小麦颖枯病菌的一种信号调节型短链脱氢酶调控无性发育。

A signaling-regulated, short-chain dehydrogenase of Stagonospora nodorum regulates asexual development.

作者信息

Tan Kar-Chun, Heazlewood Joshua L, Millar A Harvey, Thomson Gordon, Oliver Richard P, Solomon Peter S

机构信息

Australian Centre for Necrotrophic Fungal Pathogens, Murdoch University, South Street, Murdoch 6150, Australia.

出版信息

Eukaryot Cell. 2008 Nov;7(11):1916-29. doi: 10.1128/EC.00237-08. Epub 2008 Sep 5.

DOI:10.1128/EC.00237-08

PMID:18776038

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2583533/

Abstract

The fungus Stagonospora nodorum is a causal agent of leaf and glume blotch disease of wheat. It has been previously shown that inactivation of heterotrimeric G protein signaling in Stagonospora nodorum caused development defects and reduced pathogenicity [P. S. Solomon et al., Mol. Plant-Microbe Interact. 17:456-466, 2004]. In this study, we sought to identify targets of the signaling pathway that may have contributed to phenotypic defects of the signaling mutants. A comparative analysis of Stagonospora nodorum wild-type and Galpha-defective mutant (gna1) intracellular proteomes was performed via two-dimensional polyacrylamide gel electrophoresis. Several proteins showed significantly altered abundances when comparing the two strains. One such protein, the short-chain dehydrogenase Sch1, was 18-fold less abundant in the gna1 strain, implying that it is positively regulated by Galpha signaling. Gene expression and transcriptional enhanced green fluorescent protein fusion analyses of Sch1 indicates strong expression during asexual development. Mutant strains of Stagonospora nodorum lacking Sch1 demonstrated poor growth on minimal media and exhibited a significant reduction in asexual sporulation on all growth media examined. Detailed histological experiments on sch1 pycnidia revealed that the gene is required for the differentiation of the subparietal layers of asexual pycnidia resulting in a significant reduction in both pycnidiospore size and numbers.

摘要

小麦壳针孢菌是小麦叶和颖斑病的病原体。先前研究表明，小麦壳针孢菌中异源三聚体G蛋白信号失活会导致发育缺陷并降低致病性[P. S. 所罗门等人，《分子植物与微生物相互作用》17:456 - 466，2004年]。在本研究中，我们试图确定可能导致信号突变体表型缺陷的信号通路靶点。通过二维聚丙烯酰胺凝胶电泳对小麦壳针孢菌野生型和Gα缺陷突变体（gna1）的细胞内蛋白质组进行了比较分析。比较这两种菌株时，有几种蛋白质的丰度有显著变化。其中一种蛋白质，短链脱氢酶Sch1，在gna1菌株中的丰度低18倍，这意味着它受Gα信号正调控。Sch1的基因表达和转录增强绿色荧光蛋白融合分析表明其在无性发育过程中强烈表达。缺乏Sch1的小麦壳针孢菌突变菌株在基本培养基上生长不良，并且在所有检测的生长培养基上无性孢子形成都显著减少。对sch1分生孢子器进行的详细组织学实验表明，该基因是无性分生孢子器壁下层分化所必需的，导致分生孢子的大小和数量都显著减少。

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