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Bradyrhizobium ontarionense sp. nov., a novel bacterial symbiont isolated from Aeschynomene indica (Indian jointvetch), harbours photosynthesis, nitrogen fixation and nitrous oxide (N2O) reductase genes
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Bradyrhizobium ontarionense sp. nov., a novel bacterial symbiont isolated from Aeschynomene indica (Indian jointvetch), harbours photosynthesis, nitrogen fixation and nitrous oxide (N2O) reductase genes
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Bradyrhizobium ontarionense sp. nov., a novel bacterial symbiont isolated from Aeschynomene indica (Indian jointvetch), harbours photosynthesis, nitrogen fixation and nitrous oxide (N2O) reductase genes
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Journal Article
Bradyrhizobium ontarionense sp. nov., a novel bacterial symbiont isolated from Aeschynomene indica (Indian jointvetch), harbours photosynthesis, nitrogen fixation and nitrous oxide (N2O) reductase genes
2024
Overview
A novel bacterial symbiont, strain A19
T
, was previously isolated from a root-nodule of
Aeschynomene indica
and assigned to a new lineage in the photosynthetic clade of the genus
Bradyrhizobium.
Here data are presented for the detailed genomic and taxonomic analyses of novel strain A19
T
. Emphasis is placed on the analysis of genes of practical or ecological significance (photosynthesis, nitrous oxide reductase and nitrogen fixation genes). Phylogenomic analysis of whole genome sequences as well as 50 single-copy core gene sequences placed A19
T
in a highly supported lineage distinct from described
Bradyrhizobium
species with
B. oligotrophicum
as the closest relative. The digital DNA-DNA hybridization and average nucleotide identity values for A19
T
in pair-wise comparisons with close relatives were far lower than the respective threshold values of 70% and ~ 96% for definition of species boundaries. The complete genome of A19
T
consists of a single 8.44 Mbp chromosome and contains a photosynthesis gene cluster, nitrogen-fixation genes and genes encoding a complete denitrifying enzyme system including nitrous oxide reductase implicated in the reduction of N
2
O, a potent greenhouse gas, to inert dinitrogen. Nodulation and type III secretion system genes, needed for nodulation by most rhizobia, were not detected. Data for multiple phenotypic tests complemented the sequence-based analyses. Strain A19
T
elicits nitrogen-fixing nodules on stems and roots of
A. indica
plants but not on soybeans or
Macroptilium atropurpureum
. Based on the data presented, a new species named
Bradyrhizobium ontarionense
sp. nov. is proposed with strain A19
T
(= LMG 32638
T
= HAMBI 3761
T
) as the type strain.
Publisher
Springer International Publishing,Springer Nature B.V
Subject
