Kobresia humilis 通过根释放的黄酮类化合物招募芽孢杆菌,促进生长。

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Junxi Li , Lingling Wu , Yizhi Zhou , Yongli Xie , Fuwei Lu , Feifei Chang , Xue Yang , Xianzhong Han , Mingxuan Cheng
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引用次数: 0

摘要

对生物多样性和生态系统服务至关重要的高山草甸正日益退化,需要采取有效的恢复策略。本研究探讨了高山草甸构建物种蒿草(Kobresia humilis)通过根部渗出物调节根瘤微生物群以促进生长的机制。实地调查显示,在严重退化(SD)的高山草甸上,K. humilis的株高明显高于其他K. humilis种群。因此,我们分析了该地块与其他不同退化程度的蒿草样本之间的差异,以探索蒿草表型差异的原因。16 S rRNA 扩增子测序结果显示,降解地块明显富含更多的芽孢杆菌,改变了蒿草根瘤微生物群落的组成。从不同地点收集和分析蒿草根部渗出物发现了明显的差异。Procrustes 分析表明,根部渗出物与蒿草根瘤微生物群组成之间存在很强的相关性。利用基于模型的代谢物观测整合、物种丰度 2(MIMOSA2)和斯皮尔曼等级相关系数分析,确定了可能与芽孢杆菌的富集和招募有关的根外渗物。对 SD 样本中的芽孢杆菌进行了分离和筛选,发现代表性菌株 D334 与其他样本相比富集程度不同。利用筛选出的根部渗出物和菌株 D334 进行的一系列体外实验表明,腐霉菌可以招募芽孢杆菌,并通过释放黄酮类化合物(尤其是黄芩苷)促进芽孢杆菌的定殖。此外,腐霉菌还能释放蔗糖和核黄素,促进菌株生长。最后,土壤微生物组移植实验证实,不同的 K. humilis 表型与根圈微生物组的功能密切相关,尤其是在根系形态塑造方面。此外,芽孢杆菌接种和微生物组对植物表型的影响是一致的。总之,本研究揭示了一种新的机制,通过这种机制,K. humilis可以招募根圈生长促进菌,提高土壤养分利用率,从而促进植物生长。这些发现为利用土壤微生物群落进行生态恢复提供了理论依据,并阐明了植物代谢产物与微生物群落组装之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kobresia humilis via root-released flavonoids recruit Bacillus for promoted growth

Alpine meadows, which are critical for biodiversity and ecosystem services, are increasingly degrading, necessitating effective restoration strategies. This study explored the mechanism by which Kobresia humilis, an alpine meadow-constructive species, modulates the rhizosphere microbiome via root exudates to enhance growth. Field investigations revealed that the plant height of K. humilis in a severely degraded (SD) alpine meadow was significantly higher than that in other K. humilis populations. Consequently, we analysed the differences between this plot and other K. humilis samples with different degrees of degradation to explore the reasons underlying the phenotypic differences in K. humilis. 16 S rRNA amplicon sequencing results showed that the SD plots were significantly enriched with more Bacillus, altering the composition of the rhizosphere microbial community of K. humilis. The collection and analysis of root exudates from various K. humilis locations revealed distinct differences. Procrustes analysis indicated a strong correlation between the root exudates and the rhizosphere microbiome composition of K. humilis. Model-based integration of metabolite observations, species abundance 2 (MIMOSA2), and Spearman's rank correlation coefficient analysis were used to identify the root exudates potentially related to the enrichment and recruitment of Bacillus. Bacillus from SD samples was isolated and screened, and the representative strain D334 was found to be differentially enriched compared to other samples. A series of in vitro experiments with the screened root exudates and strain D334 demonstrated that K. humilis could recruit Bacillus and promote its colonisation by releasing flavonoids, particularly baicalin. Additionally, K. humilis can release sucrose and riboflavin, which promote strain growth. Finally, soil microbiome transplantation experiments confirmed that different K. humilis phenotypes were closely related to the functions of the rhizosphere microbiome, especially in root morphological shaping. Moreover, the effects of Bacillus inoculation and the microbiome on the plant phenotypes were consistent. In summary, this study revealed a new mechanism by which K. humilis recruits rhizosphere growth-promoting bacteria and enhances soil nutrient utilisation, thereby promoting plant growth. These findings provide a theoretical basis for ecological restoration using soil microbial communities and clarify the relationship between plant metabolites and microbial community assembly.

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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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