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Chemistry-specific responses due to rice-microbe interactions in the rhizosphere to counteract mefenacet stress

根际 根际细菌 代谢途径 非生物胁迫 生物 化学 生物化学 细菌 植物 遗传学 基因
作者
Youning Ma,Yanxia Ni,Zhaoyun Cao,Jiuyue Pan,Mancuo Tuwang,Huan Yang,Mingxue Chen,Renxiang Mou
出处
期刊:Pesticide Biochemistry and Physiology [Elsevier BV]
卷期号:179: 104970-104970 被引量:1
标识
DOI:10.1016/j.pestbp.2021.104970
摘要

The widespread use of herbicides has raised considerable concern with regard to their harmful consequences on plant growth, crop yield and the soil ecological environment. It has been well documented that colonization of rhizobacteria in the plant root system has a positive effect on activation of plant defenses to protect the plant from damage. Using the platform of high-throughput analysis with tandem mass spectrometry and Illumina sequencing, we identified the specific activated rhizobacteria, the key growth stimulating substances and the metabolic pathways involved in seedling stage tolerance to mefenacet stress in rice. The relative abundance of beneficial rhizospheremicrobes such as Acidobacteria and Firmicutes increased with mefenacet treatment, indicating that the rhizosphere recruited some beneficial microbes to resist mefenacet stress. Mefenacet treatment induced alterations in several interlinked metabolic pathways, many of which were related to activation of defense response signaling, especially the indole-3-pyruvate pathway. Indole-3-acetaldehyde and indole-3-ethanol from this pathway may act as flexible storage pools for indole-3-acetic acid (IAA). Our findings also suggest that a significant increase of IAA produced by the enrichment of beneficial rhizospheremicrobes, for example genus Bacillus, alleviated the dwarfing phenomenon observed in hydroponic medium following mefenacet exposure, which may be a key signaling molecule primarily for phytostimulation and phytotolerance in microbe-plant interactions.

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