Exploring the Potential of Bacterial Endophytes in Plant Disease Management.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-11 DOI:10.1007/s00284-024-03918-z
Tamilmalar Muthusamy Pandian, Rajeswari Esakkimuthu, Anandham Rangasamy, Kannan Rengasamy, Subramanian Alagesan, Jeya Sundara Sharmila Devasahayam
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Abstract

Endophytic bacteria live in the internal tissues of plants, forming symbiotic, mutualistic, commensalistic and trophobiotic relationships. Some are spread via seeds after sprouting from the rhizosphere or phyllosphere. These bacteria capable of promoting plant growth and impart biotic stress by synthesing plant growth hormones, ACC deaminase, organic acids and siderophore. Endophytes aid in phytoremediation by removing soil contaminants and boosting soil fertility via phosphate solubilization and nitrogen fixation. The endophytic microbes are becoming increasingly popular in biotechnological applications which supports sustainable growth of non-food crops for biomass and biofuel. They offer valuable natural materials which is used in medicine, agriculture and industry. Bacterial endophytes are endowed with the enormous potential in the biological treatment of plant pathogens and considered as the superior alternative to synthetic fungicides. The review emphasizes benefits of bacterial endophytes in promoting plant growth and prospects of agricultural applications viz., increasing crop yield under biotic stress condition and their mode of action towards plant diseases. It also summarises the diverse and vital role of endophytes in agroecosystems as well as insights for sustainable agriculture and crop resilience.

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探索细菌内生菌在植物病害管理中的潜力。
内生细菌生活在植物的内部组织中,形成共生、互生、共生和滋养生物关系。有些细菌从根圈或叶圈萌发后通过种子传播。这些细菌能够促进植物生长,并通过合成植物生长素、ACC 脱氨酶、有机酸和嗜苷酸盐来施加生物压力。内生菌通过磷酸盐溶解和固氮作用清除土壤中的污染物并提高土壤肥力,有助于植物修复。内生微生物在生物技术应用中越来越受欢迎,这有助于非粮食作物的可持续生长,以获得生物质和生物燃料。它们提供了宝贵的天然材料,可用于医药、农业和工业。细菌内生菌在植物病原体的生物处理方面具有巨大潜力,被认为是合成杀菌剂的最佳替代品。这篇综述强调了细菌内生菌在促进植物生长方面的益处和农业应用前景,即在生物胁迫条件下提高作物产量及其对植物病害的作用模式。它还总结了内生细菌在农业生态系统中的各种重要作用,以及对可持续农业和作物抗逆性的见解。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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