Comigration of root nodule bacteria and bean plants to new habitats: Coevolution mechanisms and practical importance

Comigration of root nodule bacteria and bean plants to new habitats: Coevolution mechanisms and practical importance

The review summarizes the results of studies on the comigration of tubercular bacteria and bean plants to new habitats, which is often accompanied by a decrease in the symbiosis efficiency due to a loss of the diversity of genes responsible for the interaction. This migration may lead to a rise in n...

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Veröffentlicht in:Applied biochemistry and microbiology 2013-05, Vol.49 (3), p.209-214
Hauptverfasser: Provorov, N. A, Zhukov, V. A, Kurchak, O. N, Onishchuk, O. P, Andronov, E. E, Borisov, A. Yu, Chizhevskaya, E. P, Naumkina, T. S, Ovtsyna, A. O, Vorobyov, N. I, Simarov, B. V, Tikhonovich, I. A
Format: Artikel
Sprache:eng
Schlagworte:
Bacteria
beans
Biochemistry
Biomedical and Life Sciences
coevolution
Evolution & development
genes
Habitats
Host plants
Legumes
Life Sciences
Medical Microbiology
Microbiology
nitrogen
Nitrogen fixation
Soil microorganisms
symbionts
Symbiosis
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Zusammenfassung:The review summarizes the results of studies on the comigration of tubercular bacteria and bean plants to new habitats, which is often accompanied by a decrease in the symbiosis efficiency due to a loss of the diversity of genes responsible for the interaction. This migration may lead to a rise in new symbionts as a result of gene transfers from initial symbionts to local bacteria. It was demonstrated that typically new symbionts lack an ability for N₂ fixation but are highly competitive, blocking the inoculation of bean cultures by industrial strains. The design of coadapted systems of recognition and signal interaction of partners is a perspective approach to ensure competitive advantages of efficient rhizobia strains introduced into agrocenoses, together with host plants, over inactive local strains.
ISSN:0003-6838
1608-3024
DOI:10.1134/S0003683813030149