The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress
Abstract Lupinus albescens is a resistant cover plant that establishes symbiotic relationships with bacteria belonging to the Bradyrhizobium genus. This symbiosis helps the development of these plants in adverse environmental conditions, such as the ones found in arenized areas of Southern Brazil. T...
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Sociedade Brasileira de Genética
2018-05-01
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| Series: | Genetics and Molecular Biology |
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doaj-b5592a2c607544e7886734e91010cbc32020-11-25T02:16:43ZengSociedade Brasileira de GenéticaGenetics and Molecular Biology1678-46852018-05-01010.1590/1678-4685-gmb-2017-0098S1415-47572018005008101The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stressCamille E. GranadaLuciano K. VargasFernando Hayashi Sant’AnnaEduardo BalsanelliValter Antonio de BauraFábio de Oliveira PedrosaEmanuel Maltempi de SouzaTiago FalconLuciane M.P. PassagliaAbstract Lupinus albescens is a resistant cover plant that establishes symbiotic relationships with bacteria belonging to the Bradyrhizobium genus. This symbiosis helps the development of these plants in adverse environmental conditions, such as the ones found in arenized areas of Southern Brazil. This work studied three Bradyrhizobium sp. (AS23, NAS80 and NAS96) isolated from L. albescens plants that grow in extremely poor soils (arenized areas and adjacent grasslands). The genomes of these three strains were sequenced in the Ion Torrent platform using the IonXpress library preparation kit, and presented a total number of bases of 1,230,460,823 for AS23, 1,320,104,022 for NAS80, and 1,236,105,093 for NAS96. The genome comparison with closest strains Bradyrhizobium japonicum USDA6 and Bradyrhizobium diazoefficiens USDA110 showed important variable regions (with less than 80% of similarity). Genes encoding for factors for resistance/tolerance to heavy metal, flagellar motility, response to osmotic and oxidative stresses, heat shock proteins (present only in the three sequenced genomes) could be responsible for the ability of these microorganisms to survive in inhospitable environments. Knowledge about these genomes will provide a foundation for future development of an inoculant bioproduct that should optimize the recovery of degraded soils using cover crops.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1415-47572018005008101&lng=en&tlng=enBradyrhizobium sp.arenized areaspoor soilsresistant bacteria |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Camille E. Granada Luciano K. Vargas Fernando Hayashi Sant’Anna Eduardo Balsanelli Valter Antonio de Baura Fábio de Oliveira Pedrosa Emanuel Maltempi de Souza Tiago Falcon Luciane M.P. Passaglia |
| spellingShingle |
Camille E. Granada Luciano K. Vargas Fernando Hayashi Sant’Anna Eduardo Balsanelli Valter Antonio de Baura Fábio de Oliveira Pedrosa Emanuel Maltempi de Souza Tiago Falcon Luciane M.P. Passaglia The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress Genetics and Molecular Biology Bradyrhizobium sp. arenized areas poor soils resistant bacteria |
| author_facet |
Camille E. Granada Luciano K. Vargas Fernando Hayashi Sant’Anna Eduardo Balsanelli Valter Antonio de Baura Fábio de Oliveira Pedrosa Emanuel Maltempi de Souza Tiago Falcon Luciane M.P. Passaglia |
| author_sort |
Camille E. Granada |
| title |
The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress |
| title_short |
The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress |
| title_full |
The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress |
| title_fullStr |
The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress |
| title_full_unstemmed |
The genomes of three Bradyrhizobium sp. isolated from root nodules of Lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress |
| title_sort |
genomes of three bradyrhizobium sp. isolated from root nodules of lupinus albescens grown in extremely poor soils display important genes for resistance to environmental stress |
| publisher |
Sociedade Brasileira de Genética |
| series |
Genetics and Molecular Biology |
| issn |
1678-4685 |
| publishDate |
2018-05-01 |
| description |
Abstract Lupinus albescens is a resistant cover plant that establishes symbiotic relationships with bacteria belonging to the Bradyrhizobium genus. This symbiosis helps the development of these plants in adverse environmental conditions, such as the ones found in arenized areas of Southern Brazil. This work studied three Bradyrhizobium sp. (AS23, NAS80 and NAS96) isolated from L. albescens plants that grow in extremely poor soils (arenized areas and adjacent grasslands). The genomes of these three strains were sequenced in the Ion Torrent platform using the IonXpress library preparation kit, and presented a total number of bases of 1,230,460,823 for AS23, 1,320,104,022 for NAS80, and 1,236,105,093 for NAS96. The genome comparison with closest strains Bradyrhizobium japonicum USDA6 and Bradyrhizobium diazoefficiens USDA110 showed important variable regions (with less than 80% of similarity). Genes encoding for factors for resistance/tolerance to heavy metal, flagellar motility, response to osmotic and oxidative stresses, heat shock proteins (present only in the three sequenced genomes) could be responsible for the ability of these microorganisms to survive in inhospitable environments. Knowledge about these genomes will provide a foundation for future development of an inoculant bioproduct that should optimize the recovery of degraded soils using cover crops. |
| topic |
Bradyrhizobium sp. arenized areas poor soils resistant bacteria |
| url |
http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1415-47572018005008101&lng=en&tlng=en |
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