Symbiosis within Symbiosis: Evolving Nitrogen-Fixing Legume Symbionts

Symbiosis within Symbiosis: Evolving Nitrogen-Fixing Legume Symbionts

Bacterial accessory genes are genomic symbionts with an evolutionary history and future that is different from that of their hosts. Packages of accessory genes move from strain to strain and confer important adaptations, such as interaction with eukaryotes. The ability to fix nitrogen with legumes i...

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Veröffentlicht in:Trends in microbiology (Regular ed.) 2016-01, Vol.24 (1), p.63-75
Hauptverfasser: Remigi, Philippe, Zhu, Jun, Young, J. Peter W, Masson-Boivin, Catherine
Format: Artikel
Sprache:eng
Schlagworte:
Alphaproteobacteria - genetics
Alphaproteobacteria - physiology
Biological Evolution
evolution
Evolution, Molecular
Fabaceae - genetics
Fabaceae - microbiology
Fabaceae - physiology
Genes, Bacterial
horizontal gene transfer
host adaptation
Internal Medicine
Life Sciences
Nitrogen - metabolism
Nitrogen Fixation - physiology
Phylogeny
Rhizobium
Rhizobium - genetics
Rhizobium - physiology
Soil Microbiology
symbiosis
Symbiosis - genetics
Symbiosis - physiology
Vegetal Biology
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Zusammenfassung:Bacterial accessory genes are genomic symbionts with an evolutionary history and future that is different from that of their hosts. Packages of accessory genes move from strain to strain and confer important adaptations, such as interaction with eukaryotes. The ability to fix nitrogen with legumes is a remarkable example of a complex trait spread by horizontal transfer of a few key symbiotic genes, converting soil bacteria into legume symbionts. Rhizobia belong to hundreds of species restricted to a dozen genera of the Alphaproteobacteria and Betaproteobacteria, suggesting infrequent successful transfer between genera but frequent successful transfer within genera. Here we review the genetic and environmental conditions and selective forces that have shaped evolution of this complex symbiotic trait.
ISSN:0966-842X
1878-4380
DOI:10.1016/j.tim.2015.10.007