Biodiversity and Biogeography of Rhizobia Associated with Soybean Plants Grown in the North China Plain

Zhang, Yan Ming; Liu, Ying; Chen, Wen Feng; Wang, En Tao; Tian, Chang Fu; Li, Qin Qin; Zhang, Yun Zeng; Sui, Xin

doi:10.1128/aem.00542-11

Cited by 145 publications

(125 citation statements)

References 42 publications

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“…This result confirmed a previous finding that the symbiotic genes could be spread by lateral gene transfer among different genera and species (49). The lateral gene transfer that occurs in rhizobial strains is an important way of forming novel species, to improve their biodiversity and adaptation capacity, even though lateral transfer happens only rarely (6). These results also suggested that the symbiotic genes had taxonomic values, beyond determination of their host specificity (40), even though they are located on transferable symbiotic islands or plasmids (50,51).…”

Section: Figsupporting

confidence: 90%

“…Intensive research on these symbiotic bacteria has been performed around the world. All the rhizobial strains or populations have been shown to have a specific host spectrum, although the same plant species can form symbiotic relationships with distinct rhizobia in different geographic regions (5,6). Therefore, novel rhizobia or new symbiotic associations between rhizobia and legumes might be found by studying the rhizobia associated with legumes grown in different regions or by investigating legumes in which the rhizobia have not yet been studied.…”

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confidence: 99%

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Genetic Diversity and Evolution of Bradyrhizobium Populations Nodulating Erythrophleum fordii, an Evergreen Tree Indigenous to the Southern Subtropical Region of China

Yao

Wang

Lü

et al. 2014

Appl Environ Microbiol

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The nodulation of Erythrophleum fordii has been recorded recently, but its microsymbionts have never been studied. To investigate the diversity and biogeography of rhizobia associated with this leguminous evergreen tree, root nodules were collected from the southern subtropical region of China. A total of 166 bacterial isolates were obtained from the nodules and characterized. In a PCR-based restriction fragment length polymorphism (RFLP) analysis of ribosomal intergenic sequences, the isolates were classified into 22 types within the genus Bradyrhizobium. Sequence analysis of 16S rRNA, ribosomal intergenic spacer (IGS), and the housekeeping genes recA and glnII classified the isolates into four groups: the Bradyrhizobium elkanii and Bradyrhizobium pachyrhizi groups, comprising the dominant symbionts, Bradyrhizobium yuanmingense, and an unclassified group comprising the minor symbionts. The nodC and nifH phylogenetic trees defined five or six lineages among the isolates, which was largely consistent with the definition of genomic species. The phylogenetic results and evolutionary analysis demonstrated that mutation and vertical transmission of genes were the principal processes for the divergent evolution of Bradyrhizobium species associated with E. fordii, while lateral transfer and recombination of housekeeping and symbiotic genes were rare. The distribution of the dominant rhizobial populations was affected by soil pH and effective phosphorus. This is the first report to characterize E. fordii rhizobia.

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confidence: 90%

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confidence: 99%

Genetic Diversity and Evolution of Bradyrhizobium Populations Nodulating Erythrophleum fordii, an Evergreen Tree Indigenous to the Southern Subtropical Region of China

Yao

Wang

Lü

et al. 2014

Appl Environ Microbiol

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“…The Sinorhizobium genus is expanding as new root nodule isolates are identified from diverse leguminous plants and geographic regions (14,43,56,(77)(78)(79). It will be interesting to see how the chromosome or megaplasmid location of the engA and tRNA arg genes segregates in these newly identified Sinorhizobium species.…”

Section: Discussionmentioning

confidence: 99%

The tRNA ^arg Gene and engA Are Essential Genes on the 1.7-Mb pSymB Megaplasmid of Sinorhizobium meliloti and Were Translocated Together from the Chromosome in an Ancestral Strain

et al. 2013

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Bacterial genomes with two (or more) chromosome-like replicons are known, and these appear to be particularly frequent in alphaproteobacteria. The genome of the N 2 -fixing alfalfa symbiont Sinorhizobium meliloti 1021 contains a 3.7-Mb chromosome and 1.4-Mb (pSymA) and 1.7-Mb (pSymB) megaplasmids. In this study, the tRNA arg and engA genes, located on the pSymB megaplasmid, are shown to be essential for growth. These genes could be deleted from pSymB when copies were previously integrated into the chromosome. However, in the closely related strain Sinorhizobium fredii NGR234, the tRNA arg and engA genes are located on the chromosome, in a 69-kb region designated the engA-tRNA arg -rmlC region. This region includes bacA, a gene that is important for intracellular survival during host-bacterium interactions for S. meliloti and the related alphaproteobacterium Brucella abortus. The engA-tRNA arg -rmlC region lies between the kdgK and dppF2 (NGR_c24410) genes on the S. fredii chromosome. Synteny analysis showed that kdgK and dppF2 orthologues are adjacent to each other on the chromosomes of 15 sequenced strains of S. meliloti and Sinorhizobium medicae, whereas the 69-kb engA-tRNA arg -rmlC region is present on the pSymB-equivalent megaplasmids. This and other evidence strongly suggests that the engA-tRNA arg -rmlC region translocated from the chromosome to the progenitor of pSymB in an ancestor common to S. meliloti and S. medicae. To our knowledge, this work represents one of the first experimental demonstrations that essential genes are present on a megaplasmid.

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“…Previously, B. japonicum, B. elkanii, B. liaoningense, B. yuanmingense, Ensifer fredii and Ensifer sojae (Han et al, 2009;Li et al, 2011a;Man et al, 2008;Wang et al, 2009;Xu et al, 1995) have been isolated from root nodules of soybean grown in different regions of China. Clear biogeographic patterns have been revealed in the soybean rhizobia and soil types seemed to be the main determinant of the biogeography of these bacteria (Han et al, 2009;Li et al, 2011b;Man et al, 2008;Zhang et al, 2011).…”

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Bradyrhizobium daqingense sp. nov., isolated from soybean nodules

Wang

Zhang

et al. 2013

International Journal of Systematic and Evolutionary Microbiology

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Thirteen slow-growing rhizobial strains isolated from root nodules of soybean (Glycine max L.) grown in Daqing city in China were classified in the genus Bradyrhizobium based on 16S rRNA gene sequence analysis. Multilocus sequence analysis of IGS, atpD, glnII and recA genes revealed that the isolates represented a novel clade in this genus. DNA-DNA relatedness lower than 42.5 % between the representative strain CCBAU 15774 T and the type strains of the closely related species Bradyrhizobium liaoningense USDA 3622 T , Bradyrhizobium yuanmingense CCBAU 10071 T and Bradyrhizobium betae LMG 21987 T , further confirmed that this group represented a novel species. CCBAU 15774 T shared seven cellular fatty acids with the three above-mentioned species, but the fatty acids 15 : 0 iso and summed feature 5 (18 : 2v6,9c and/or 18 : 0 anteiso) were unique for this strain. The respiratory quinone in CCBAU 15774 T was ubiquinone-10 and the cellular polar lipids were phosphatidylethanolamine, phosphatidylglycerol, phosphatidylcholine, cardiolipin and unknown aminolipid, polar lipid and phospholipid. In addition, some phenotypic features could be used to differentiate the novel group from the related species. On basis of these results, we propose the name Bradyrhizobium daqingense sp. nov., with CCBAU 15774 T (5LMG 26137 T 5HAMBI 3184 T 5CGMCC 1.10947 T ) as the type strain. The DNA G+C content of the type strain is 61.2 mol% (T m ).

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Biodiversity and Biogeography of Rhizobia Associated with Soybean Plants Grown in the North China Plain

Cited by 145 publications

References 42 publications

Genetic Diversity and Evolution of Bradyrhizobium Populations Nodulating Erythrophleum fordii, an Evergreen Tree Indigenous to the Southern Subtropical Region of China

Genetic Diversity and Evolution of Bradyrhizobium Populations Nodulating Erythrophleum fordii, an Evergreen Tree Indigenous to the Southern Subtropical Region of China

The tRNA ^arg Gene and engA Are Essential Genes on the 1.7-Mb pSymB Megaplasmid of Sinorhizobium meliloti and Were Translocated Together from the Chromosome in an Ancestral Strain

Bradyrhizobium daqingense sp. nov., isolated from soybean nodules

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Biodiversity and Biogeography of Rhizobia Associated with Soybean Plants Grown in the North China Plain

Cited by 145 publications

References 42 publications

Genetic Diversity and Evolution of Bradyrhizobium Populations Nodulating Erythrophleum fordii, an Evergreen Tree Indigenous to the Southern Subtropical Region of China

Genetic Diversity and Evolution of Bradyrhizobium Populations Nodulating Erythrophleum fordii, an Evergreen Tree Indigenous to the Southern Subtropical Region of China

The tRNA arg Gene and engA Are Essential Genes on the 1.7-Mb pSymB Megaplasmid of Sinorhizobium meliloti and Were Translocated Together from the Chromosome in an Ancestral Strain

Bradyrhizobium daqingense sp. nov., isolated from soybean nodules

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The tRNA ^arg Gene and engA Are Essential Genes on the 1.7-Mb pSymB Megaplasmid of Sinorhizobium meliloti and Were Translocated Together from the Chromosome in an Ancestral Strain