利用鹰嘴豆细菌内生菌改善植物健康和体质。

IF 2.7 Q3 MICROBIOLOGY
AIMS Microbiology Pub Date : 2024-07-08 eCollection Date: 2024-01-01 DOI:10.3934/microbiol.2024024
Yulduzkhon Abdullaeva, Gulsanam Mardonova, Farkhod Eshboev, Massimiliano Cardinale, Dilfuza Egamberdieva
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引用次数: 0

摘要

内生细菌无症状地生活在寄主植物的组织中,不会造成任何损害。内生菌可赋予植物多种有益特性,有助于植物的生长、发育和整体健康。研究发现,内生菌可通过提高养分吸收和可用性来刺激植物生长。它们能产生促进植物生长的物质,如辅酶、细胞分裂素和赤霉素,这些物质能调节植物生长和发育的各个方面。内生菌还能改善根系结构,从而增加养分和水分的吸收。有些内生菌具有溶解磷和钾等养分的能力,使植物更容易吸收这些养分,并固定大气中的氮。鹰嘴豆(Cicer arietinum)是一种主要的豆科作物,它与内生菌之间存在相互影响的关系。这些内生菌能以各种方式使鹰嘴豆植物受益,包括提高生长、改善养分吸收、增强对非生物性和生物性压力的耐受性以及抑制疾病。它们能产生清除有害活性氧的酶和代谢物,从而减少氧化应激。此外,一些研究报告称,内生菌产生的抗菌化合物、裂解酶和挥发性有机化合物可抑制真菌病原体的生长,并引发植物的系统防御反应,从而增强对多种病原体的抵抗力。它们可以激活植物防御途径,包括产生与防御相关的酶、植物毒素和与致病相关的蛋白质,从而提供持久的保护。值得注意的是,鹰嘴豆相关内生菌的多样性和功能会因品种、地理位置和环境条件等因素而有所不同。目前,人们仍在深入探讨植物之间有益相互作用的机制。本综述介绍了农业生产和生态系统稳定性方面的新生物技术。因此,利用鹰嘴豆内生菌可以开发抗旱栽培品种,从而在干旱和半干旱环境中保持生产力,这对满足全球对鹰嘴豆的需求至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Harnessing chickpea bacterial endophytes for improved plant health and fitness.

Endophytic bacteria live asymptomatically inside the tissues of host plants without inflicting any damage. Endophytes can confer several beneficial traits to plants, which can contribute to their growth, development, and overall health. They have been found to stimulate plant growth by enhancing nutrient uptake and availability. They can produce plant growth-promoting substances such as auxins, cytokinins, and gibberellins, which regulate various aspects of plant growth and development. Endophytes can also improve root system architecture, leading to increased nutrient and water absorption. Some endophytes possess the ability to solubilize nutrients, such as phosphorus and potassium, making them more available for plant uptake, and fixing atmospheric nitrogen. Chickpea (Cicer arietinum) is a major legume crop that has mutualistic interactions with endophytes. These endophytes can benefit the chickpea plant in various ways, including higher growth, improved nutrient uptake, increased tolerance to abiotic and biotic stressors, and disease suppression. They can produce enzymes and metabolites that scavenge harmful reactive oxygen species, thus reducing oxidative stress. Moreover, several studies reported that endophytes produce antimicrobial compounds, lytic enzymes, and volatile organic compounds that inhibit the growth of fungal pathogens and trigger systemic defense responses in plants, leading to increased resistance against a broad range of pathogens. They can activate plant defense pathways, including the production of defense-related enzymes, phytoalexins, and pathogenesis-related proteins, thereby providing long-lasting protection. It is important to note that the diversity and function of chickpea-associated endophytes can vary depending on factors such as variety, geographical location, and environmental conditions. The mechanisms behind the plant-beneficial interactions are still being intensively explored. In this review, new biotechnologies in agricultural production and ecosystem stability were presented. Thus, harnessing chickpea endophytes could be exploited in developing drought-resistant cultivars that can maintain productivity in arid and semi-arid environments, crucial for meeting the global demand for chickpeas.

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来源期刊
AIMS Microbiology
AIMS Microbiology MICROBIOLOGY-
CiteScore
7.00
自引率
2.10%
发文量
22
审稿时长
8 weeks
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