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引用次数: 0
摘要
减数分裂前期的缺陷可导致减数分裂染色体错误分离和非整倍体配子的形成。在存在减数分裂缺陷的生殖细胞中,减数分裂检查点会被激活,错误未被修复的细胞会被细胞凋亡所淘汰。这种监控过程是如何调控的仍是个谜。在这里,我们报告了染色体组偶联泛素-蛋白酶体途径(UPP)调节减数分裂检查点的激活,并促进秀丽隐杆线虫减数分裂缺陷突变体中生殖细胞的凋亡。我们发现了一种 F-box 蛋白 FBXL-2,它是该通路的核心成分。这种与染色体耦合的 UPP 调节减数分裂 DSB 修复动力学以及突触缺陷突变体的染色体动态行为。中断的UPP会影响HORMA结构域蛋白HIM-3的轴向招募,而HIM-3是突触缺陷突变体中有效生殖细胞凋亡所必需的。我们的数据表明,有效的染色体耦合 UPP 可通过增强减数分裂染色体轴的完整性来发挥减数分裂监控系统的作用。
A chromosome-coupled ubiquitin-proteasome pathway is required for meiotic surveillance
Defects in meiotic prophase can cause meiotic chromosome missegregation and aneuploid gamete formation. Meiotic checkpoints are activated in germ cells with meiotic defects, and cells with unfixed errors are eliminated by apoptosis. How such a surveillance process is regulated remains elusive. Here, we report that a chromosome-coupled ubiquitin-proteasome pathway (UPP) regulates meiotic checkpoint activation and promotes germ cell apoptosis in C. elegans meiosis-defective mutants. We identified an F-box protein, FBXL-2, that functions as a core component within the pathway. This chromosome-coupled UPP regulates meiotic DSB repair kinetics and chromosome dynamic behaviors in synapsis defective mutants. Disrupted UPP impairs the axial recruitment of the HORMA domain protein HIM-3, which is required for efficient germ cell apoptosis in synapsis defective mutants. Our data suggest that an efficient chromosome-coupled UPP functions as a part of the meiotic surveillance system by enhancing the integrity of the meiotic chromosome axis.
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