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转录因子SKN7调节线虫内寄生真菌明尼苏达被毛孢的分生孢子形成、耐热性、凋亡样细胞死亡和寄生作用。

The transcription factor SKN7 regulates conidiation, thermotolerance, apoptotic-like cell death and parasitism in the nematode endoparasitic fungus Hirsutella minnesotensis.

作者信息

Hussain Muzammil, Hamid M Imran, Wang Niuniu, Bin Lin, Xiang Meichun, Liu Xingzhong

机构信息

State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, No 3 Park 1, Beichen West Rd., Chaoyang District, Beijing 100101, China.

University of Chinese Academy of Sciences, Beijing, China.

出版信息

Sci Rep. 2016 Jul 20;6:30047. doi: 10.1038/srep30047.

DOI:10.1038/srep30047
PMID:27436205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4951753/
Abstract

The transcription factor SKN7 is a highly conserved protein among fungi and was initially recognized as a response regulator that protects cells from oxidative stress and maintains cell wall integrity in yeast. Orthologs of SKN7 are extensively present in biocontrol agents of plant pathogens, but they had not been functionally characterized. Here, we identified and characterized the transcription factor SKN7 in the nematode endoparasitic fungus Hirsutella minnesotensis. Null mutant lacking HIM-SKN7 (HIM_03620), which was generated by a gene disruption strategy, demonstrated reduced conidiation, increased sensitivity to high temperature, hydrogen peroxide, mannitol and ethanol, and reduced fungal resistance to farnesol. However, over-expression mutant showed increased conidial production, thermotolerance and resistance to farnesol, suggesting that HIM-SKN7 regulates antiapoptotic-like cell death in H. minnesotensis. Moreover, the results showed that in null mutant, H. minnesotensis had decreased endoparasitic ability as compared to wild type and over-expression strain. During the infection process, the relative expression of the HIM-SKN7 gene was significantly induced in the wild type and over-expression strain. The results of the present study advance our understanding of the functions of the SKN7 gene in biocontrol agents, in particular, nematode endoparasitic fungi.

摘要

转录因子SKN7是真菌中一种高度保守的蛋白质,最初被认为是一种应答调节因子,可保护酵母细胞免受氧化应激并维持细胞壁完整性。SKN7的直系同源物广泛存在于植物病原体的生物防治剂中,但尚未对其功能进行表征。在此,我们鉴定并表征了线虫内寄生真菌明尼苏达被毛孢中的转录因子SKN7。通过基因破坏策略产生的缺乏HIM-SKN7(HIM_03620)的缺失突变体表现出分生孢子形成减少、对高温、过氧化氢、甘露醇和乙醇的敏感性增加以及对法尼醇的真菌抗性降低。然而,过表达突变体显示分生孢子产量增加、耐热性和对法尼醇的抗性增加,这表明HIM-SKN7调节明尼苏达被毛孢中的抗凋亡样细胞死亡。此外,结果表明,与野生型和过表达菌株相比,缺失突变体中的明尼苏达被毛孢内寄生能力降低。在感染过程中,野生型和过表达菌株中HIM-SKN7基因的相对表达显著诱导。本研究结果增进了我们对SKN7基因在生物防治剂,特别是线虫内寄生真菌中的功能的理解。

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