Crotalarieae and Genisteae of the South African Great Escarpment are nodulated by novel Bradyrhizobium species with unique and diverse symbiotic loci

[Display omitted] •Isolated 21 rhizobial isolates, corresponding to seven Bradyrhizobium species.•One of these is conspecific with B. arachidis, while the others are new.•Most of the isolates formed part of new nodA clades (Clades XIV and XV).•Similar groupings were recovered from the nifD genealogy...

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Published inMolecular phylogenetics and evolution Vol. 100; pp. 206 - 218
Main Authors Beukes, Chrizelle W., Stępkowski, Tomasz, Venter, Stephanus N., Cłapa, Tomasz, Phalane, Francina L., le Roux, Marianne M., Steenkamp, Emma T.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.07.2016
Subjects
Bacteria
Bacterial Proteins - genetics
Bradyrhizobium
Bradyrhizobium - classification
Bradyrhizobium - genetics
Bradyrhizobium - isolation & purification
Crotalarieae
DNA, Bacterial - chemistry
DNA, Bacterial - isolation & purification
DNA, Bacterial - metabolism
environmental factors
Fabaceae - genetics
Fabaceae - microbiology
genes
Genisteae
hosts
legumes
loci
Multilocus Sequence Typing
nifD
Nitrogen Fixation
nodA
nodulation
Phylogeny
Phylogeography
RNA, Ribosomal, 16S - chemistry
RNA, Ribosomal, 16S - isolation & purification
RNA, Ribosomal, 16S - metabolism
Sequence Analysis, DNA
South Africa
symbionts
Symbiosis
South Africa
Crotalarieae
Genisteae
nifD
nodA
Phylogeography
Bradyrhizobium
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Abstract [Display omitted] •Isolated 21 rhizobial isolates, corresponding to seven Bradyrhizobium species.•One of these is conspecific with B. arachidis, while the others are new.•Most of the isolates formed part of new nodA clades (Clades XIV and XV).•Similar groupings were recovered from the nifD genealogy.•Evolution of these rhizobia is subject to environmental factors and host distribution. The genus Bradyrhizobium contains predominantly nitrogen-fixing legume symbionts. Phylogenetic analysis of the genes responsible for their symbiotic abilities (i.e., those encoded on the nodulation [nod] and nitrogen-fixation [nif] loci) has facilitated the development of an extensive phylogeographic framework for the genus. This framework however contains only a few nodulating isolates from Africa. Here we focused on nodulating Bradyrhizobium isolates associated with native southern African legumes in the tribes Genisteae and Crotalarieae found along the Great Escarpment in the Mpumalanga Province of South Africa. The aims of this study were to: (1) obtain rhizobial isolates from legumes in the Genisteae and Crotalarieae; (2) verify their nodulation ability; (3) characterize them to species level based on phylogenetic analyses of several protein coding gene regions (atpD, dnaK, glnII, recA, rpoB and gyrB) and (4) determine their placement in the phylogeographic framework inferred from the sequences of the symbiotic loci nodA and nifD. Twenty of the 21 Bradyrhizobium isolates belonged to six novel species, while one was conspecific with the recently described B. arachidis. Among these isolates, the nodA phylogeny revealed several new clades, with 18 of our isolates found in Clades XIV and XV, and only three forming part of the cosmopolitan Clade III. These strains formed predominantly the same groups in the nifD phylogeny although with slight differences; indicating that both vertical and horizontal inheritance of the symbiotic loci occurred. These findings suggest that the largely unexplored diversity of indigenous African rhizobia are characterized by unique ancestries that might mirror the distribution of their hosts and the environmental factors driving their evolution.
AbstractList The genus Bradyrhizobium contains predominantly nitrogen-fixing legume symbionts. Phylogenetic analysis of the genes responsible for their symbiotic abilities (i.e., those encoded on the nodulation [nod] and nitrogen-fixation [nif] loci) has facilitated the development of an extensive phylogeographic framework for the genus. This framework however contains only a few nodulating isolates from Africa. Here we focused on nodulating Bradyrhizobium isolates associated with native southern African legumes in the tribes Genisteae and Crotalarieae found along the Great Escarpment in the Mpumalanga Province of South Africa. The aims of this study were to: (1) obtain rhizobial isolates from legumes in the Genisteae and Crotalarieae; (2) verify their nodulation ability; (3) characterize them to species level based on phylogenetic analyses of several protein coding gene regions (atpD, dnaK, glnII, recA, rpoB and gyrB) and (4) determine their placement in the phylogeographic framework inferred from the sequences of the symbiotic loci nodA and nifD. Twenty of the 21 Bradyrhizobium isolates belonged to six novel species, while one was conspecific with the recently described B. arachidis. Among these isolates, the nodA phylogeny revealed several new clades, with 18 of our isolates found in Clades XIV and XV, and only three forming part of the cosmopolitan Clade III. These strains formed predominantly the same groups in the nifD phylogeny although with slight differences; indicating that both vertical and horizontal inheritance of the symbiotic loci occurred. These findings suggest that the largely unexplored diversity of indigenous African rhizobia are characterized by unique ancestries that might mirror the distribution of their hosts and the environmental factors driving their evolution.The genus Bradyrhizobium contains predominantly nitrogen-fixing legume symbionts. Phylogenetic analysis of the genes responsible for their symbiotic abilities (i.e., those encoded on the nodulation [nod] and nitrogen-fixation [nif] loci) has facilitated the development of an extensive phylogeographic framework for the genus. This framework however contains only a few nodulating isolates from Africa. Here we focused on nodulating Bradyrhizobium isolates associated with native southern African legumes in the tribes Genisteae and Crotalarieae found along the Great Escarpment in the Mpumalanga Province of South Africa. The aims of this study were to: (1) obtain rhizobial isolates from legumes in the Genisteae and Crotalarieae; (2) verify their nodulation ability; (3) characterize them to species level based on phylogenetic analyses of several protein coding gene regions (atpD, dnaK, glnII, recA, rpoB and gyrB) and (4) determine their placement in the phylogeographic framework inferred from the sequences of the symbiotic loci nodA and nifD. Twenty of the 21 Bradyrhizobium isolates belonged to six novel species, while one was conspecific with the recently described B. arachidis. Among these isolates, the nodA phylogeny revealed several new clades, with 18 of our isolates found in Clades XIV and XV, and only three forming part of the cosmopolitan Clade III. These strains formed predominantly the same groups in the nifD phylogeny although with slight differences; indicating that both vertical and horizontal inheritance of the symbiotic loci occurred. These findings suggest that the largely unexplored diversity of indigenous African rhizobia are characterized by unique ancestries that might mirror the distribution of their hosts and the environmental factors driving their evolution.
The genus Bradyrhizobium contains predominantly nitrogen-fixing legume symbionts. Phylogenetic analysis of the genes responsible for their symbiotic abilities (i.e., those encoded on the nodulation [nod] and nitrogen-fixation [nif] loci) has facilitated the development of an extensive phylogeographic framework for the genus. This framework however contains only a few nodulating isolates from Africa. Here we focused on nodulating Bradyrhizobium isolates associated with native southern African legumes in the tribes Genisteae and Crotalarieae found along the Great Escarpment in the Mpumalanga Province of South Africa. The aims of this study were to: (1) obtain rhizobial isolates from legumes in the Genisteae and Crotalarieae; (2) verify their nodulation ability; (3) characterize them to species level based on phylogenetic analyses of several protein coding gene regions (atpD, dnaK, glnII, recA, rpoB and gyrB) and (4) determine their placement in the phylogeographic framework inferred from the sequences of the symbiotic loci nodA and nifD. Twenty of the 21 Bradyrhizobium isolates belonged to six novel species, while one was conspecific with the recently described B. arachidis. Among these isolates, the nodA phylogeny revealed several new clades, with 18 of our isolates found in Clades XIV and XV, and only three forming part of the cosmopolitan Clade III. These strains formed predominantly the same groups in the nifD phylogeny although with slight differences; indicating that both vertical and horizontal inheritance of the symbiotic loci occurred. These findings suggest that the largely unexplored diversity of indigenous African rhizobia are characterized by unique ancestries that might mirror the distribution of their hosts and the environmental factors driving their evolution.
[Display omitted] •Isolated 21 rhizobial isolates, corresponding to seven Bradyrhizobium species.•One of these is conspecific with B. arachidis, while the others are new.•Most of the isolates formed part of new nodA clades (Clades XIV and XV).•Similar groupings were recovered from the nifD genealogy.•Evolution of these rhizobia is subject to environmental factors and host distribution. The genus Bradyrhizobium contains predominantly nitrogen-fixing legume symbionts. Phylogenetic analysis of the genes responsible for their symbiotic abilities (i.e., those encoded on the nodulation [nod] and nitrogen-fixation [nif] loci) has facilitated the development of an extensive phylogeographic framework for the genus. This framework however contains only a few nodulating isolates from Africa. Here we focused on nodulating Bradyrhizobium isolates associated with native southern African legumes in the tribes Genisteae and Crotalarieae found along the Great Escarpment in the Mpumalanga Province of South Africa. The aims of this study were to: (1) obtain rhizobial isolates from legumes in the Genisteae and Crotalarieae; (2) verify their nodulation ability; (3) characterize them to species level based on phylogenetic analyses of several protein coding gene regions (atpD, dnaK, glnII, recA, rpoB and gyrB) and (4) determine their placement in the phylogeographic framework inferred from the sequences of the symbiotic loci nodA and nifD. Twenty of the 21 Bradyrhizobium isolates belonged to six novel species, while one was conspecific with the recently described B. arachidis. Among these isolates, the nodA phylogeny revealed several new clades, with 18 of our isolates found in Clades XIV and XV, and only three forming part of the cosmopolitan Clade III. These strains formed predominantly the same groups in the nifD phylogeny although with slight differences; indicating that both vertical and horizontal inheritance of the symbiotic loci occurred. These findings suggest that the largely unexplored diversity of indigenous African rhizobia are characterized by unique ancestries that might mirror the distribution of their hosts and the environmental factors driving their evolution.
Author Beukes, Chrizelle W.
Steenkamp, Emma T.
Stępkowski, Tomasz
Cłapa, Tomasz
Phalane, Francina L.
Venter, Stephanus N.
le Roux, Marianne M.
Author_xml – sequence: 1
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  fullname: Beukes, Chrizelle W.
  email: chrizelle.beukes@fabi.up.ac.za
  organization: Department of Microbiology and Plant Pathology, Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria, Pretoria 0002, South Africa
– sequence: 2
  givenname: Tomasz
  surname: Stępkowski
  fullname: Stępkowski, Tomasz
  email: sttommic@yahoo.co.uk
  organization: Warsaw Agricultural University, ul. Nowoursynowska 166, 02-787 Warsaw, Poland
– sequence: 3
  givenname: Stephanus N.
  surname: Venter
  fullname: Venter, Stephanus N.
  email: Fanus.venter@up.ac.za
  organization: Department of Microbiology and Plant Pathology, Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria, Pretoria 0002, South Africa
– sequence: 4
  givenname: Tomasz
  surname: Cłapa
  fullname: Cłapa, Tomasz
  email: tom.clapa@gmail.com
  organization: Department of General and Environmental Microbiology, Poznań University of Life Sciences, ul. Szydłowska 50, 60-637 Poznań, Poland
– sequence: 5
  givenname: Francina L.
  surname: Phalane
  fullname: Phalane, Francina L.
  email: PhalaneF@arc.agric.za
  organization: Agricultural Research Council (ARC), Plant Protection Research Institute, Private Bag X134, Queenswood 0121, South Africa
– sequence: 6
  givenname: Marianne M.
  surname: le Roux
  fullname: le Roux, Marianne M.
  email: M.LeRoux@sanbi.org.za
  organization: South African National Biodiversity Institute (SANBI), Pretoria National Botanical Garden, Pretoria 0002, South Africa
– sequence: 7
  givenname: Emma T.
  surname: Steenkamp
  fullname: Steenkamp, Emma T.
  email: Emma.steenkamp@up.ac.za
  organization: Department of Microbiology and Plant Pathology, Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria, Pretoria 0002, South Africa
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Keywords Crotalarieae
Genisteae
nifD
nodA
Phylogeography
Bradyrhizobium
Language English
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Snippet [Display omitted] •Isolated 21 rhizobial isolates, corresponding to seven Bradyrhizobium species.•One of these is conspecific with B. arachidis, while the...
The genus Bradyrhizobium contains predominantly nitrogen-fixing legume symbionts. Phylogenetic analysis of the genes responsible for their symbiotic abilities...
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SubjectTerms Bacteria
Bacterial Proteins - genetics
Bradyrhizobium
Bradyrhizobium - classification
Bradyrhizobium - genetics
Bradyrhizobium - isolation & purification
Crotalarieae
DNA, Bacterial - chemistry
DNA, Bacterial - isolation & purification
DNA, Bacterial - metabolism
environmental factors
Fabaceae - genetics
Fabaceae - microbiology
genes
Genisteae
hosts
legumes
loci
Multilocus Sequence Typing
nifD
Nitrogen Fixation
nodA
nodulation
Phylogeny
Phylogeography
RNA, Ribosomal, 16S - chemistry
RNA, Ribosomal, 16S - isolation & purification
RNA, Ribosomal, 16S - metabolism
Sequence Analysis, DNA
South Africa
symbionts
Symbiosis
Title Crotalarieae and Genisteae of the South African Great Escarpment are nodulated by novel Bradyrhizobium species with unique and diverse symbiotic loci
URI https://dx.doi.org/10.1016/j.ympev.2016.04.011
https://www.ncbi.nlm.nih.gov/pubmed/27068839
https://www.proquest.com/docview/1790455990
https://www.proquest.com/docview/1808639672
https://www.proquest.com/docview/1825426132
Volume 100
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