Role of Bacillus subtilis exopolymeric genes in modulating rhizosphere microbiome assembly.

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY
Caroline Sayuri Nishisaka, João Paulo Ventura, Harsh P Bais, Rodrigo Mendes
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Abstract

Background: Bacillus subtilis is well known for promoting plant growth and reducing abiotic and biotic stresses. Mutant gene-defective models can be created to understand important traits associated with rhizosphere fitness. This study aimed to analyze the role of exopolymeric genes in modulating tomato rhizosphere microbiome assembly under a gradient of soil microbiome diversities using the B. subtilis wild-type strain UD1022 and its corresponding mutant strain UD1022eps-TasA, which is defective in exopolysaccharide (EPS) and TasA protein production.

Results: qPCR revealed that the B. subtilis UD1022eps-TasA- strain has a diminished capacity to colonize tomato roots in soils with diluted microbial diversity. The analysis of bacterial β-diversity revealed significant differences in bacterial and fungal community structures following inoculation with either the wild-type or mutant B. subtilis strains. The Verrucomicrobiota, Patescibacteria, and Nitrospirota phyla were more enriched with the wild-type strain inoculation than with the mutant inoculation. Co-occurrence analysis revealed that when the mutant was inoculated in tomato, the rhizosphere microbial community exhibited a lower level of modularity, fewer nodes, and fewer communities compared to communities inoculated with wild-type B. subtilis.

Conclusion: This study advances our understanding of the EPS and TasA genes, which are not only important for root colonization but also play a significant role in shaping rhizosphere microbiome assembly. Future research should concentrate on specific microbiome genetic traits and their implications for rhizosphere colonization, coupled with rhizosphere microbiome modulation. These efforts will be crucial for optimizing PGPR-based approaches in agriculture.

枯草芽孢杆菌外聚合基因在调节根瘤微生物组组合中的作用。
背景:众所周知,枯草芽孢杆菌能促进植物生长,减轻非生物和生物胁迫。通过创建突变基因缺陷模型,可以了解与根瘤健康相关的重要性状。本研究旨在利用枯草芽孢杆菌野生型菌株 UD,分析外聚合基因在土壤微生物组多样性梯度下调节番茄根瘤菌组的作用。结果:qPCR显示,在微生物多样性稀释的土壤中,枯草芽孢杆菌UD1022eps-TasA-菌株定殖番茄根系的能力减弱。细菌 β 多样性分析表明,接种野生型或突变型枯草芽孢杆菌菌株后,细菌和真菌群落结构存在显著差异。接种野生型菌株后,Verrucomicrobiota、Patescibacteria 和 Nitrospirota 门比接种突变型菌株后更为富集。共生分析表明,与接种野生型枯草芽孢杆菌的群落相比,在番茄中接种突变株时,根瘤微生物群落表现出较低的模块化水平、较少的节点和较少的群落:这项研究加深了我们对 EPS 和 TasA 基因的了解,它们不仅对根系定殖很重要,而且在形成根瘤菌微生物群落方面也发挥着重要作用。未来的研究应集中于特定微生物组的遗传特征及其对根圈定植的影响,以及根圈微生物组的调节。这些工作对于优化基于 PGPR 的农业方法至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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