基于比较基因组学的籼稻黄单胞菌研究--一种具有生物保护功能的健康水稻微生物群中的非致病菌种。

IF 3.9 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Applied and Environmental Microbiology Pub Date : 2024-09-18 Epub Date: 2024-08-19 DOI:10.1128/aem.00848-24
Rekha Rana, Praveen Kumar Nayak, Vishnu Narayanan Madhavan, Ramesh V Sonti, Hitendra K Patel, Prabhu B Patil
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引用次数: 0

摘要

黄单胞菌是植物的主要病原体,已被广泛研究。人们越来越认识到同一属中非致病性物种的重要性。因此,需要在物种和菌株水平上了解非致病性黄单胞菌(NPX)的基因组和功能多样性。本研究报告了对 NPX 分离物基因组多样性和变异的分离和调查,主要是籼稻黄单胞菌,一种从水稻中新发现的 NPX 物种。该研究确定了籼稻黄单胞菌株在黄单胞菌 I 支系中与另一种 NPX 物种 X. sontii 的关系,后者也与水稻种子有关。与致病黄单胞菌相比,该研究发现了高度多样化的菌株、开放式基因组以及脂多糖生物合成位点的系统性过度变异,这表明黄单胞菌获得了新的适应功能。此外,比较基因组学研究证实,病原体中不存在 III 型分泌系统和效应器等主要毒力基因,而存在已知的杀灭细菌的 IV 型分泌系统(X-T4SS)。研究发现,X. indica 和 X. sontii 的多种非致病性菌株能保护水稻免受细菌性叶枯病病原体 X. oryzae pv. oryzae(Xoo)的侵害。X-T4SS 突变体的表型缺失表明,生物保护功能所涉及机制的遗传基础是冗余的,可能包括多个遗传位点,如推测的细菌素编码基因簇,除了通过共享的微生物相关分子模式诱导先天性免疫外,还涉及营养和生态位竞争等其他因素。水稻-NPX 群落及其致病性对应物可以成为了解植物-微生物-微生物组相互作用研究的一个很有前景的模型。然而,非致病性黄单胞菌(NPX)物种的发现是了解这类细菌的一个重大转变。目前仍缺乏对这些 NPX 物种的多菌株、深入基因组、进化和功能研究。这项对不同非致病性菌株的研究,为我们提供了关于水稻微生物组中 NPX 菌种的基因组多样性、动态和进化趋势的新见解,同时也揭示了 NPX 菌种与构成亚支系的其他亲缘种之间的关系。有趣的是,我们还发现 NPX 保护水稻免受致病黄单胞菌的侵害。这种植物保护特性表明了它们作为健康植物微生物组一部分的重要性。此外,在脂多糖生物合成位点上发现的开放泛基因组和大规模变异表明,NPX 群落在宿主适应中发挥着重要作用。这些发现以及 NPX 物种和菌株的高质量基因组资源将有助于进一步开展系统的分子和宿主相关微生物群落研究,从而促进植物健康。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative genomics-based insights into Xanthomonas indica, a non-pathogenic species of healthy rice microbiome with bioprotection function.

Xanthomonas species are major pathogens of plants and have been studied extensively. There is increasing recognition of the importance of non-pathogenic species within the same genus. With this came the need to understand the genomic and functional diversity of non-pathogenic Xanthomonas (NPX) at the species and strain level. This study reports isolation and investigation into the genomic diversity and variation in NPX isolates, chiefly Xanthomonas indica, a newly discovered NPX species from rice. The study establishes the relationship of X. indica strains within clade I of Xanthomonads with another NPX species, X. sontii, also associated with rice seeds. Identification of highly diverse strains, open-pan genome, and systematic hyper-variation at the lipopolysaccharide biosynthetic locus when compared to pathogenic Xanthomonas indicates the acquisition of new functions for adaptation. Furthermore, comparative genomics studies established the absence of major virulence genes such as type III secretion system and effectors, which are present in the pathogens, and the presence of a known bacterial-killing type IV secretion system (X-T4SS). The diverse non-pathogenic strains of X. indica and X. sontii were found to protect rice from bacterial leaf blight pathogen, X. oryzae pv. oryzae (Xoo). The absence of phenotype of an X-T4SS mutant suggests redundancy in the genetic basis of the mechanisms involved in the bioprotection function, which may include multiple genetic loci, such as putative bacteriocin-encoding gene clusters and involvement of other factors such as nutrient and niche competition apart from induction of innate immunity through shared microbial-associated molecular patterns. The rice-NPX community and its pathogenic counterpart can be a promising model for understanding plant-microbe-microbiome interaction studies.IMPORTANCEThe Xanthomonas group of bacteria is known for its characteristic lifestyle as a phytopathogen. However, the discovery of non-pathogenic Xanthomonas (NPX) species is a major shift in understanding this group of bacteria. Multi-strain, in-depth genomic, evolutionary and functional studies on each of these NPX species are still lacking. This study on diverse non-pathogenic strains provides novel insights into genome diversity, dynamics, and evolutionary trends of NPX species from rice microbiome apart from its relationship with other relatives that form a sub-clade. Interestingly, we also uncovered that NPX species protect rice from pathogenic Xanthomonas species. The plant protection property shows their importance as a part of a healthy plant microbiome. Furthermore, finding an open pan-genome and large-scale variation at lipopolysaccharide biosynthetic locus indicates a significant role of the NPX community in host adaptation. The findings and high-quality genomic resources of NPX species and the strains will allow further systematic molecular and host-associated microbial community studies for plant health.

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来源期刊
Applied and Environmental Microbiology
Applied and Environmental Microbiology 生物-生物工程与应用微生物
CiteScore
7.70
自引率
2.30%
发文量
730
审稿时长
1.9 months
期刊介绍: Applied and Environmental Microbiology (AEM) publishes papers that make significant contributions to (a) applied microbiology, including biotechnology, protein engineering, bioremediation, and food microbiology, (b) microbial ecology, including environmental, organismic, and genomic microbiology, and (c) interdisciplinary microbiology, including invertebrate microbiology, plant microbiology, aquatic microbiology, and geomicrobiology.
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