，联会复合体的形成不完整，导致减数分裂在类似偶线期的阶段停滞。我们的结果表明，早期重组中间体向成熟交叉的加工依赖于MZIP2。

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本文引用的文献

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进化上保守的MZIP2对哺乳动物减数分裂中的交叉形成至关重要。

Evolutionarily-conserved MZIP2 is essential for crossover formation in mammalian meiosis.

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