控制减数分裂染色体动态的相位分离。

2区生物学 Q1 Biochemistry, Genetics and Molecular Biology Current Topics in Developmental Biology Pub Date : 2023-01-01 Epub Date: 2022-06-09 DOI:10.1016/bs.ctdb.2022.04.004

Ruirui Zhang, Yuanyuan Liu, Jinmin Gao

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引用次数: 0

摘要

有性生殖的生物通过减数分裂产生单倍体配子，在减数分裂过程中，单轮DNA复制后进行两次连续的染色体分离。减数分裂前期会发生一系列减数分裂特异事件，以确保染色体成功分离。这些事件包括程序性 DNA 双链断裂的形成、由细胞质力驱动的染色体移动、同源配对、突触复合体的安装以及同源体间交叉的形成。相分离已成为控制细胞生物分子物质组织和生物过程的关键原理。最近的研究发现，相分离参与了减数分裂染色体相关结构的组装。在此，我们回顾并讨论了相分离如何参与减数分裂染色体动力学，并提出相分离可能为理解减数分裂调控的奥秘提供机会。

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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Phase separation in controlling meiotic chromosome dynamics.

Sexually reproducing organisms produce haploid gametes through meiotic cell division, during which a single round of DNA replication is followed by two consecutive chromosome segregation. A series of meiosis-specific events take place during the meiotic prophase to ensure successful chromosome segregation. These events include programmed DNA double-strand break formation, chromosome movement driven by cytoplasmic forces, homologous pairing, synaptonemal complex installation, and inter-homolog crossover formation. Phase separation has emerged as a key principle controlling cellular biomolecular material organization and biological processes. Recent studies have revealed the involvements of phase separation in assembling meiotic chromosome-associated structures. Here we review and discuss how phase separation may participate in meiotic chromosome dynamics and propose that it may provide opportunities to understand the mysteries in meiotic regulations.

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