Melatonin-mediated alleviation of drought stress via modulation of physio-biochemical and soil bacterial community structure in Diospyros lotus L.

IF 5.6 1区 农林科学 Q1 AGRICULTURAL ENGINEERING
Peng Zhang , Xinhui Lyu , Yi Hu , Ruijin Zhou , Fengge Hao , Huiling Hu , Dongmei Lang
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引用次数: 0

Abstract

Diospyros lotus L., cultivated for both its edible and medicinal qualities, frequently experiences drought stress during the growth phase. Tryptophan-derived melatonin effectively enhances drought resistance in plants. However, the role of melatonin in the tolerance of D. lotus to drought stress as well as recovery after droughts stress elimination remains unclear. This study investigated the underlying mechanisms by which melatonin alleviates D. lotus drought stress and recovery. Melatonin significantly reduced reactive oxygen species levels and alleviated the inhibitory effect of drought stress by activating the antioxidant system. Melatonin influences pathways related to sugar metabolism and flavonoid biosynthesis, which may facilitate plant recovery from drought stress. Integrated transcriptome and metabolome analyses revealed that melatonin induced genes and metabolites associated with sugar metabolism (Cluster-28045.33805, Cluster-28045.59949, Cluster-28045.59252, Cluster-28045.54252, Cluster-28045.44982, fructose, l-threose, and glyceraldehyde-3-phosphate), facilitating plant recovery from drought. Differentially enriched microorganisms suggest that melatonin induces plants to recruit potentially beneficial microorganisms (such as Skermanella, Nocardioides, Ralstonia, and Rhodococcus), which enhances drought tolerance and recovery. Integrative analysis of the microbiome and metabolome suggests that a unique metabolite, 3-hydroxy-butanoic acid, which was induced significantly by melatonin, may play a vital role in attracting beneficial microorganisms to facilitate drought stress resistance. Our results demonstrate that melatonin enhances D. lotus recovery from drought by recruiting beneficial microorganisms, thereby boosting both transcriptomic and physiological resilience. Our findings aim to mitigate the impact of drought on agricultural production.
褪黑素通过调节莲子的生理生化和土壤细菌群落结构来缓解干旱胁迫
莲子(Diospyros lotus L.)因其食用和药用价值而被栽培,在生长阶段经常会遇到干旱胁迫。色氨酸衍生的褪黑激素能有效增强植物的抗旱能力。然而,褪黑激素在荷花对干旱胁迫的耐受性以及干旱胁迫消除后的恢复中的作用仍不清楚。本研究探讨了褪黑激素缓解荷花干旱胁迫和恢复的内在机制。褪黑激素通过激活抗氧化系统,明显降低了活性氧水平,减轻了干旱胁迫的抑制作用。褪黑激素影响与糖代谢和类黄酮生物合成相关的途径,这可能会促进植物从干旱胁迫中恢复。转录组和代谢组的综合分析表明,褪黑激素诱导与糖代谢相关的基因和代谢产物(28045.33805、28045.59949、28045.59252、28045.59252、28045.4442982、果糖、l-苏氨酸和甘油醛-3-磷酸),促进植物从干旱中恢复。微生物的差异富集表明,褪黑激素诱导植物招募潜在的有益微生物(如Skermanella、Nocardioides、Ralstonia和Rhodococcus),从而增强了耐旱性和恢复能力。对微生物组和代谢组的综合分析表明,褪黑激素能显著诱导一种独特的代谢物--3-羟基丁酸,它可能在吸引有益微生物以促进抗旱方面发挥着重要作用。我们的研究结果表明,褪黑激素通过吸引有益微生物来增强荷花从干旱中恢复的能力,从而提高转录组和生理恢复能力。我们的研究结果旨在减轻干旱对农业生产的影响。
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来源期刊
Industrial Crops and Products
Industrial Crops and Products 农林科学-农业工程
CiteScore
9.50
自引率
8.50%
发文量
1518
审稿时长
43 days
期刊介绍: Industrial Crops and Products is an International Journal publishing academic and industrial research on industrial (defined as non-food/non-feed) crops and products. Papers concern both crop-oriented and bio-based materials from crops-oriented research, and should be of interest to an international audience, hypothesis driven, and where comparisons are made statistics performed.
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