Cbx2通过一种不依赖PRC2或PRC1的机制与有丝分裂染色体稳定结合，并且在将PRC1复合物招募到有丝分裂染色体上是必需的。

Cbx2 stably associates with mitotic chromosomes via a PRC2- or PRC1-independent mechanism and is needed for recruiting PRC1 complex to mitotic chromosomes.

作者信息

Zhen Chao Yu, Duc Huy Nguyen, Kokotovic Marko, Phiel Christopher J, Ren Xiaojun

机构信息

Department of Chemistry, University of Colorado Denver, Denver, CO 80217-3364.

Department of Integrative Biology, University of Colorado Denver, Denver, CO 80217-3364.

出版信息

Mol Biol Cell. 2014 Nov 15;25(23):3726-39. doi: 10.1091/mbc.E14-06-1109. Epub 2014 Sep 17.

DOI:10.1091/mbc.E14-06-1109

PMID:25232004

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4230780/

Abstract

Polycomb group (PcG) proteins are epigenetic transcriptional factors that repress key developmental regulators and maintain cellular identity through mitosis via a poorly understood mechanism. Using quantitative live-cell imaging in mouse ES cells and tumor cells, we demonstrate that, although Polycomb repressive complex (PRC) 1 proteins (Cbx-family proteins, Ring1b, Mel18, and Phc1) exhibit variable capacities of association with mitotic chromosomes, Cbx2 overwhelmingly binds to mitotic chromosomes. The recruitment of Cbx2 to mitotic chromosomes is independent of PRC1 or PRC2, and Cbx2 is needed to recruit PRC1 complex to mitotic chromosomes. Quantitative fluorescence recovery after photobleaching analysis indicates that PRC1 proteins rapidly exchange at interphasic chromatin. On entry into mitosis, Cbx2, Ring1b, Mel18, and Phc1 proteins become immobilized at mitotic chromosomes, whereas other Cbx-family proteins dynamically bind to mitotic chromosomes. Depletion of PRC1 or PRC2 protein has no effect on the immobilization of Cbx2 on mitotic chromosomes. We find that the N-terminus of Cbx2 is needed for its recruitment to mitotic chromosomes, whereas the C-terminus is required for its immobilization. Thus these results provide fundamental insights into the molecular mechanisms of epigenetic inheritance.

摘要

多梳蛋白家族（PcG）是一类表观遗传转录因子，它们通过一种尚不清楚的机制抑制关键的发育调节因子，并在有丝分裂过程中维持细胞特性。利用对小鼠胚胎干细胞和肿瘤细胞进行的定量活细胞成像，我们证明，尽管多梳抑制复合物（PRC）1蛋白（Cbx家族蛋白、Ring1b、Mel18和Phc1）与有丝分裂染色体的结合能力各不相同，但Cbx2却压倒性地与有丝分裂染色体结合。Cbx2募集到有丝分裂染色体上与PRC1或PRC2无关，而将PRC1复合物募集到有丝分裂染色体上则需要Cbx2。光漂白后荧光定量恢复分析表明，PRC1蛋白在间期染色质上能快速交换。进入有丝分裂时，Cbx2、Ring1b、Mel18和Phc1蛋白固定在有丝分裂染色体上，而其他Cbx家族蛋白则动态结合到有丝分裂染色体上。PRC1或PRC2蛋白的缺失对Cbx2在有丝分裂染色体上的固定没有影响。我们发现，Cbx2的N端是其募集到有丝分裂染色体所必需的，而C端是其固定所必需的。因此，这些结果为表观遗传遗传的分子机制提供了重要见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d0cb/4230780/b38ac6fea467/3726fig1.jpg

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Cbx2通过一种不依赖PRC2或PRC1的机制与有丝分裂染色体稳定结合，并且在将PRC1复合物招募到有丝分裂染色体上是必需的。

Cbx2 stably associates with mitotic chromosomes via a PRC2- or PRC1-independent mechanism and is needed for recruiting PRC1 complex to mitotic chromosomes.

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