Multifunctional regulation of NADPH oxidase in growth, microsclerotia formation and virulence in Metarhizium rileyi.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-12-01 Epub Date: 2023-09-25 DOI:10.1007/s10529-023-03427-2

Liqin Fan, Bingjie Li, Jiahui Wang, Xinxin Li, Feilong Ma, Fang Du, Hongli Li, Yunlong Lin

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Abstract

Objectives: Microsclerotia (MS), anti-stress structures produced by many filamentous fungi, have been proven to be a great substitute for conidia in the production of insecticides within entomogenous fungi. NADPH oxidase (Nox) is a highly conserved ROS-response protein family that is widespread in eukaryotes and plays distinct roles in environmental fitness among various filamentous fungi. However, it is not clear whether the formation of MS and pathogenicity in entomogenous fungi is regulated by the Nox inside. In this study, we reported the presence of NADPH oxidase homologs in a great potential biocontrol fungus, Metarhizium rileyi, and further showed multiple biological functions.

Results: Three Nox homologous genes in M. rileyi showed high expression throughout the entire process of MS formation. Targeted deletion of MrNoxA, MrNoxB and MrNoxR all led to a decrease in MS yield and impaired morphology. Moreover, the anti-adversity assay showed that they are indispensable for growth, osmotic pressure and oxidative stress regulation in Metarhizium rileyi. Most importantly, △MrNoxR and △MrNoxA but not △MrNoxB showed a dramatic reduction in virulence via inoculation. The normality of appressoria might be unaffected in mutants since there are no striking differences in virulence compared with WT by topical injections.

Conclusion: Our results revealed that NADPH oxidase plays important roles in growth regulation, MS formation and pathogenicity in M. rileyi, perhaps in the ROS response and hyphal polarity.

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NADPH氧化酶在绿僵菌生长、微孢子形成和毒力中的多功能调节。

目的：微孢子虫（MS）是由许多丝状真菌产生的抗应激结构，已被证明是在虫生真菌中生产杀虫剂的一种很好的分生孢子替代品。NADPH氧化酶（Nox）是一个高度保守的ROS反应蛋白家族，广泛存在于真核生物中，在各种丝状真菌的环境适应性中发挥着不同的作用。然而，目前尚不清楚虫生真菌中MS的形成和致病性是否受体内诺克斯的调节。在本研究中，我们报道了NADPH氧化酶同源物在一种极具潜力的生防菌绿僵菌中的存在，并进一步显示了多种生物功能。结果：三个Nox同源基因在M.rileyi MS形成的整个过程中均表现出高表达。MrNoxA、MrNoxB和MrNoxR的靶向缺失均导致MS产量下降和形态受损。此外，抗逆境试验表明，它们对利莱伊绿僵菌的生长、渗透压和氧化应激调节是必不可少的。最重要的是，△MrNoxR和△MrNoxA但不是△MrNoxB通过接种表现出毒力的显著降低。附着胞的正常性在突变体中可能不受影响，因为与局部注射的WT相比，毒力没有显著差异。结论：NADPH氧化酶在理乐菌生长调节、MS形成和致病性中发挥重要作用，可能在ROS反应和菌丝极性中起重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464