一种用于探索Polo样激酶途径的化学遗传学与生物信息学相结合的方法。

A coupled chemical-genetic and bioinformatic approach to Polo-like kinase pathway exploration.

作者信息

Snead Jennifer L, Sullivan Matthew, Lowery Drew M, Cohen Michael S, Zhang Chao, Randle David H, Taunton Jack, Yaffe Michael B, Morgan David O, Shokat Kevan M

机构信息

Department of Cellular and Molecular Pharmacology, University of California San Francisco, San Francisco, CA 94158, USA.

出版信息

Chem Biol. 2007 Nov;14(11):1261-72. doi: 10.1016/j.chembiol.2007.09.011.

DOI:10.1016/j.chembiol.2007.09.011

PMID:18022565

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2215327/

Abstract

Protein phosphorylation is a ubiquitous mechanism for cellular signal propagation, and signaling network complexity presents a challenge to protein kinase substrate identification. Few targets of Polo-like kinases are known, despite their significant role in coordinating cell-cycle progression. Here, we combine chemical-genetic, bioinformatic, and proteomic tools for Polo-like kinase substrate identification. Specific pharmacological inhibition of budding yeast Polo-like kinase, Cdc5, resulted in a misaligned preanaphase spindle and subsequently delayed anaphase nuclear migration, revealing a Cdc5 function. A cellular screen for Cdc5 substrates identified Spc72, a spindle pole body (SPB) component and microtubule anchor required for nuclear positioning. Spc72 bound to the Cdc5 PBD in a mitosis-specific manner, was phosphorylated by Cdc5 in vitro, and demonstrated a loss of mitotic phosphorylation in vivo upon Cdc5 inhibition. Finally, an examination of Cdc5 binding by SPB-localized proteins expanded our knowledge of Cdc5 function at the SPB.

摘要

蛋白质磷酸化是细胞信号传导的一种普遍机制，而信号网络的复杂性对蛋白激酶底物的识别提出了挑战。尽管Polo样激酶在协调细胞周期进程中发挥着重要作用，但目前已知的其靶点却很少。在此，我们结合化学遗传学、生物信息学和蛋白质组学工具来识别Polo样激酶的底物。对芽殖酵母Polo样激酶Cdc5进行特异性药理抑制，导致前后期纺锤体排列不齐，随后延迟后期核迁移，揭示了Cdc5的一种功能。对Cdc5底物进行的细胞筛选鉴定出Spc72，它是核定位所需的纺锤体极体（SPB）组分和微管锚定蛋白。Spc72以有丝分裂特异性方式与Cdc5的PBD结合，在体外被Cdc5磷酸化，并且在体内Cdc5受抑制时表现出有丝分裂磷酸化的丧失。最后，对SPB定位蛋白与Cdc5的结合情况进行的研究扩展了我们对Cdc5在SPB处功能的认识。

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