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Registros recuperados : 80 | |
21. | | MOULIN, L.; JAMES, E. K.; KLONOWSKA, A.; FARIA, S. M. de; SIMON, M. F. Phylogeny, diversity, geographical distribution, and host range of legume-nodulation betaproteobacteria: what is the role of plant taxonomy? In: BRUIJN, F. J. de. Biological nitrogen fixation. New Jersey: Wiley&sons, 2015. p. 177-190 Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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22. | | MOULIN, L.; JAMES, E. K.; KLONOWSKA, A.; FARIA, S. M. de; SIMON, M. F. Phylogeny, diversity, geographical distribution, and host range of legume-nodulation betaproteobacteria: what is the role of plant taxonomy? In: BRUIJN, F. J. de. Biological nitrogen fixation. New Jersey: Wiley&sons, 2015. p. 177-190 Biblioteca(s): Embrapa Agrobiologia. |
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26. | | ANDREWS, M.; DE MEYER, M.; JAMES, E. K.; ST. EPKOWSKI, T.; HODGE, S.; SIMON, M. F.; YOUNG, J. P. W. Horizontal transfer of symbiosis genes within and between rhizobial genera: occurrence and importance. Genes, v. 9, n. 7, article 321, 2018. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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27. | | PIRES, R. de C.; REIS JUNIOR, F. B. dos; ZILLI, J. E.; JAMES, E. K.; SIMON, M. F. Associação simbiótica entre seis espécies do gênero mimosa e bactérias diazotróficas em solos com diferentes características. In: ENCONTRO DE INICIAÇÃO CIENTÍFICA DA EMBRAPA CERRADOS. Jovens talentos 2016: resumos. Planaltina, DF: Embrapa Cerrados, 2016. 99 p. p. 41 (Embrapa Cerrados. Documentos, 334). Comissão organizadora: SOUZA, K. W. de; FALEIRO, A. S. G.; SALGUES, A. L. M.; ALONSO, A. M.; CARVALHO, A. M. de; LOBATO, B. R.; CRUZ, C. V.; SOUSA, E. dos S.; PELEGRINELLI, F.; SOARES, J. P. G.; LIMA, J. E. F. W.; ARBUES, J. F. de O.;... Biblioteca(s): Embrapa Cerrados. |
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28. | | PIRES, R. C.; REIS JUNIOR, F. B. dos; ZILLI, J. E.; JAMES, E. K.; SIMON, M. F. Influência das características do solo na presença de bactérias diazotróficas em simbiose com diferentes espécies de Mimosa In: REUNIÃO LATINOAMERICANA DE RIZOBIOLOGIA, 27., 2016, Londrina. Fortalecendo as parcerias Sul-Sul: anais. Curitiba: SBCS-NEPAR, 2016. 308 p. Editado por Mariangle Hungria, Douglas Fabiano Gomes, Arnaldo Colozzi Filho. RELAR 2016. p.159 Biblioteca(s): Embrapa Agrobiologia. |
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29. | | 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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30. | | CRUZ, L. M. V. da; GOI, S. R.; JAMES, E. K.; PITARD, R. M.; OLIVEIRA, L. D. Nodulação de Mimosa pudica por beta-rizóbio isolados de diferentes ecossistemas no Brasil. In: REUNIÃO BRASILEIRA DE FERTILIDADE DO SOLO E NUTRIÇÃO DE PLANTAS, 28., REUNIÃO BRASILEIRA SOBRE MICORRIZAS, 12., SIMPÓSIO BRASILEIRO DE MICROBIOLOGIA DO SOLO, 10., REUNIÃO BRASILEIRA DE BIOLOGIA DO SOLO, 7., 2008, Londrina. FertBio 2008: desafios para o uso do solo com eficiência e qualidade ambiental: anais. Londrina: Embrapa Soja: SBCS: IAPAR, UEL, 2008. 4 p. 1 CD-ROM. Parceria: UFRRJ.
Organizado por: Adilson de Oliveira Júnior, Regina Maria Villas Bôas de Campos Leite, César de Castro, Fábio Álvares de Oliveira; Odilon Ferreira Saraiva. Biblioteca(s): Embrapa Agrobiologia. |
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31. | | PIRES, R. de C.; REIS JUNIOR, F. B. dos; ZILLI, J. E.; FISCHER, D.; HOFMANN, A.; JAMES, E. K.; SIMON, M. F. Soil characteristics determine the rhizobia in association with different species of Mimosa in central Brazil. Plant Soil, v. 423, n. 1-2, p. 411-428, 2018. Biblioteca(s): Embrapa Agrobiologia; Embrapa Cerrados; Embrapa Recursos Genéticos e Biotecnologia. |
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32. | | VINOGRADOVA, L. V.; HUMPHRY, D. R.; ANDREWS, M.; CUMMINGS, S. P.; JAMES, E. K.; ANESHWAR, P.; PERIN, L.; REIS, V. M.; ZAVALIN, A. A. Taxonomic review and mechanistic analysis of the crop growth promoting effect of Agrobacterium radiobacter strain 204: used as biofertiliser on graminaceous crops in Russia. Aspects of Applied Biology, v. 70, p. 175-182, 2003. Biblioteca(s): Embrapa Agrobiologia. |
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33. | | JAMES, E. K.; ELLIOTT, G. N.; HUGHES, C.; FARIA, S. M. de; CHEN, W. -M.; BONTEMPS, C.; SIMON, M. F.; YOUNG, J. P. W.; SPRENT, J. I. The host ranges of the promiscuous Beta-rhizobia Burkholderia phymatum STM815 and Cupriavidus taiwanensis LMG19424 extend throughout the subfamily Mimosoideae, but only B. phymatum STM815 forms effective symbioses outside the genus Mimosa. In: EUROPEAN NITROGEN FIXATION CONFERENCE, 8th., 2008, Gent, Belgium. Abstracts... Belgium: Universiteit Gent, 2008. p. 98. Resumo PS4-17. Parceria: University of Dundee; University of Oxford; National Kaohsiung Marine University; University of York. Biblioteca(s): Embrapa Agrobiologia. |
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34. | | JAMES, E. K.; OLIVARES, F. L.; OLIVEIRA, A. L. M. de; REIS JÚNIOR, F. B. dos; SILVA, L. G. da; REIS, V. M. Further observations on the interaction between sugar can and Gluconacetobacter diazotrophicus under laboratory and greenhouse conditions. Journal of Experimental Botany, London, v. 52, n. 357, p. 747-760, apr. 2001. Biblioteca(s): Embrapa Agrobiologia. |
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35. | | MALUK, M.; TCHOS, H. A. K.; FARIA, S. M. de; GALIANA, A.; LAJUDIE, P.; TISSEYRE, P.; TEMESGEN, D.; NGONKEU, E.; IANNETTA, P. M.; SPRENT, J.; JAMES, E. K. The caesalpinioid tree Erythrophleum ivorense nodulates with Rhizobium in African and Brazilian soils. In: INTERNATIONAL CONGRESS ON NITROGEN FIXATION, 20., 2017, Granada, Spain. Proceedings... Granada:University of Granada, 2017 p. 87 Biblioteca(s): Embrapa Agrobiologia. |
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36. | | CHEN, W. -M.; FARIA, S. M. de; CHOU, J. -H.; JAMES, E. K.; ELLIOTT, G. N.; SPRENT, J. I.; BONTEMPS, C.; YOUNG, J. P. W.; VANDAMME, P. Burkholderia sabiae sp.nov., isolated from root nodules of Mimosa caesalpiniifolia. International Journal of Systematic and Evolutionary Microbiology, Reading, v. 58, n. 9, p. 2174-2179, set. 2008. Parceria: National Kaohsiung Marine University; National Chung Hsing University; University of Dundee; University of York. Biblioteca(s): Embrapa Agrobiologia. |
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37. | | 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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38. | | BOURNAUD, C.; JAMES, E. K.; FARIA, S. M. de; LEBRUN, M.; MELKONIAN, R.; DUPONNOIS, R.; TISSEYRE, P.; MOULIN, L.; PRIN, Y. Interdependency of efficient nodulation and arbuscular mycorrhization in Piptadenia gonoacantha, a Brazilian legume tree. Plant, Cell and Environment,v. 41, p. 2008-2020, 2017 Biblioteca(s): Embrapa Agrobiologia. |
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39. | | COSTA, E. S. P.; NOVAIS, C. B. de; GOI, S. R.; MARTINS, C. M.; JAMES, E. K.; BARAÚNA A.; REIS, V. M.; ROUWS, L. F. M. Leguminosas arbóreas associadas a bactérias fixadoras de nitrogênio: seria essa uma estratégia para o estabelecimento em áreas da Caatinga? In: REUNIÃO BRASILEIRA DE FERTILIDADE DO SOLO E NUTRIÇÃO DE PLANTAS, 31.; REUNIÃO BRASILEIRA SOBRE MICORRIZAS, 15.; SIMPÓSIO BRASILEIRO DE MICROBIOLOGIA DO SOLO, 13.; REUNIÃO BRASILEIRA DE BIOLOGIA DO SOLO, 10., 2014, Araxá. Fertilidade e biologia do solo: integração e tecnologias para todos: anais. Araxá: Núcleo Regional Leste da Sociedade Brasileira de Ciência do Solo, 2014. FertBio 2014. Biblioteca(s): Embrapa Agrobiologia. |
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40. | | 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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Registros recuperados : 80 | |
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Registro Completo
Biblioteca(s): |
Embrapa Agrobiologia. |
Data corrente: |
21/06/2001 |
Data da última atualização: |
21/06/2001 |
Autoria: |
JAMES, E. K.; OLIVARES, F. L.; OLIVEIRA, A. L. M. de; REIS JÚNIOR, F. B. dos; SILVA, L. G. da; REIS, V. M. |
Título: |
Further observations on the interaction between sugar can and Gluconacetobacter diazotrophicus under laboratory and greenhouse conditions. |
Ano de publicação: |
2001 |
Fonte/Imprenta: |
Journal of Experimental Botany, London, v. 52, n. 357, p. 747-760, apr. 2001. |
Idioma: |
Inglês |
Conteúdo: |
Sugar cane (Saccharum spp.) variety SP 70-1143 was inoculated with Gluconacetobacter diazotrophicus strain PAL5 (ATCC 49037) in two experiments. In experiment 1 the bacteria were inoculated into a modified, low sucrose MS medium within which micropropagated plantlets were rooted. After 10 d there was extensive anatomical evidence of endophytic colonization by G. diazotrophicus, particularly in lower stems, where high numbers of bacteria were visible within some of the xylem vessels. The identity of the bacteria was confirmed by immunogold label- ling with an antibody raised against G. diazotrophicus. On the lower stems there were breaks caused by the separation of the plantlets into individuais, and at these "wounds' bacteria were seen colonizing the xylem and intercellular spaces. Bacteria were also occasionally seen entering leaves via damaged stomata, and subsequently colonizing sub-stomatal cavities and intercellular spaces. A localized host defence response in the form of fibrillar material surrounding the bacteria was associated with both the stem and leaf invasion. In experiment 2, stems of 5-week-old greenhouse-grown plants were inoculated by injection with a suspension of G. diazotrophicus containing 108 bacteria ml-1. No hypersensitive response (HR) was observed, and no symptoms were visible on the leaves and stems for the duration of the experiment (7 d). Close to the point of inoculation, G. diazotrophicus cells were observed within the protoxylem and the xylem parenchyma, where they were surrounded by fibrillar material that stained light-green with toluidine blue. In leaf samples taken up to 4 cm from the inoculation points, G. diazotrophicus cells were mainly found within the metaxylem, where they were surrounded by a light green-staining material. The bacteria were growing in relatively low numbers adjacent to the xylem cell walls, and they were separated from the host-derived material by electron-transparent 'haloes' that contained material that reacted with the G. diazotrophicus antibody. MenosSugar cane (Saccharum spp.) variety SP 70-1143 was inoculated with Gluconacetobacter diazotrophicus strain PAL5 (ATCC 49037) in two experiments. In experiment 1 the bacteria were inoculated into a modified, low sucrose MS medium within which micropropagated plantlets were rooted. After 10 d there was extensive anatomical evidence of endophytic colonization by G. diazotrophicus, particularly in lower stems, where high numbers of bacteria were visible within some of the xylem vessels. The identity of the bacteria was confirmed by immunogold label- ling with an antibody raised against G. diazotrophicus. On the lower stems there were breaks caused by the separation of the plantlets into individuais, and at these "wounds' bacteria were seen colonizing the xylem and intercellular spaces. Bacteria were also occasionally seen entering leaves via damaged stomata, and subsequently colonizing sub-stomatal cavities and intercellular spaces. A localized host defence response in the form of fibrillar material surrounding the bacteria was associated with both the stem and leaf invasion. In experiment 2, stems of 5-week-old greenhouse-grown plants were inoculated by injection with a suspension of G. diazotrophicus containing 108 bacteria ml-1. No hypersensitive response (HR) was observed, and no symptoms were visible on the leaves and stems for the duration of the experiment (7 d). Close to the point of inoculation, G. diazotrophicus cells were observed within the protoxylem and the xylem p... Mostrar Tudo |
Palavras-Chave: |
Bactéria endofítica; Biological nitrogen fixation; BNF; Cana-de-açúcar; Casa de vegetação; Endophytic bacteria; FBN; Fixação bológica de nitrogênio; Greenhouse; Saccharum spp. |
Thesaurus NAL: |
Gluconacetobacter diazotrophicus; sugarcane. |
Categoria do assunto: |
-- |
Marc: |
LEADER 03060naa a2200325 a 4500 001 1598609 005 2001-06-21 008 2001 bl --- 0-- u #d 100 1 $aJAMES, E. K. 245 $aFurther observations on the interaction between sugar can and Gluconacetobacter diazotrophicus under laboratory and greenhouse conditions. 260 $c2001 520 $aSugar cane (Saccharum spp.) variety SP 70-1143 was inoculated with Gluconacetobacter diazotrophicus strain PAL5 (ATCC 49037) in two experiments. In experiment 1 the bacteria were inoculated into a modified, low sucrose MS medium within which micropropagated plantlets were rooted. After 10 d there was extensive anatomical evidence of endophytic colonization by G. diazotrophicus, particularly in lower stems, where high numbers of bacteria were visible within some of the xylem vessels. The identity of the bacteria was confirmed by immunogold label- ling with an antibody raised against G. diazotrophicus. On the lower stems there were breaks caused by the separation of the plantlets into individuais, and at these "wounds' bacteria were seen colonizing the xylem and intercellular spaces. Bacteria were also occasionally seen entering leaves via damaged stomata, and subsequently colonizing sub-stomatal cavities and intercellular spaces. A localized host defence response in the form of fibrillar material surrounding the bacteria was associated with both the stem and leaf invasion. In experiment 2, stems of 5-week-old greenhouse-grown plants were inoculated by injection with a suspension of G. diazotrophicus containing 108 bacteria ml-1. No hypersensitive response (HR) was observed, and no symptoms were visible on the leaves and stems for the duration of the experiment (7 d). Close to the point of inoculation, G. diazotrophicus cells were observed within the protoxylem and the xylem parenchyma, where they were surrounded by fibrillar material that stained light-green with toluidine blue. In leaf samples taken up to 4 cm from the inoculation points, G. diazotrophicus cells were mainly found within the metaxylem, where they were surrounded by a light green-staining material. The bacteria were growing in relatively low numbers adjacent to the xylem cell walls, and they were separated from the host-derived material by electron-transparent 'haloes' that contained material that reacted with the G. diazotrophicus antibody. 650 $aGluconacetobacter diazotrophicus 650 $asugarcane 653 $aBactéria endofítica 653 $aBiological nitrogen fixation 653 $aBNF 653 $aCana-de-açúcar 653 $aCasa de vegetação 653 $aEndophytic bacteria 653 $aFBN 653 $aFixação bológica de nitrogênio 653 $aGreenhouse 653 $aSaccharum spp 700 1 $aOLIVARES, F. L. 700 1 $aOLIVEIRA, A. L. M. de 700 1 $aREIS JÚNIOR, F. B. dos 700 1 $aSILVA, L. G. da 700 1 $aREIS, V. M. 773 $tJournal of Experimental Botany, London$gv. 52, n. 357, p. 747-760, apr. 2001.
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