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Registros recuperados : 32 | |
4. | | BORGES, M. V.; ALVES, M. F.; CHAVES, M. A.; EGITO, A. S. do; GROSS, E.; FERRÃO, S. P. B. Chemical, structural and proteomic profile of buffalo milk powder produced in mini spray dryer. Revista Mexicana de Ingeniería Química, v. 16, n. 1, p. 67-76, 2017. [ANTONIO SILVIO DO EGITO VASCONCELOS]. Biblioteca(s): Embrapa Caprinos e Ovinos. |
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5. | | BOURNAUD, C.; SANTOS, M.; TISSEYRE, P.; SILVA, M.; FARIA, S. M. de; GROSS, E.; JAMES, E.; PRIN, Y.; MOULIN, L. Symbiotic associations with beta-rhizobia are deep-rroted within the tribe mimoseae. EUROPEAN NITROGEN FIXATION CONFERENCE, 10., 2012, Munich. Abstract.... Munich: German Research Center for Environmental Health, 2012. 72 p. PP3-7 Biblioteca(s): Embrapa Agrobiologia. |
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6. | | RIBEIRO, D. O.; BARBOSA, A. C.; SANTANA, T. R.; SANTOS, A. C. A. da S.; GROSS, E.; NOGUEIRA, L. C. Biomassa do feijão-de-porco (Canavalia ensiformes L.) em área de gindiroba (Fevillea trilobata L.) na baixada litorânea de Sergipe. IN: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA, 15.; SEMANA DE PESQUISA E PÓS-GRADUAÇÃO, 10., 2009, ILHÉUS. Produção, inovação e difusão de conhecimento: anais. Ilhéus: UESC, 2009. 1 CD-ROM. Resumo em anais. Biblioteca(s): Embrapa Tabuleiros Costeiros. |
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7. | | RIBEIRO, D. O.; BARBOSA, A. C.; SANTANA, T. R.; SANTOS, A. C. A. da S.; GROSS, E.; NOGUEIRA, L. C. Fitomassa de plantas espontâneas em área de gindiroba (Fevillea trilobata L.) consorciada com feijão-de-porco com e sem cobertura morta. IN: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA, 15.; SEMANA DE PESQUISA E PÓS-GRADUAÇÃO, 10., 2009, ILHÉUS. Produção, inovação e difusão de conhecimento: anais. Ilhéus: UESC, 2009. 1 CD-ROM. Resumo em anais. Biblioteca(s): Embrapa Tabuleiros Costeiros. |
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8. | | ANDREWS, M.; JAMES, E. K.; SPRENT, J. I.; BODDEY, R. M.; GROSS, E.; REIS JUNIOR, F. B. dos. Nitrogen fixation in legumes and actinorhizal plants in natural ecosystems: values obtained using ¹5N natural abundance. Plant ecology & Diversity, v. 4, n. 2-3, p. 131-140, june-sept., 2011. Biblioteca(s): Embrapa Cerrados. |
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9. | | BOURNAUD, C.; FARIA, S. M. de; SANTOS, M.; TISSEYRE, P.; SILVA, M. A. P. da; CHAINTREUIL, C.; GROSS, E.; JAMES, E.; PRIN, Y.; MOULIN, L. Burkholderia são simbiontes comuns e favoritos do grupo Piptadenia (tribo Mimoseae). Embrapa Agrobiologia, 2012 (Embrapa Agrobiologia. Boletim de Pesquisa e Desenvolvimento, 93). Biblioteca(s): Embrapa Agrobiologia. |
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10. | | BOURNAUD, C.; FARIA, S. M. de; SANTOS, J. M. F. dos; TISSEYRE, P.; SILVA, M.; CHANITREUIL, C.; GROSS, E.; JAMES, E. K.; PRIN, Y.; MOULIN, L. Burkholderia species are the most common and preferred nodulating symbionts of the Piptadenia group (Tribe mimoseae). Plos One, v. 8, n, 5, p. 1-10, may, 2013. Biblioteca(s): Embrapa Agrobiologia. |
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11. | | DIAS, C. B.; GROSS, E.; PAIVA, A. de Q.; SOUZA, LUCIANO DA SILVA; LEDO, C. A. da S.; XAVIER, F. A. da S. Effect of cultivation and soil tillage systems on the microbial biomass in castor bean crop at the Irecê Plateau, Bahia. Journal of Agricultural Science, v. 11, n. 4, 2019. Biblioteca(s): Embrapa Mandioca e Fruticultura. |
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12. | | RHEM, M. F. K.; SILVA, V. C.; SANTOS, J. M. F. dos; ZILLI, J. E.; JAMES, E. K.; SIMON, M. F.; GROSS, E. The large mimosoid genus Inga Mill. (tribe Ingeae, Caesalpinioideae) is nodulated by diverse Bradyrhizobium strains in its main centers of diversity in Brazil Systematic and Applied Microbiology, v. 44, n. 6, 126268, November 2021. Biblioteca(s): Embrapa Agrobiologia; Embrapa Recursos Genéticos e Biotecnologia. |
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13. | | REIS JUNIOR, F. B. dos; SHEU, S. Y.; CHOU, J. H.; BONTEMPS, C.; ELLIOTT, G. N.; GROSS, E.; MELKONIAN, R.; MOULIN, L.; JAMES, E. K.; SPRENT, J. I.; YOUNG, J. P. W.; CHEN, W. M. Burkholderia diazotrophica sp. nov., isolated from root nodules of Mimosa spp. International Journal of Systematic and Evolutionary Microbiology, v. 63, p. 435-441, 2013. p. 435-441 Biblioteca(s): Embrapa Cerrados. |
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14. | | BONTEMPS, C.; ELLIOTT, G. N.; SIMON, M. F.; REIS JUNIOR, F. B. dos; GROSS, E.; LAWTON, R. C.; ELIAS NETO, N.; LOUREIRO, M. de F.; FARIA, S. M. de; SPRENTE, J. I.; JAMES, E. K.; YOUNG, P. W. Burkholderia species are ancient symbionts of legumes. Molecular Ecology, v. 19, n. 1, p. 44-52, 2010 Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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15. | | RIBEIRO, D. O.; DANTAS, P. A. S.; SANTOS, A. C. A. da S.; COSTA, A. S. da; GOMES JUNIOR, G. A.; LIMA, M. A. de; GROSS, E.; NOGUEIRA, L. C. Efeito da adubação mineral e do inoculante na produção de fitomassa e de nitrogênio em parte aérea de feijão-de-porco em área de gindiroba. In: REUNIÃO NORDESTINA DE BOTÂNICA, 33., 2010, Aracaju. Flora nordestina: diversidade, conhecimento e conservação: anais. Aracaju: SBB: Embrapa Tabuleiros Costeiros, 2010. 1 CD-ROM. Resumo em anais. Biblioteca(s): Embrapa Tabuleiros Costeiros. |
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16. | | SILVA, C. G. N. da; LAMMEL, D.; MOREIRA, F. S.; SILVA. L. C.; GROSS, E.; ZILLI, J. E.; ROUWS, L. F. M.; REIS, V. M.; REIS JUNIOR, F. B. dos; SIMON, M. F.; JAMES, E. K.; CRUZ, L. M. Diversity of symbiotic beta-rhizobia nodulating mimosa species in different brazilian biomes. In: INTERNATIONAL LEGUME CONFERENCE, 8., 2023, Pirenópolis. Integrating knowledge on the legume family: [abstracts]. Pirenópolis: [s.n.], 2023. Biblioteca(s): Embrapa Agrobiologia. |
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17. | | SILVA, R. S. da; LAMMEL, D. R.; MOREIRA, F. S.; SILVA, L. C.; GROSS, E.; ZILLI, J. E.; ROUWS, L. F. M.; REIS, V. M.; REIS JUNIOR, F. B. dos; SIMON, M. F.; JAMES, E. K.; CRUZ, L. M. Diversity of symbiotic beta-rhizobia nodulating Mimosa species in different Brazilian biomes. In: INTERNATIONAL LEGUME CONFERENCE, 8., 2023, Pirenópolis. Integrating knowledge on the legume family: [abstracts]. Pirenópolis: [s.n.], 2023. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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18. | | RIBEIRO, D. O.; SANTOS, A. C. A. da S.; COSTA, A. S. da; DANTAS, P. A. de S.; GOMES JUNIOR, G. A.; LIMA, M. A. de; GROSS, E.; NOGUEIRA, L. C. Aporte de biomassa e nitrogênio total de parte aérea de três espécies de leguminosa para adubo verde em área de gindiroba. In: REUNIÃO NORDESTINA DE BOTÂNICA, 33., 2010, Aracaju. Flora nordestina: diversidade, conhecimento e conservação: anais. Aracaju: SBB: Embrapa Tabuleiros Costeiros, 2010. 1 CD-ROM. Resumo em anais. Biblioteca(s): Embrapa Tabuleiros Costeiros. |
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19. | | SANTOS, A. B. dos; REIS JÚNIOR, F. B. dos; LOPES, A. C.; MENDES, I. C.; SIMON, M. F.; FARIA, S. M. de; LOUREIRO, M. F.; GROSS, E.; ELLIOTT, G. N.; BONTEMPS, C. Avaliação da capacidade simbiótica de estirpes de "beta-rizóbios" isoladas de nódulos de diferentes espécies de Mimosa. In: SIMPÓSIO NACIONAL CERRADO, 9.; SIMPÓSIO INTERNACIONAL SAVANAS TROPICAIS, 2., 2008, Brasília, DF. Desafios e estratégias para o equilíbrio entre sociedade, agronegócio e recursos naturais: anais... Planaltina, DF: Embrapa Cerrados, 2008. 1 CD-ROM. Biblioteca(s): Embrapa Cerrados. |
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20. | | GYANESHWAR, P.; HIRSCH, A. M.; MOULIN, L.; CHEN, W.-M.; ELLIOTT, G. N.; BONTEMPS, C.; SANTOS, P. E.; GROSS, E.; REIS JUNIOR, F. B. dos; SPRENT, J. L.; YOUNG, J. P. W.; JAMES, E. K. Legume-nodulating betaproteoacteria: diversity, host range, and future prospects. Molecular Plant-microbe Interactions, v. 24, n. 11, p. 1276-1288, 2011. Biblioteca(s): Embrapa Cerrados. |
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Registros recuperados : 32 | |
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Registro Completo
Biblioteca(s): |
Embrapa Cerrados. |
Data corrente: |
27/09/2018 |
Data da última atualização: |
21/11/2018 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 2 |
Autoria: |
ESTRADA DE LOS DANTOS, P.; PALMER, M.; CHAVEZ-RAMIREZ, B.; BEUKES, C.; STEENKAMP, E. T.; BRISCOE, L.; KHAN, N.; MALUK, M.; LAFOS, M.; HUMM, E.; ARRABIT, M.; CROOK, M.; GROSS, E.; SIMON, M. F.; REIS JUNIOR, F. B. dos; WHITMAN, W. B.; SHAPIRO, N.; POOLE, P. S.; HIRSCH, A. M.; VENTER, S. N.; JAMES, E. K. |
Afiliação: |
Paulina Estrada-de los Santos, Instituto Politécnico Nacional, Escuela Nacional de Ciencias Biológica; Marike Palmer, University of Pretoria; Belén Chávez-Ramírez, Instituto Politécnico Nacional, Escuela Nacional de Ciencias Biológicas; Chrizelle Beukes, University of Pretoria; Emma T. Steenkamp, University of Pretoria; Leah Briscoe, University of California; Noor Khan, University of California; Marta Maluk, The James Hutton Institute; Marcel Lafos, The James Hutton Institute; Ethan Humm, University of California; Monique Arrabit, University of California; Matthew Crook, Weber State University; Eduardo Gross, Santa Cruz State University; MARCELO FRAGOMENI SIMON, Cenargen; FABIO BUENO DOS REIS JUNIOR, CPAC; William B. Whitman, University of Georgia; Nicole Shapiro, Walnut Creek; Philip S. Poole, University of Oxford; Ann M. Hirsch, University of California; Stephanus N. Venter, University of Pretoria; Euan K. James, The James Hutton Institute. |
Título: |
Whole genome analyses suggests that Burkholderiasensu lato contains two additional novel genera (Mycetohabitans gen. nov., and Trinickia gen. nov.): implications for the evolution of diazotrophy and nodulation in the Burkholderiaceae. |
Ano de publicação: |
2018 |
Fonte/Imprenta: |
Genes, v. 9, n. 8, article 389, 2018. |
DOI: |
https://doi.org/10.3390/genes9080389 |
Idioma: |
Inglês |
Conteúdo: |
Burkholderia sensu lato is a large and complex group, containing pathogenic, phytopathogenic, symbiotic and non-symbiotic strains from a very wide range of environmental (soil, water, plants, fungi) and clinical (animal, human) habitats. Its taxonomy has been evaluated several times through the analysis of 16S rRNA sequences, concantenated 4?7 housekeeping gene sequences, and lately by genome sequences. Currently, the division of this group into Burkholderia, Caballeronia, Paraburkholderia, and Robbsia is strongly supported by genome analysis. These new genera broadly correspond to the various habitats/lifestyles of Burkholderia s.l., e.g., all the plant beneficial and environmental (PBE) strains are included in Paraburkholderia (which also includes all the N2-fixing legume symbionts) and Caballeronia, while most of the human and animal pathogens are retained in Burkholderia sensu stricto. However, none of these genera can accommodate two important groups of species. One of these includes the closely related Paraburkholderia rhizoxinica and Paraburkholderia endofungorum, which are both symbionts of the fungal phytopathogen Rhizopus microsporus. The second group comprises the Mimosa-nodulating bacterium Paraburkholderia symbiotica, the phytopathogen Paraburkholderia caryophylli, and the soil bacteria Burkholderia dabaoshanensis and Paraburkholderia soli. In order to clarify their positions within Burkholderia sensu lato, a phylogenomic approach based on a maximum likelihood analysis of conserved genes from more than 100 Burkholderia sensu lato species was carried out. Additionally, the average nucleotide identity (ANI) and amino acid identity (AAI) were calculated. The data strongly supported the existence of two distinct and unique clades, which in fact sustain the description of two novel genera Mycetohabitans gen. nov. and Trinickia gen. nov. The newly proposed combinations are Mycetohabitans endofungorum comb. nov., Mycetohabitansrhizoxinica comb. nov., Trinickia caryophylli comb. nov., Trinickiadabaoshanensis comb. nov., Trinickia soli comb. nov., and Trinickiasymbiotica comb. nov. Given that the division between the genera that comprise Burkholderia s.l. in terms of their lifestyles is often complex, differential characteristics of the genomes of these new combinations were investigated. In addition, two important lifestyle-determining traits?diazotrophy and/or symbiotic nodulation, and pathogenesis?were analyzed in depth i.e., the phylogenetic positions of nitrogen fixation and nodulation genes in Trinickia via-à-vis other Burkholderiaceae were determined, and the possibility of pathogenesis in Mycetohabitans and Trinickia was tested by performing infection experiments on plants and the nematode Caenorhabditis elegans. It is concluded that (1) T. symbiotica nif and nod genes fit within the wider Mimosa-nodulating Burkholderiaceae but appear in separate clades and that T. caryophyllinif genes are basal to the free-living Burkholderia s.l. strains, while with regard to pathogenesis (2) none of the Mycetohabitans and Trinickia strains tested are likely to be pathogenic, except for the known phytopathogen T. caryophylli. MenosBurkholderia sensu lato is a large and complex group, containing pathogenic, phytopathogenic, symbiotic and non-symbiotic strains from a very wide range of environmental (soil, water, plants, fungi) and clinical (animal, human) habitats. Its taxonomy has been evaluated several times through the analysis of 16S rRNA sequences, concantenated 4?7 housekeeping gene sequences, and lately by genome sequences. Currently, the division of this group into Burkholderia, Caballeronia, Paraburkholderia, and Robbsia is strongly supported by genome analysis. These new genera broadly correspond to the various habitats/lifestyles of Burkholderia s.l., e.g., all the plant beneficial and environmental (PBE) strains are included in Paraburkholderia (which also includes all the N2-fixing legume symbionts) and Caballeronia, while most of the human and animal pathogens are retained in Burkholderia sensu stricto. However, none of these genera can accommodate two important groups of species. One of these includes the closely related Paraburkholderia rhizoxinica and Paraburkholderia endofungorum, which are both symbionts of the fungal phytopathogen Rhizopus microsporus. The second group comprises the Mimosa-nodulating bacterium Paraburkholderia symbiotica, the phytopathogen Paraburkholderia caryophylli, and the soil bacteria Burkholderia dabaoshanensis and Paraburkholderia soli. In order to clarify their positions within Burkholderia sensu lato, a phylogenomic approach based on a maximum likelihood a... Mostrar Tudo |
Palavras-Chave: |
Genes conservados. |
Thesagro: |
Análise Comparativa; Filogenia; Genoma. |
Thesaurus NAL: |
Burkholderiaceae. |
Categoria do assunto: |
V Taxonomia de Organismos |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/183636/1/Whole-Genome-Analyses-Suggests-that-Burkholderia-sensu-lato-Contains-Two-Additional-Novel-Genera-apagar.pdf
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Marc: |
LEADER 04499naa a2200433 a 4500 001 2096511 005 2018-11-21 008 2018 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.3390/genes9080389$2DOI 100 1 $aESTRADA DE LOS DANTOS, P. 245 $aWhole genome analyses suggests that Burkholderiasensu lato contains two additional novel genera (Mycetohabitans gen. nov., and Trinickia gen. nov.)$bimplications for the evolution of diazotrophy and nodulation in the Burkholderiaceae.$h[electronic resource] 260 $c2018 520 $aBurkholderia sensu lato is a large and complex group, containing pathogenic, phytopathogenic, symbiotic and non-symbiotic strains from a very wide range of environmental (soil, water, plants, fungi) and clinical (animal, human) habitats. Its taxonomy has been evaluated several times through the analysis of 16S rRNA sequences, concantenated 4?7 housekeeping gene sequences, and lately by genome sequences. Currently, the division of this group into Burkholderia, Caballeronia, Paraburkholderia, and Robbsia is strongly supported by genome analysis. These new genera broadly correspond to the various habitats/lifestyles of Burkholderia s.l., e.g., all the plant beneficial and environmental (PBE) strains are included in Paraburkholderia (which also includes all the N2-fixing legume symbionts) and Caballeronia, while most of the human and animal pathogens are retained in Burkholderia sensu stricto. However, none of these genera can accommodate two important groups of species. One of these includes the closely related Paraburkholderia rhizoxinica and Paraburkholderia endofungorum, which are both symbionts of the fungal phytopathogen Rhizopus microsporus. The second group comprises the Mimosa-nodulating bacterium Paraburkholderia symbiotica, the phytopathogen Paraburkholderia caryophylli, and the soil bacteria Burkholderia dabaoshanensis and Paraburkholderia soli. In order to clarify their positions within Burkholderia sensu lato, a phylogenomic approach based on a maximum likelihood analysis of conserved genes from more than 100 Burkholderia sensu lato species was carried out. Additionally, the average nucleotide identity (ANI) and amino acid identity (AAI) were calculated. The data strongly supported the existence of two distinct and unique clades, which in fact sustain the description of two novel genera Mycetohabitans gen. nov. and Trinickia gen. nov. The newly proposed combinations are Mycetohabitans endofungorum comb. nov., Mycetohabitansrhizoxinica comb. nov., Trinickia caryophylli comb. nov., Trinickiadabaoshanensis comb. nov., Trinickia soli comb. nov., and Trinickiasymbiotica comb. nov. Given that the division between the genera that comprise Burkholderia s.l. in terms of their lifestyles is often complex, differential characteristics of the genomes of these new combinations were investigated. In addition, two important lifestyle-determining traits?diazotrophy and/or symbiotic nodulation, and pathogenesis?were analyzed in depth i.e., the phylogenetic positions of nitrogen fixation and nodulation genes in Trinickia via-à-vis other Burkholderiaceae were determined, and the possibility of pathogenesis in Mycetohabitans and Trinickia was tested by performing infection experiments on plants and the nematode Caenorhabditis elegans. It is concluded that (1) T. symbiotica nif and nod genes fit within the wider Mimosa-nodulating Burkholderiaceae but appear in separate clades and that T. caryophyllinif genes are basal to the free-living Burkholderia s.l. strains, while with regard to pathogenesis (2) none of the Mycetohabitans and Trinickia strains tested are likely to be pathogenic, except for the known phytopathogen T. caryophylli. 650 $aBurkholderiaceae 650 $aAnálise Comparativa 650 $aFilogenia 650 $aGenoma 653 $aGenes conservados 700 1 $aPALMER, M. 700 1 $aCHAVEZ-RAMIREZ, B. 700 1 $aBEUKES, C. 700 1 $aSTEENKAMP, E. T. 700 1 $aBRISCOE, L. 700 1 $aKHAN, N. 700 1 $aMALUK, M. 700 1 $aLAFOS, M. 700 1 $aHUMM, E. 700 1 $aARRABIT, M. 700 1 $aCROOK, M. 700 1 $aGROSS, E. 700 1 $aSIMON, M. F. 700 1 $aREIS JUNIOR, F. B. dos 700 1 $aWHITMAN, W. B. 700 1 $aSHAPIRO, N. 700 1 $aPOOLE, P. S. 700 1 $aHIRSCH, A. M. 700 1 $aVENTER, S. N. 700 1 $aJAMES, E. K. 773 $tGenes$gv. 9, n. 8, article 389, 2018.
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