Proximity labeling reveals new functional relationships between meiotic recombination proteins in S. cerevisiae.

IF 4 2区 生物学 Q1 GENETICS & HEREDITY
PLoS Genetics Pub Date : 2024-10-15 eCollection Date: 2024-10-01 DOI:10.1371/journal.pgen.1011432
Karen Voelkel-Meiman, Jennifer C Liddle, Jeremy L Balsbaugh, Amy J MacQueen
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引用次数: 0

Abstract

Several protein ensembles facilitate crossover recombination and the associated assembly of synaptonemal complex (SC) during meiosis. In yeast, meiosis-specific factors including the DNA helicase Mer3, the "ZZS" complex consisting of Zip4, Zip2, and Spo16, the RING-domain protein Zip3, and the MutSγ heterodimer collaborate with crossover-promoting activity of the SC component, Zip1, to generate crossover-designated recombination intermediates. These ensembles also promote SC formation - the organized assembly of Zip1 with other structural proteins between aligned chromosome axes. We used proximity labeling to investigate spatial relationships between meiotic recombination and SC proteins in S. cerevisiae. We find that recombination initiation and SC factors are dispensable for proximity labeling of Zip3 by ZZS components, but proteins associated with early steps in recombination are required for Zip3 proximity labeling by MutSγ, suggesting that MutSγ joins Zip3 only after a recombination intermediate has been generated. We also find that zip1 separation-of-function mutants that are crossover deficient but still assemble SC fail to generate protein ensembles where Zip3 can engage ZZS and/or MutSγ. The SC structural protein Ecm11 is proximity labeled by ZZS proteins in a Zip4-dependent and Zip1-independent manner, but labeling of Ecm11 by Zip3 and MutSγ requires, at least in part, Zip1. Finally, mass spectrometry analysis of biotinylated proteins in eleven proximity labeling strains uncovered shared proximity targets of SC and crossover-associated proteins, some of which have not previously been implicated in meiotic recombination or SC formation, highlighting the potential of proximity labeling as a discovery tool.

接近标记揭示了 S. cerevisiae 中减数分裂重组蛋白之间的新功能关系。
在减数分裂过程中,一些蛋白质组合促进了交叉重组和相关的突触复合体(SC)的组装。在酵母中,减数分裂特异性因子(包括 DNA 螺旋酶 Mer3、由 Zip4、Zip2 和 Spo16 组成的 "ZZS "复合体、RING-domain 蛋白 Zip3 和 MutSγ 异源二聚体)与 SC 成分 Zip1 的交叉促进活性协作,生成交叉指定的重组中间体。这些组合也促进了 SC 的形成--Zip1 与其他结构蛋白在对齐的染色体轴之间的有组织组装。我们利用接近标记技术研究了 S. cerevisiae 中减数分裂重组和 SC 蛋白之间的空间关系。我们发现,重组起始因子和SC因子对于ZZS成分对Zip3的近距离标记是不可或缺的,但与重组早期步骤相关的蛋白对于MutSγ对Zip3的近距离标记是必需的,这表明MutSγ只有在重组中间体产生后才会加入Zip3。我们还发现,存在交叉缺陷但仍能组装 SC 的 zip1 功能分离突变体未能产生 Zip3 能与 ZZS 和/或 MutSγ 结合的蛋白质组合。SC结构蛋白Ecm11与ZZS蛋白的接近标记依赖于Zip4而不依赖于Zip1,但Zip3和MutSγ对Ecm11的标记至少部分需要Zip1。最后,对 11 个近接标记菌株中生物素化蛋白质的质谱分析发现了 SC 蛋白和交叉相关蛋白的共同近接靶标,其中一些蛋白以前从未被认为与减数分裂重组或 SC 的形成有关,这突显了近接标记作为一种发现工具的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
PLoS Genetics
PLoS Genetics GENETICS & HEREDITY-
自引率
2.20%
发文量
438
期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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