酿酒酵母中，Cdc15激酶与Tem1 GTP酶相互作用需要一个新的功能结构域。

A novel functional domain of Cdc15 kinase is required for its interaction with Tem1 GTPase in Saccharomyces cerevisiae.

作者信息

Asakawa Kazuhide, Yoshida Satoshi, Otake Fumiaki, Toh-e Akio

机构信息

Department of Biological Sciences, Graduate School of Science, The University of Tokyo, Hongo, Tokyo 113-0033, Japan.

出版信息

Genetics. 2001 Apr;157(4):1437-50. doi: 10.1093/genetics/157.4.1437.

DOI:10.1093/genetics/157.4.1437

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1461593/

Abstract

Exit from mitosis requires the inactivation of cyclin-dependent kinase (CDK) activity. In the budding yeast Saccharomyces cerevisiae, a number of gene products have been identified as components of the signal transduction network regulating inactivation of CDK (called the MEN, for the mitotic exit network). Cdc15, one of such components of the MEN, is an essential protein kinase. By the two-hybrid screening, we identified Cdc15 as a binding protein of Tem1 GTPase, another essential regulator of the MEN. Coprecipitation experiments revealed that Tem1 binds to Cdc15 in vivo. By deletion analysis, we found that the Tem1-binding domain resides near the conserved kinase domain of Cdc15. The cdc15-LF mutation, which was introduced into the Tem1-binding domain, reduced the interaction with Cdc15 and Tem1 and caused temperature-sensitive growth. The kinase activity of Cdc15 was not so much affected by the cdc15-LF mutation. However, Cdc15-LF failed to localize to the SPB at the restrictive temperature. Our data show that the interaction with Tem1 is important for the function of Cdc15 and that Cdc15 and Tem1 function in a complex to direct the exit from mitosis.

摘要

从有丝分裂中退出需要细胞周期蛋白依赖性激酶（CDK）活性的失活。在芽殖酵母酿酒酵母中，许多基因产物已被鉴定为调节CDK失活的信号转导网络的组成部分（称为MEN，即有丝分裂退出网络）。MEN的此类组成部分之一Cdc15是一种必需的蛋白激酶。通过双杂交筛选，我们鉴定出Cdc15是Tem1 GTP酶的结合蛋白，Tem1 GTP酶是MEN的另一种必需调节因子。共沉淀实验表明，Tem1在体内与Cdc15结合。通过缺失分析，我们发现Tem1结合结构域位于Cdc15保守激酶结构域附近。引入Tem1结合结构域的cdc15-LF突变减少了与Cdc15和Tem1的相互作用，并导致温度敏感型生长。Cdc15的激酶活性受cdc15-LF突变的影响不大。然而，在限制温度下，Cdc15-LF无法定位于纺锤体极体（SPB）。我们的数据表明，与Tem1的相互作用对Cdc15的功能很重要，并且Cdc15和Tem1在一个复合物中发挥作用，以指导有丝分裂的退出。

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