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连作模式下根际酚酸介导特殊微生物增殖机制的研究洞察

Insights into the Mechanism of Proliferation on the Special Microbes Mediated by Phenolic Acids in the Rhizosphere under Continuous Monoculture Regimes.

作者信息

Wu Hongmiao, Xu Junjian, Wang Juanying, Qin Xianjin, Wu Linkun, Li Zhicheng, Lin Sheng, Lin Weiwei, Zhu Quan, Khan Muhammad U, Lin Wenxiong

机构信息

Fujian Provincial Key Laboratory of Agroecological Processing and Safety Monitoring, College of Life Sciences, Fujian Agriculture and Forestry UniversityFuzhou, China.

Key Laboratory of Crop Ecology and Molecular Physiology, Fujian Agriculture and Forestry UniversityFuzhou, China.

出版信息

Front Plant Sci. 2017 May 2;8:659. doi: 10.3389/fpls.2017.00659. eCollection 2017.

DOI:10.3389/fpls.2017.00659
PMID:28512464
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5411758/
Abstract

As potent allelochemicals, phenolic acids are believed to be associated with replanting disease and cause microflora shift and structural disorder in the rhizosphere soil of continuously monocultured . The transcriptome sequencing was used to reveal the mechanisms underlying the differential response of pathogenic bacterium and beneficial bacterium on their interactions with phenolic acids, the main allelochemicals in root exudates of in the monoculture system. The microbes were inoculated in the pots containing soil and the medicinal plant in this study. The results showed that the addition of beneficial to the 2-year planted soil significantly decreased the activity of soil urease, catalase, sucrase, and cellulase and increased the activity of chitinase compared with those in the 2nd-year monocropping rhizosphere soil without any treatment. However, opposite results were obtained when was added. Transcriptome analysis showed that vanillin enhanced glycolysis/gluconeogenesis, fatty acid biosynthesis, pentose phosphate, bacterial chemotaxis, flagellar assembly, and phosphotransferase system pathway in . However, protocatechuic acid, a metabolite produced by from vanillin, had negative effects on the citrate cycle and biosynthesis of novobiocin, phenylalanine, tyrosine, and tryptophan in . Concurrently, the protocatechuic acid decreased the biofilm formation of . These results unveiled the mechanisms how phenolic acids differentially mediate the shifts of microbial flora in rhizosphere soil, leading to the proliferation of pathogenic bacteria (i.e., ) and the attenuation of beneficial bacteria (i.e., ) under the monocropping system of .

摘要

作为强效化感物质,酚酸被认为与连作障碍有关,并导致连作土壤根际微生物区系变化和结构紊乱。转录组测序用于揭示病原菌和有益菌在与酚酸(单作系统中该植物根系分泌物中的主要化感物质)相互作用时产生差异反应的潜在机制。本研究将微生物接种到装有土壤和药用植物的花盆中。结果表明,与未处理的连作两年根际土壤相比,向连作两年的土壤中添加有益菌显著降低了土壤脲酶、过氧化氢酶、蔗糖酶和纤维素酶的活性,提高了几丁质酶的活性。然而,添加病原菌时得到了相反的结果。转录组分析表明,香草醛增强了病原菌的糖酵解/糖异生、脂肪酸生物合成、磷酸戊糖、细菌趋化性、鞭毛组装和磷酸转移酶系统途径。然而,香草醛产生的代谢产物原儿茶酸对病原菌的柠檬酸循环以及新生霉素、苯丙氨酸、酪氨酸和色氨酸的生物合成有负面影响。同时,原儿茶酸降低了病原菌的生物膜形成。这些结果揭示了酚酸如何差异介导根际土壤微生物区系变化的机制,导致在该植物单作系统下病原菌(即)增殖和有益菌(即)衰减。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c9c0/5411758/27fb8fa0845f/fpls-08-00659-g012.jpg
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