Decoding the biochemical dialogue: metabolomic insights into soybean defense strategies against diverse pathogens.

IF 8 2区 生物学 Q1 BIOLOGY Science China Life Sciences Pub Date : 2024-10-01 Epub Date: 2024-07-01 DOI:10.1007/s11427-023-2596-1
Min Qiu, Mengjun Tian, Yaru Sun, Huaibo Li, Wenwen Huang, Haibing Ouyang, Shaoyan Lin, Chen Zhang, Ming Wang, Yuanchao Wang
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Abstract

Soybean, a crucial global leguminous crop, confronts persistent threats from diverse pathogens, exerting a profound impact on global yields. While genetic dimensions of soybean-pathogen interactions have garnered attention, the intricate biochemical responses remain poorly elucidated. In this study, we applied targeted and untargeted liquid chromatography coupled to mass spectrometry (LC-MS) metabolite profiling to dissect the complex interplay between soybeans and five distinct pathogens. Our analysis uncovered 627 idMS/MS spectra, leading to the identification of four main modules, encompassing flavonoids, isoflavonoids, triterpenoids, and amino acids and peptides, alongside other compounds such as phenolics. Profound shifts were observed in both primary and secondary metabolism in response to pathogenic infections. Particularly notable were the bidirectional changes in total flavonoids across diverse pathogenic inoculations, while triterpenoids exhibited a general declining trend. Noteworthy among the highly inducible total flavonoids were known representative anti-pathogen compounds (glyceollin I), backbone forms of isoflavonoids (daidzein, genistein, glycitein, formononetin), and newly purified compounds in this study (prunin). Subsequently, we delved into the biological roles of these five compounds, validating their diverse functions against pathogens: prunin significantly inhibited the vegetative growth and virulence of Phytophthora sojae; genistein exhibited a pronounced inhibitory effect on the vegetative growth and virulence of Phomopsis longicolla; daidzein and formononetin displayed significant repressive effects on the virulence of P. longicolla. This study underscores the potent utility of metabolomic tools, providing in-depth insights into plant-pathogen interactions from a biochemical perspective. The findings not only contribute to plant pathology but also offer strategic pathways for bolstering plant resistance against diseases on a broader scale.

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解码生化对话:大豆防御多种病原体策略的代谢组学启示。
大豆是全球重要的豆科作物,长期面临各种病原体的威胁,对全球产量产生了深远影响。虽然大豆与病原体相互作用的遗传因素已引起人们的关注,但对其复杂的生化反应却知之甚少。在本研究中,我们应用靶向和非靶向液相色谱耦合质谱(LC-MS)代谢物谱分析技术,剖析了大豆与五种不同病原体之间复杂的相互作用。我们的分析发现了 627 个 idMS/MS 图谱,从而确定了四个主要模块,包括黄酮类、异黄酮类、三萜类、氨基酸和肽,以及酚类等其他化合物。在对病原体感染的反应中,初级和次级代谢都发生了重大变化。特别值得注意的是,在不同的病原菌接种情况下,总黄酮类化合物发生了双向变化,而三萜类化合物则呈现出普遍下降的趋势。在高诱导性总黄酮类化合物中,值得注意的是已知的具有代表性的抗病原化合物(甘草黄素I)、异黄酮的骨架形式(大豆黄素、染料木素、甘草黄素、福莫宁)以及本研究中新纯化的化合物(杨梅素)。随后,我们对这五种化合物的生物学作用进行了深入研究,验证了它们对病原体的不同功能:普鲁宁能显著抑制根腐菌(Phytophthora sojae)的无性生长和毒力;染料木素对拟南芥(Phomopsis longicolla)的无性生长和毒力有明显的抑制作用;大豆苷(daidzein)和福美双苷(formonetin)对拟南芥(P. longicolla)的毒力有显著的抑制作用。这项研究强调了代谢组学工具的强大效用,从生化角度深入揭示了植物与病原体之间的相互作用。这些发现不仅有助于植物病理学的研究,还为在更大范围内增强植物抗病性提供了战略途径。
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来源期刊
CiteScore
15.10
自引率
8.80%
发文量
2907
审稿时长
3.2 months
期刊介绍: Science China Life Sciences is a scholarly journal co-sponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and it is published by Science China Press. The journal is dedicated to publishing high-quality, original research findings in both basic and applied life science research.
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