固氮细菌与酢浆草科植物——垂直遗传的细菌共生例证。

Nitrogen-fixing bacteria and Oxalis - evidence for a vertically inherited bacterial symbiosis.

机构信息

Department of Botany and Zoology, University of Stellenbosch, Private Bag X1, Matieland, 7602, South Africa.

Department Conservation Ecology and Entomology, University of Stellenbosch, Private Bag X1, Matieland, 7602, South Africa.

出版信息

BMC Plant Biol. 2019 Oct 23;19(1):441. doi: 10.1186/s12870-019-2049-7.

DOI:10.1186/s12870-019-2049-7

PMID:31646970

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6806586/

Abstract

BACKGROUND

Plant-endophyte symbioses often revolve around nitrogen metabolism, and involve varying degrees of intimacy. Although evidence for vertical inheritance of nitrogen-fixing endophytic bacteria is increasing, it is confined mostly to crop plants, and to date no such system has been reported for geophytes.

METHODS

Bacterial endophytes associated with Oxalis, the most species-rich geophytic genus form the Cape Flora in southern Africa was studied. Culturable endophytes were isolated from surface-sterilized vegetative and reproductive plant organs for six host species at three locations. Colonies of microbes on various artificial media were morphotyped, enumerated and identified using sequence data. Filter exclusion experiments were conducted to determine if endophytes were vertically transmitted to seeds, determine if mucilage plays a role to actively attract microbes from the soil and to assess microbial richness isolated from the mucilage of Oxalis seedlings. Fluorescent microscopy was implemented in order to visualize endophytic bacteria in cryo-sectioned seeds.

RESULTS

Evidence for a novel, vertically transmitted symbiosis was reported. Communities of nitrogen-fixing and plant growth-promoting Bacillus endophytes were found to associate with selected Oxalis hosts from nitrogen-deficient environments of the Cape. Bacillus endophytes were ubiquitous and diverse across species and plant bodies, and were prominent in seeds. Three common nitrogen-fixing Bacillus have known oxalotrophic properties and appear to be housed inside specialised cavities (containing oxalates) within the plant body and seeds.

CONCLUSIONS

The discovery of vertical transmission and potential benefits to both host and endophyte suggest a particularly tight mutualism in the Oxalis-endophyte system. This discovery suggests unexpected ways in which geophytes might avoid nitrogen deficiency, and suggest that such symbioses are more common than previously expected.

摘要

背景

植物-内生菌共生关系通常围绕氮代谢展开，并涉及不同程度的亲密关系。尽管越来越多的证据表明固氮内生菌具有垂直遗传特性，但这些证据主要局限于作物植物，迄今为止，尚未有此类系统在球根植物中报道。

方法

研究了与南非开普植物区系中物种最丰富的球根植物属紫堇属相关的细菌内生菌。从三个地点的六个宿主物种的表面消毒营养和生殖植物器官中分离可培养的内生菌。对各种人工培养基上的微生物菌落进行形态分型、计数和鉴定，并使用序列数据进行鉴定。进行过滤排除实验以确定内生菌是否垂直传播到种子，确定粘液是否起到积极从土壤中吸引微生物的作用，并评估从紫堇幼苗粘液中分离出的微生物丰富度。实施荧光显微镜以可视化冷冻切片种子中的内生细菌。

结果

报告了一种新的垂直传播共生关系的证据。在氮缺乏的开普环境中，从选定的紫堇宿主中发现了固氮和促进植物生长的芽孢杆菌内生菌群落。芽孢杆菌内生菌在物种和植物体内普遍存在且多样化，在种子中尤为突出。三种常见的固氮芽孢杆菌具有已知的草酸营养特性，似乎存在于植物体内和种子内的专门腔室（含有草酸盐）中。

结论

垂直传播和对宿主和内生菌的潜在益处的发现表明，紫堇-内生菌系统中存在特别紧密的互利共生关系。这一发现表明，球根植物可能避免氮缺乏的方式出乎意料，并表明此类共生关系比预期的更为普遍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f624/6806586/879d228974f9/12870_2019_2049_Fig1_HTML.jpg

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固氮细菌与酢浆草科植物——垂直遗传的细菌共生例证。

Nitrogen-fixing bacteria and Oxalis - evidence for a vertically inherited bacterial symbiosis.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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