减数分裂 I 期纺锤体检查点的激活通过减数分裂特异性 APC/C 调控促进后期 II 的开始。

Spindle checkpoint activation at meiosis I advances anaphase II onset via meiosis-specific APC/C regulation.

作者信息

Yamamoto Ayumu, Kitamura Kenji, Hihara Daisuke, Hirose Yukinobu, Katsuyama Satoshi, Hiraoka Yasushi

机构信息

Department of Chemistry, Shizuoka University, Suruga-ku, Shizuoka 422-8529, Japan.

出版信息

J Cell Biol. 2008 Jul 28;182(2):277-88. doi: 10.1083/jcb.200802053. Epub 2008 Jul 21.

DOI:10.1083/jcb.200802053

PMID:18644893

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2483520/

Abstract

During mitosis, the spindle assembly checkpoint (SAC) inhibits the Cdc20-activated anaphase-promoting complex/cyclosome (APC/C(Cdc20)), which promotes protein degradation, and delays anaphase onset to ensure accurate chromosome segregation. However, the SAC function in meiotic anaphase regulation is poorly understood. Here, we examined the SAC function in fission yeast meiosis. As in mitosis, a SAC factor, Mad2, delayed anaphase onset via Slp1 (fission yeast Cdc20) when chromosomes attach to the spindle improperly. However, when the SAC delayed anaphase I, the interval between meiosis I and II shortened. Furthermore, anaphase onset was advanced and the SAC effect was reduced at meiosis II. The advancement of anaphase onset depended on a meiosis-specific, Cdc20-related factor, Fzr1/Mfr1, which contributed to anaphase cyclin decline and anaphase onset and was inefficiently inhibited by the SAC. Our findings show that impacts of SAC activation are not confined to a single division at meiosis due to meiosis-specific APC/C regulation, which has probably been evolved for execution of two meiotic divisions.

摘要

在有丝分裂过程中，纺锤体组装检查点（SAC）抑制由Cdc20激活的后期促进复合物/周期体（APC/C（Cdc20）），后者促进蛋白质降解，并延迟后期开始以确保准确的染色体分离。然而，SAC在减数分裂后期调控中的功能却鲜为人知。在此，我们研究了裂殖酵母减数分裂中SAC的功能。与有丝分裂一样，当染色体与纺锤体附着不当的时候，一个SAC因子Mad2通过Slp1（裂殖酵母Cdc20）延迟后期开始。然而，当SAC延迟减数分裂I时，减数分裂I和II之间的间隔缩短。此外，后期开始提前，并且在减数分裂II时SAC效应降低。后期开始的提前依赖于一个减数分裂特异性的、与Cdc20相关的因子Fzr1/Mfr1，它导致后期细胞周期蛋白下降和后期开始，并且受SAC抑制的效率低下。我们的研究结果表明，由于减数分裂特异性的APC/C调控，SAC激活的影响并不局限于减数分裂中的单一分裂，这种调控可能是为了执行两次减数分裂而进化而来的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b3c/2483520/7e51138d3c48/jcb1820277f01.jpg

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减数分裂 I 期纺锤体检查点的激活通过减数分裂特异性 APC/C 调控促进后期 II 的开始。

Spindle checkpoint activation at meiosis I advances anaphase II onset via meiosis-specific APC/C regulation.

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