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Feedback regulation of SIN by Etd1 and Rho1 in fission yeast.裂殖酵母中 Etd1 和 Rho1 对 SIN 的反馈调节。
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Polar opposites: Fine-tuning cytokinesis through SIN asymmetry.两极分化:通过 SIN 不对称精细调节胞质分裂。
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本文引用的文献

1
The molecular requirements for cytokinesis.胞质分裂的分子要求。
Science. 2005 Mar 18;307(5716):1735-9. doi: 10.1126/science.1096896.
2
C-terminal anchoring of mid1p to membranes stabilizes cytokinetic ring position in early mitosis in fission yeast.mid1p在膜上的C末端锚定作用可稳定裂殖酵母有丝分裂早期细胞分裂环的位置。
Mol Cell Biol. 2004 Dec;24(24):10621-35. doi: 10.1128/MCB.24.24.10621-10635.2004.
3
Organization of a sterol-rich membrane domain by cdc15p during cytokinesis in fission yeast.在裂殖酵母胞质分裂过程中,cdc15p对富含固醇的膜结构域的组织作用。
Nat Cell Biol. 2004 Nov;6(11):1142-4. doi: 10.1038/ncb1189. Epub 2004 Nov 1.
4
Comparative analysis of cytokinesis in budding yeast, fission yeast and animal cells.芽殖酵母、裂殖酵母和动物细胞中胞质分裂的比较分析。
Curr Biol. 2004 Sep 21;14(18):R806-18. doi: 10.1016/j.cub.2004.09.022.
5
SIN and the art of splitting the fission yeast cell.SIN与裂殖酵母细胞分裂的机制
Curr Biol. 2004 Sep 7;14(17):R722-30. doi: 10.1016/j.cub.2004.08.049.
6
Myosin-II reorganization during mitosis is controlled temporally by its dephosphorylation and spatially by Mid1 in fission yeast.在裂殖酵母中,有丝分裂期间肌球蛋白-II的重组在时间上受其去磷酸化控制,在空间上受Mid1控制。
J Cell Biol. 2004 Jun 7;165(5):685-95. doi: 10.1083/jcb.200402097.
7
Initiation of cytokinesis is controlled through multiple modes of regulation of the Sid2p-Mob1p kinase complex.胞质分裂的起始是通过Sid2p-Mob1p激酶复合体的多种调控模式来控制的。
Mol Cell Biol. 2004 Apr;24(8):3262-76. doi: 10.1128/MCB.24.8.3262-3276.2004.
8
Regulated mRNA stability of the Cdk inhibitor Rum1 links nutrient status to cell cycle progression.细胞周期蛋白依赖性激酶(Cdk)抑制剂Rum1的mRNA稳定性受调控,将营养状态与细胞周期进程联系起来。
Curr Biol. 2003 Dec 2;13(23):2015-24. doi: 10.1016/j.cub.2003.10.061.
9
Spatial and temporal pathway for assembly and constriction of the contractile ring in fission yeast cytokinesis.裂殖酵母胞质分裂中收缩环组装与缢缩的时空途径。
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10
Events at the end of mitosis in the budding and fission yeasts.芽殖酵母和裂殖酵母有丝分裂末期的事件。
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Etd1p是一种将SIN级联与胞质分裂联系起来的新型蛋白质。

Etd1p is a novel protein that links the SIN cascade with cytokinesis.

作者信息

Daga Rafael R, Lahoz Aurelia, Muñoz Manuel J, Moreno Sergio, Jimenez Juan

机构信息

Centro Andaluz de Biología del Desarrollo, CSIC/Universidad Pablo de Olavide, Carretera de Utrera Km1, Sevilla, Spain.

出版信息

EMBO J. 2005 Jul 6;24(13):2436-46. doi: 10.1038/sj.emboj.7600705. Epub 2005 Jun 2.

DOI:10.1038/sj.emboj.7600705
PMID:15933715
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1173146/
Abstract

In animal cells, cytokinesis occurs by constriction of an actomyosin ring. In fission yeast cells, ring constriction is triggered by the septum initiation network (SIN), an SPB-associated GTPase-regulated kinase cascade that coordinates exit from mitosis with cytokinesis. We have identified a novel protein, Etd1p, required to trigger actomyosin ring constriction in fission yeasts. This protein is localised at the cell tips during interphase. In mitosis, it relocates to the medial cortex region and, coincident with cytokinesis, it assembles into the actomyosin ring by association to Cdc15p. Relocation of Etd1p from the plasma membrane to the medial ring is triggered by SIN signalling and, reciprocally, relocation of the Sid2p-Mob1p kinase complex from the SPB to the division site, a late step in the execution of the SIN, requires Etd1p. These results suggest that Etd1p coordinates the mitotic activation of SIN with the initiation of actomyosin ring constriction. Etd1p peaks during cytokinesis and is degraded by the ubiquitin-dependent 26S-proteasome pathway at the end of septation, providing a mechanism to couple inactivation of SIN to completion of cytokinesis.

摘要

在动物细胞中,胞质分裂通过肌动球蛋白环的收缩而发生。在裂殖酵母细胞中,环收缩由隔膜起始网络(SIN)触发,这是一种与纺锤体极体(SPB)相关的、由GTP酶调节的激酶级联反应,它协调有丝分裂退出与胞质分裂。我们鉴定出一种新型蛋白质Etd1p,它是裂殖酵母中触发肌动球蛋白环收缩所必需的。这种蛋白质在间期定位于细胞尖端。在有丝分裂过程中,它重新定位到中间皮质区域,并且在胞质分裂时,通过与Cdc15p结合而组装到肌动球蛋白环中。Etd1p从质膜到中间环的重新定位由SIN信号触发,相反,Sid2p-Mob1p激酶复合物从SPB到分裂位点的重新定位(SIN执行的后期步骤)需要Etd1p。这些结果表明,Etd1p协调SIN的有丝分裂激活与肌动球蛋白环收缩的起始。Etd1p在胞质分裂期间达到峰值,并在隔膜形成结束时通过泛素依赖性26S蛋白酶体途径降解,提供了一种将SIN失活与胞质分裂完成相偶联的机制。