Bioprospecting of Rhizobia as Plant Growth Promoting Rhizobacteria Potential from Root Nodules of Groundnut (Arachis hypogaea L.)

Trends in Sciences Pub Date : 2024-05-01 DOI:10.48048/tis.2024.7651

Dyah Wulandari, Karyadi Baskoro, Yasmiin Mahmuudah, F. Kusmiyati, A. R. Pratiwi, A. Budiharjo

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Abstract

Rhizobia are bacteria that symbiosis with host plant, as shown in the root nodules formation, and provide nitrogen that can be absorbed by plants in greater quantities than rhizobacteria. Available Nitrogen, which absorbed by plants, is the essential requirement for plant growth because its role in increasing yield and quality, hence it is needed in greater quantities than other nutrients. The study aimed to determine the macroscopic and microscopic diversity of rhizobia isolates from the groundnut nodules and their potential as PGPRs, and to identify 16S rRNA isolates with the best potential as PGPRs molecularly. The methods used were isolation from root nodules, screening of PGPR potential, molecular identification based on the 16S rRNA gene, and phylogenetic analysis to determine their kinship. Based on the isolation results, 17 Gram-negative isolates were obtained white to pink or orange color on AG media with various colony characteristics in terms of shape, margin, elevation, and texture. KT 20, which was selected as rhizobia isolate with the best potential as PGPR, has ammonium concentration of 23.12 ppm, synthesizes IAA with a concentration of 10.36 ppm, and phosphates solubilization activity, although its ability to synthesize proteases is low. The results of molecular identification of 16S rRNA showed that KT 20 belongs to the Rhizobium genus with a similarity of 99.48 % and bootstrap value of 96 %. HIGHLIGHTS Isolate KT 20 (identified rhizobia) has excellent ability in fixing nitrogen, which plants needs the most and legumes requires in large number Beside the ability of Isolate KT 20 to fix nitrogen, it also able to synthesize IAA, solubilize phosphate, and synthesize protease The ability of isolate KT 20 as PGPR was equal or better than other rhizobacteria that has been analyzed in other in vitro studies GRAPHICAL ABSTRACT

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从落花生（Arachis hypogaea L.）根瘤中发现促进植物生长根瘤菌的生物勘探潜力

根瘤菌是一种与寄主植物共生的细菌，如根瘤的形成所示，根瘤菌提供的氮比根瘤菌更容易被植物吸收。植物吸收的可利用氮是植物生长的基本要求，因为它在提高产量和质量方面起着重要作用，因此它比其他养分需要更多。本研究旨在确定从落花生根瘤中分离出的根瘤菌的宏观和微观多样性及其作为 PGPRs 的潜力，并通过分子鉴定 16S rRNA 分离物具有作为 PGPRs 的最佳潜力。采用的方法包括：从根瘤中分离、筛选 PGPR 潜力、基于 16S rRNA 基因的分子鉴定，以及确定其亲缘关系的系统发育分析。根据分离结果，在 AG 培养基上获得了 17 个白色至粉红色或橙色的革兰氏阴性分离株，它们的菌落在形状、边缘、隆起和质地方面具有不同的特征。KT 20 被选为最有潜力成为 PGPR 的根瘤菌分离株，其铵盐浓度为 23.12 ppm，合成 IAA 的浓度为 10.36 ppm，具有溶解磷酸盐的活性，但合成蛋白酶的能力较低。16S rRNA 分子鉴定结果表明，KT 20 属于根瘤菌属，相似度为 99.48 %，引导值为 96 %。除了固氮能力外，KT 20 分离物还能合成 IAA、溶解磷酸盐和合成蛋白酶。KT 20 分离物作为 PGPR 的能力等同于或优于其他体外研究分析过的根瘤菌。

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来源期刊

Trends in Sciences

CiteScore

1.20

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0.00%

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