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从生长在巴西大西洋森林(马塔·亚特兰蒂卡)土壤中的含羞草(含羞草属)和菜豆(菜豆属)根瘤中分离出的共生类伯克霍尔德氏菌物种的遗传多样性。

Genetic diversity of symbiotic Paraburkholderia species isolated from nodules of Mimosa pudica (L.) and Phaseolus vulgaris (L.) grown in soils of the Brazilian Atlantic Forest (Mata Atlântica).

作者信息

Dall'Agnol Rebeca Fuzinatto, Bournaud Caroline, de Faria Sérgio Miana, Béna Gilles, Moulin Lionel, Hungria Mariangela

机构信息

Soil Biotechnology Laboratory, Embrapa Soja, C.P. 231, 86001-970, Londrina, PR, Brazil.

Department of Biochemistry and Biotechnology, Universidade Estadual de Londrina, C.P. 10.011, 86057-970, Londrina, PR, Brazil.

出版信息

FEMS Microbiol Ecol. 2017 Apr 1;93(4). doi: 10.1093/femsec/fix027.

Abstract

Some species of the genus Paraburkholderia that are able to nodulate and fix nitrogen in symbiosis with legumes are called β-rhizobia and represent a group of ecological and biotechnological importance. We used Mimosa pudica and Phaseolus vulgaris to trap 427 rhizobial isolates from rhizospheric soil of Mimoseae trees in the Brazilian Atlantic Forest. Eighty-four representative strains were selected according to the 16S rRNA haplotypes and taxonomically characterized using a concatenated 16S rRNA-recA phylogeny. Most strains were assembled in the genus Paraburkholderia, including Paraburkholderia sabiae and Pa. nodosa. Mesorhizobium (α-rhizobia) and Cupriavidus (β-rhizobia) were also isolated, but in smaller proportions. Multilocus sequence analysis and BOX-PCR analyses indicated that six clusters of Paraburkholderia represent potential new species. In the phylogenetic analysis of the nodC gene, the majority of the strains were positioned in the same groups as in the 16S rRNA-recA tree, indicative of stability and vertical inheritance, but we also identified horizontal transfer of nodC in Pa. sabiae. All α- and β-rhizobial species were trapped by both legumes, although preferences of the host plants for specific rhizobial species have been observed.

摘要

一些能够与豆科植物共生结瘤并固氮的类芽孢杆菌属物种被称为β-根瘤菌,是具有生态和生物技术重要性的一类菌群。我们利用含羞草和菜豆从巴西大西洋森林含羞草科树木的根际土壤中捕获了427株根瘤菌分离株。根据16S rRNA单倍型选择了84株代表性菌株,并使用串联的16S rRNA-recA系统发育进行分类学特征分析。大多数菌株聚集在类芽孢杆菌属中,包括萨比亚类芽孢杆菌和结节类芽孢杆菌。也分离到了中慢生根瘤菌(α-根瘤菌)和贪铜菌(β-根瘤菌),但比例较小。多位点序列分析和BOX-PCR分析表明,类芽孢杆菌属的六个簇代表潜在的新物种。在nodC基因的系统发育分析中,大多数菌株与16S rRNA-recA树中的菌株位于同一组,表明其稳定性和垂直遗传,但我们也在萨比亚类芽孢杆菌中鉴定到了nodC基因的水平转移。所有的α-和β-根瘤菌物种都被这两种豆科植物捕获,尽管观察到宿主植物对特定根瘤菌物种存在偏好。

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