Halophilic Phosphate-Solubilizing Microbes (Priestia megaterium and Bacillus velezensis) Isolated from Arabian Sea Seamount Sediments for Plant Growth Promotion.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Greeshma Mani, Roobamathi Senthilkumar, Kaviya Venkatesan, J T Mary Leema, Vijaya Raghavan Rangamaran, Karpaga Raja Sundari Balachandran, Dharani Gopal
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Abstract

Arabian Sea is a highly productive Ocean owing to deep upwelling with reports on phosphorus cycling in ocean sediments. In this study, microbes from sea mounts of the Arabian Sea at varying depths (400 m, 900 m) were screened to isolate and characterize phosphate-solubilizing bacteria (PSB) with plant growth-promoting properties. Out of the seven morphologically different PSBs, two bacterial strains with maximum phosphate solubilization index were identified as Priestia megaterium (H1) and Bacillus velezensis (H2) based on biochemical and molecular characteristics. Different factors influencing phosphatase production were optimized, which showed maximum solubilization at temperature of 30 °C (97.5 μg/mL), glucose as best carbon source (70 µg/mL), 1-M NaCl (114.1 µg/mL), and pH 8 (134.3 µg/mL) indicating their halophilic and alkaliphilic characteristics. Alkaline phosphatase enzyme was extracted and partially purified from both PSBs wherein H2 strains showed greater specific activity (24.83 U/mg). Metabolomics studies through HPLC revealed maximum production of gluconic acid (483.75 mg/L) in addition to lactic, oxalic, acetic, and succinic acid during solubilization. Biopriming effect of PSBs on tomato seed germination showed high germination index (80%) in consortia of both isolates which was also validated through root colonization by SEM analysis. Further studies using pot assay experiments also showed comparable results in marine PSB consortia with positive control (Phosphobacteria) for plant growth attributes including root height and weight. These findings suggest that the halophilic PSB strains from marine sediments could be used as potential bio-inoculants to enhance plant growth and combat saline stress for sustainable Agriculture.

从促进植物生长的阿拉伯海海山沉积物中分离出的嗜卤磷酸盐溶解微生物(Priestia megaterium 和 Bacillus velezensis)。
阿拉伯海是一个高产海洋,因为有深层上升流,有关于海洋沉积物中磷循环的报道。本研究筛选了阿拉伯海不同深度(400 米、900 米)海床上的微生物,以分离和鉴定具有促进植物生长特性的磷酸盐溶解细菌(PSB)。根据生化和分子特征,在七种形态各异的磷酸盐溶解细菌中,确定了两种磷酸盐溶解指数最高的细菌菌株,分别是大型普氏菌(H1)和韦勒兹芽孢杆菌(H2)。对影响磷酸酶生产的不同因素进行了优化,结果表明,在温度为 30 °C(97.5 微克/毫升)、葡萄糖为最佳碳源(70 微克/毫升)、1-M NaCl(114.1 微克/毫升)和 pH 值为 8(134.3 微克/毫升)时,磷酸酶的溶解度最大,这表明它们具有嗜卤和嗜碱的特性。从这两种嗜碱性生物中提取并部分纯化了碱性磷酸酶,其中 H2 菌株表现出更高的特异性活性(24.83 U/mg )。通过 HPLC 进行的代谢组学研究显示,在溶解过程中,除乳酸、草酸、乙酸和琥珀酸外,葡萄糖酸的产量最高(483.75 mg/L)。PSBs 对番茄种子萌发的生物修复作用表明,两种分离物的联合体具有较高的萌发指数(80%),这也通过 SEM 分析的根定植得到了验证。利用盆栽实验进行的进一步研究也表明,海洋 PSB 菌群与阳性对照(磷细菌)在植物生长属性(包括根的高度和重量)方面的结果相当。这些研究结果表明,海洋沉积物中的嗜盐 PSB 菌株可用作潜在的生物接种剂,以促进植物生长和对抗盐胁迫,从而实现农业的可持续发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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