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Interactions between hydrogen sulphide and rhizobia modulate the physiological and metabolism process during water deficiency‐induced oxidative defense in soybean

根瘤菌 生物 固氮酶 生物量(生态学) 光合作用 植物 生物化学 化学 共生 固氮 农学 细菌 遗传学
作者
Xueyuan Lin,Ni‐Na Zhang,Bai‐Hui Yao,Xin Zhang,Wu‐Yu Liu,Weiqin Zhang,Jianhua Zhang,Gehong Wei,Juan Chen
出处
期刊:Plant Cell and Environment [Wiley]
卷期号:45 (11): 3249-3274 被引量:15
标识
DOI:10.1111/pce.14431
摘要

Hydrogen sulphide (H2 S), a new gas signal molecule, participates in the regulation of various abiotic stresses in plants. However, how the tandem working of H2 S and rhizobia affects the adaptation of soybean to water deficiency is still unclear. In this study, we investigated the adaptation mechanism of H2 S and rhizobia in soybean to water deficiency. Our results revealed that H2 S and rhizobia jointly enhanced the leaf chlorophyll content and relative water content in plants, and caused an increase in the biomass of soybean seedlings under water deficiency. Besides, in the absence of water, H2 S enhanced the biomass by affecting the number of nodules and nitrogenase activity during vegetative growth. The expression of nodulation marker genes including early nodulin 40 (GmENOD40), ERF required for nodulation (GmERN) and nodulation inception genes (GmNIN1a, GmNIN2a and GmNIN2b) were upregulated by H2 S and rhizobia in the nodules. Moreover, the combined effect of H2 S and rhizobia was proved to affect the enzyme activities and gene expression level of antioxidants, as well as osmotic protective substance content and related gene expression levels under water deficiency in soybean seedlings. In addition, the metabolomic results suggested that the combined effect of H2 S and rhizobia remarkably promoted the contents of lipids and lipid-like molecules. Our results indicated that H2 S and rhizobia synergistically reduced the oxidative damage caused by water deficiency through increasing the accumulation of metabolites and strengthening the plant antioxidant capacity.

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