水杨酸通过抑制尖孢镰刀菌中雷帕霉素靶蛋白信号通路来防治枯萎病。

Salicylic acid fights against Fusarium wilt by inhibiting target of rapamycin signaling pathway in Fusarium oxysporum.

机构信息

Institute of Urban Agriculture, Chinese Academy of Agricultural Sciences, Chengdu National Agricultural Science and Technology Center, Chengdu 610000, China; Zhengzhou Research Base, State Key Laboratory of Cotton Biology, School of Agricultural Science of Zhengzhou University, Zhengzhou 450000, China; Hainan Yazhou Bay Seed Laboratory, Sanya 572025, China.

School of Life Sciences, Liaocheng University, Liaocheng 252000, China.

出版信息

J Adv Res. 2022 Jul;39:1-13. doi: 10.1016/j.jare.2021.10.014. Epub 2021 Nov 2.

DOI:10.1016/j.jare.2021.10.014

PMID:35777900

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9263656/

Abstract

INTRODUCTION

Biofungicides with low toxicity and high efficiency are a global priority for sustainable agricultural development. Phytohormone salicylic acid (SA) is an ancient medicine against various diseases in humans and activates the immune system in plants, but little is known of its function as a biofungicide.

OBJECTIVES

Here, Fusarium oxysporum, the causal agent of devastating Fusarium wilt and immunodepressed patients, was used as a model system to explore whether SA can enter the pathogen cells and suppress key targets of the pathogen.

METHODS

Oxford Nanopore MinION sequencing and high-throughput chromosome conformation capture (Hi-C) sequencing were used to analyzed the genome of F. oxysporum. In addition, RNA-seq, qRT-PCR, and western blotting were conducted to detect gene and protein expression levels.

RESULTS

We isolated and sequenced the genome of F. oxysporum from potato dry rot, and the F. oxysporum included 12 chromosomes and 52.3 Mb genomic length. Pharmacological assays showed that exogenous application of SA can efficiently arrest hyphal growth, spore production, and pathogenicity of F. oxysporum, whereas endogenous salicylate hydroxylases significantly detoxify SA. The synergistic growth inhibition of F. oxysporum was observed when SA was combined with rapamycin. Kinase assays showed that SA inhibits FoTOR complex 1 (FoTORC1) by activating FoSNF1 in vivo. Transgenic potato plants with the interference of FoTOR1 and FoSAH1 genes inhibited the invasive growth of hyphae and significantly prevented the occurrence of Fusarium wilt.

CONCLUSION

This study revealed the underlying mechanisms of SA against F. oxysporum and provided insights into SA in controlling various fungal diseases by targeting the SNF1-TORC1 pathway of pathogens.

摘要

简介

低毒性、高效率的生物杀菌剂是可持续农业发展的全球重点。植物激素水杨酸（SA）是一种古老的人类疾病治疗药物，能激活植物的免疫系统，但作为生物杀菌剂的功能知之甚少。

目的

本研究以毁灭性枯萎病病原菌尖孢镰刀菌（Fusarium oxysporum）为模型系统，探讨 SA 是否能进入病原菌细胞并抑制病原菌的关键靶标。

方法

使用牛津纳米孔 MinION 测序和高通量染色体构象捕获（Hi-C）测序分析 F. oxysporum 的基因组。此外，还进行了 RNA-seq、qRT-PCR 和 Western blot 检测基因和蛋白表达水平。

结果

我们从马铃薯干腐病中分离并测序了 F. oxysporum 的基因组，该 F. oxysporum 包含 12 条染色体和 52.3 Mb 基因组长度。药理学测定表明，外源施用 SA 可有效抑制菌丝生长、孢子产生和 F. oxysporum 的致病性，而内源性水杨酸羟化酶则显著解毒 SA。SA 与雷帕霉素联合使用时，可协同抑制 F. oxysporum 的生长。激酶测定表明，SA 在体内通过激活 FoSNF1 抑制 FoTOR 复合物 1（FoTORC1）。干扰 FoTOR1 和 FoSAH1 基因的转基因马铃薯植物抑制菌丝的侵袭性生长，并显著防止枯萎病的发生。

结论

本研究揭示了 SA 对抗 F. oxysporum 的潜在机制，并为通过靶向病原菌的 SNF1-TORC1 途径来控制各种真菌病害提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e45b/9263656/a268e2ae23dd/ga1.jpg

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水杨酸通过抑制尖孢镰刀菌中雷帕霉素靶蛋白信号通路来防治枯萎病。

Salicylic acid fights against Fusarium wilt by inhibiting target of rapamycin signaling pathway in Fusarium oxysporum.

机构信息

出版信息

INTRODUCTION

OBJECTIVES

METHODS

RESULTS

CONCLUSION

简介

目的

方法

结果

结论

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