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前中期BubR1的乙酰化对于调节后期促进复合物/细胞周期体（APC/C）的活性和有丝分裂时间是必需的。

BubR1 acetylation at prometaphase is required for modulating APC/C activity and timing of mitosis.

作者信息

Choi Eunhee, Choe Hyerim, Min Jaewon, Choi Ji Yoon, Kim Jimi, Lee Hyunsook

机构信息

Department of Biological Sciences and Institute of Molecular Biology and Genetics, College of Natural Sciences, Seoul National University, Seoul, Korea.

出版信息

EMBO J. 2009 Jul 22;28(14):2077-89. doi: 10.1038/emboj.2009.123. Epub 2009 Apr 30.

DOI:10.1038/emboj.2009.123

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2684026/

Abstract

Regulation of BubR1 is central to the control of APC/C activity. We have found that BubR1 forms a complex with PCAF and is acetylated at lysine 250. Using mass spectrometry and acetylated BubR1-specific antibodies, we have confirmed that BubR1 acetylation occurs at prometaphase. Importantly, BubR1 acetylation was required for checkpoint function, through the inhibition of ubiquitin-dependent BubR1 degradation. BubR1 degradation began before the onset of anaphase. It was noted that the pre-anaphase degradation was regulated by BubR1 acetylation. Degradation of an acetylation-mimetic form, BubR1-K250Q, was inhibited and chromosome segregation in cells expressing BubR1-K250Q was markedly delayed. By contrast, the acetylation-deficient mutant, BubR1-K250R, was unstable, and mitosis was accelerated in BubR1-K250R-expressing cells. Furthermore, we found that APC/C-Cdc20 was responsible for BubR1 degradation during mitosis. On the basis of our collective results, we propose that the acetylation status of BubR1 is a molecular switch that converts BubR1 from an inhibitor to a substrate of the APC/C complex, thus providing an efficient way to modulate APC/C activity and mitotic timing.

摘要

BubR1的调控是控制后期促进复合体（APC/C）活性的核心。我们发现BubR1与PCAF形成复合物，并在赖氨酸250处发生乙酰化。通过质谱分析和乙酰化BubR1特异性抗体，我们证实BubR1乙酰化发生在有丝分裂前中期。重要的是，通过抑制泛素依赖性BubR1降解，BubR1乙酰化是检查点功能所必需的。BubR1降解在后期开始之前就已启动。值得注意的是，前期降解受BubR1乙酰化调控。模拟乙酰化形式的BubR1-K250Q的降解受到抑制，并且在表达BubR1-K250Q的细胞中染色体分离明显延迟。相比之下，乙酰化缺陷型突变体BubR1-K250R不稳定，并且在表达BubR1-K250R的细胞中有丝分裂加速。此外，我们发现APC/C-Cdc20在有丝分裂期间负责BubR1的降解。基于我们的总体结果，我们提出BubR1的乙酰化状态是一种分子开关，它将BubR1从抑制剂转变为APC/C复合物的底物，从而提供一种调节APC/C活性和有丝分裂时间的有效方式。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f8aa/2718277/b0741eca1c1c/emboj2009123f1.jpg