在体内探测 Mad1:C-Mad2 在纺锤体组装检查点中的功能。
Probing the in vivo function of Mad1:C-Mad2 in the spindle assembly checkpoint.
机构信息
Growth and Development, Biozentrum, University of Basel, Basel, Switzerland.
出版信息
EMBO J. 2011 Jul 19;30(16):3322-36. doi: 10.1038/emboj.2011.239.
Abstract
The spindle assembly checkpoint (SAC) restrains anaphase until all chromosomes become bi-oriented on the mitotic spindle. The SAC protein Mad2 can fold into two distinct conformers, open (O) and closed (C), and can asymmetrically dimerize. Here, we describe a monoclonal antibody that specifically recognizes the dimerization interface of C-Mad2. This antibody revealed several conformation-specific features of Mad2 in human cells. Notably, we show that Mad2 requires association with Mad1 to adopt the closed conformation and that the activity of the Mad1:C-Mad2 complex undergoes regulation by p31comet-dependent 'capping'. Furthermore, C-Mad2 antibody microinjection caused an abrupt termination of the SAC and accelerated mitotic progression. Remarkably, microinjection of a Mad1-neutralizing antibody triggered a comparable mitotic acceleration. Our study provides direct in vivo evidence for the model that a kinetochore complex of Mad1:C-Mad2 acts as a template to sustain the SAC and it challenges the distinction between SAC and mitotic timer.
摘要
纺锤体组装检查点(SAC)抑制后期,直到所有染色体在有丝分裂纺锤体上双定向。SAC 蛋白 Mad2 可以折叠成两种不同的构象,开放(O)和关闭(C),并可以不对称二聚化。在这里,我们描述了一种单克隆抗体,它可以特异性识别 C-Mad2 的二聚化界面。该抗体揭示了 Mad2 在人细胞中的几个构象特异性特征。值得注意的是,我们表明 Mad2 需要与 Mad1 结合才能采用封闭构象,并且 Mad1:C-Mad2 复合物的活性受到 p31comet 依赖性“盖帽”的调节。此外,C-Mad2 抗体微注射导致 SAC 突然终止并加速有丝分裂进程。值得注意的是,Mad1 中和抗体的微注射引发了类似的有丝分裂加速。我们的研究为 Mad1:C-Mad2 作为维持 SAC 的模板的模型提供了直接的体内证据,这挑战了 SAC 和有丝分裂定时器之间的区别。
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