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糖原合成酶激酶3（GSK-3）家族的Mck1激酶和钙调神经磷酸酶协同介导出芽酵母中Ca2+所致的Hsl1下调。

GSK-3 kinase Mck1 and calcineurin coordinately mediate Hsl1 down-regulation by Ca2+ in budding yeast.

作者信息

Mizunuma M, Hirata D, Miyaoka R, Miyakawa T

机构信息

Department of Molecular Biotechnology, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima 739-8526, Japan.

出版信息

EMBO J. 2001 Mar 1;20(5):1074-85. doi: 10.1093/emboj/20.5.1074.

DOI:10.1093/emboj/20.5.1074

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC145470/

Abstract

The Ca2+-activated pathways of Saccharomyces cerevisiae induce a delay in the onset of mitosis through the activation of Swe1, a negative regulatory kinase that inhibits the Cdc28-Clb complex. Calcineurin and Mpk1 activate Swe1 at the transcriptional and post-translational level, respectively, and both pathways are essential for the cell cycle delay. Our genetic screening identified the MCK1 gene, which encodes a glycogen synthetase kinase-3 family protein kinase, as a component of the Ca2+ signaling pathway. Genetic analyses indicated that Mck1 functions downstream of the Mpk1 pathway and down-regulates Hsl1, an inhibitory kinase of Swe1. In medium with a high concentration of Ca2+, Hsl1 was delocalized from the bud neck and destabilized in a manner dependent on both calcineurin and Mck1. Calcineurin was required for the dephosphorylation of autophosphorylated Hsl1. The E3 ubiquitin ligase complex SCF(Cdc4), but not the anaphase-promoting complex (APC), was essential for Hsl1 destabilization. The Ca2+-activated pathway may play a role in the rapid inactivation of Hsl1 at the cell cycle stage(s) when APC activity is low.

摘要

酿酒酵母的钙离子激活途径通过激活Swe1（一种抑制Cdc28-Clb复合物的负调控激酶）来诱导有丝分裂起始的延迟。钙调神经磷酸酶和Mpk1分别在转录水平和翻译后水平激活Swe1，并且这两条途径对于细胞周期延迟都是必不可少的。我们的遗传筛选确定了MCK1基因，其编码一种糖原合成酶激酶-3家族蛋白激酶，作为钙离子信号通路的一个组成部分。遗传分析表明，Mck1在Mpk1途径的下游起作用，并下调Swe1的抑制性激酶Hsl1。在高浓度钙离子的培养基中，Hsl1从芽颈处脱离定位，并以一种依赖于钙调神经磷酸酶和Mck1的方式变得不稳定。钙调神经磷酸酶是自磷酸化的Hsl1去磷酸化所必需的。E3泛素连接酶复合物SCF（Cdc4），而不是后期促进复合物（APC），对于Hsl1的不稳定是必不可少的。钙离子激活途径可能在APC活性较低的细胞周期阶段对Hsl1的快速失活起作用。