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在粗糙脉孢菌中,核 Dbf2 相关激酶 COT1 的不同磷酸化状态调控细胞的伸长和分支。

Cell elongation and branching are regulated by differential phosphorylation states of the nuclear Dbf2-related kinase COT1 in Neurospora crassa.

机构信息

Department of Plant Pathology and Microbiology, The Otto Warburg Minerva Center for Agricultural Biotechnology, The Robert H. Smith Faculty of Agriculture, Food and Environment, The Hebrew University of Jerusalem, Rehovot 76100, Israel.

出版信息

Mol Microbiol. 2009 Nov;74(4):974-89. doi: 10.1111/j.1365-2958.2009.06911.x. Epub 2009 Oct 8.

DOI:10.1111/j.1365-2958.2009.06911.x
PMID:19818014
Abstract

Dysfunction of the Neurospora crassa nuclear Dbf2-related kinase COT1 leads to cessation of tip extension and massive induction of new sites of growth. To determine the role phosphorylation plays in COT1 function, we mutated COT1 residues corresponding to positions of highly conserved nuclear Dbf2-related phosphorylation sites. Analyses of the point-mutation cot-1 strains (mimicking non- and constitutively phosphorylated states) indicate the involvement of COT1 phosphorylation in the regulation of hyphal elongation and branching as well as asexual development by altering cell wall integrity and actin organization. Phosphorylation of COT1's activation segment (at Ser417) is required for proper in vitro kinase activity, but has only a limited effect on hyphal growth. In marked contrast, even though phosphorylation of the C-terminal hydrophobic motif (at Thr589) is crucial for all COT1 functions in vivo, the lack of Thr589 phosphorylation did not significantly affect in vitro COT1 kinase activity. Nevertheless, its regulatory role has been made evident by the significant increase observed in COT1 kinase activity when this residue was substituted in a manner mimicking constitutive phosphorylation. We conclude that COT1 regulates elongation and branching in an independent manner, which is determined by its phosphorylation state.

摘要

Neurospora crassa 的核 Dbf2 相关激酶 COT1 的功能障碍导致尖端延伸停止和大量新生长点的诱导。为了确定磷酸化在 COT1 功能中的作用,我们突变了对应于高度保守的核 Dbf2 相关磷酸化位点的 COT1 残基。对点突变 cot-1 菌株(模拟非磷酸化和持续磷酸化状态)的分析表明,COT1 磷酸化通过改变细胞壁完整性和肌动蛋白组织参与菌丝伸长和分支以及无性发育的调节。COT1 激活片段(Ser417)的磷酸化对于适当的体外激酶活性是必需的,但对菌丝生长的影响有限。相比之下,尽管 C 端疏水性基序(Thr589)的磷酸化对于 COT1 在体内的所有功能都是至关重要的,但 Thr589 磷酸化的缺失并没有显著影响体外 COT1 激酶活性。然而,当该残基以模拟持续磷酸化的方式取代时,观察到 COT1 激酶活性显著增加,这表明其具有调节作用。我们得出结论,COT1 以其磷酸化状态决定的独立方式调节伸长和分支。

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