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41. | | KRAUSE-SAKATE, R.; RICHARD-FORGET, F.; REDONDO, E.; PAVAN, M. A.; ZERBINI, F. M.; CANDRESSE, T.; LE GALL, O. Quantitative control of Lettuce mosaic virus fitness and host defence inhibition by P1-HCPro. Summa Phytopathologica, Botucatu, v. 33, n. 2, p. 119-123, Apr./June 2007. Biblioteca(s): Embrapa Agricultura Digital. |
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42. | | KRAUSE-SAKATE, R.; RICHARD-FORGET, F.; REDONDO, E.; PAVAN, M. A.; ZERBINI, F. M.; CANDRESSE, T.; GALL, O. L. Quantitative control of Lettuce mosaic virus fitness and host defence inhibition by P1-HCPro. Summa Phytopathologica, Botucatu, v. 33, n. 2, p. 119-123, Abr./ Jun. 2007. Biblioteca(s): Embrapa Hortaliças. |
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44. | | ANDRADE, E. C.; LOPS, E. F.; ALFENAS, P. F.; FONTES, E. P. B.; RIBEIRO, S. G.; ZERBINI, F. M. Pseudorecombination between begomoviruses from tomato and Sida sp. INTERNATIONAL GERMINIVIRUS SYMPOSIUM, 4.; INTERNATIONAL SSDNA COMPARATIVE VIROLOGY WORKSHOP, 2., 2004, Cape Town, Programme & abstracts... Cape Town: University of Cape Town Graduate School of Business, 2004. p. 123 Biblioteca(s): Embrapa Hortaliças. |
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45. | | CALEGARIO, R. F.; AMBROZEVICIUS, L. P.; SILVEIRA, S. F.; RODRIGUES, I. L.; ZAMBOLIM, E. M.; ZERBINI, F. M. Survey of tomato geminivirus in Rio de Janeiro State Brazil. Fitopatologia Brasileira, Brasilia, v.25, p.438, ago. 2000. Suplemento. Resumo. Biblioteca(s): Embrapa Hortaliças. |
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46. | | COTRIM, M. A. A.; SAKATE, R. K.; NARITA, N.; PAVAN, M. A.; CEZAR, M. A.; ZERBINI, F. M. Tomate infectado por Tomato severe rugase virus (ToSRV) no Estado de São Paulo.. Summa Phytopathologica, Botucatu, v. 30, n. 1, p. 100, jan./mar. 2004. Resumo. Trabalho apresentado no 27º Congresso Paulista de Fitopatologia, 2003, Botucatu. Biblioteca(s): Embrapa Hortaliças. |
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47. | | RIBEIRO, S. G.; LACORTE, C.; INOUE NAGATA, A. K.; CARMO, I.; ORLANDINI, D.; NAGATA, T.; ZERBINI, F. M. Tomato chlorotic mottle virus: a novel tomato begomovirus from Brazil. Fitopatologia Brasileira, Brasília, DF, v. 27, p. S211, ago. 2002. Suplemento. Resumo. Apresentado no 35º Congresso Brasileiro de Fitopatologia, 2002. Biblioteca(s): Embrapa Hortaliças. |
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48. | | COLARICCIO, A.; BERGMANN, J. C.; EIRAS, M.; CHAVES, A. L. R.; CHAGAS, C. M.; ZERBINI, F. M. Tomato rugose mosaic virus in tomato crops in São Paulo State, Brazil. Fitopatologia Brasileira, Brasília, DF, v. 31, n. 6, p. 606, nov./dez. 2006. Biblioteca(s): Embrapa Hortaliças. |
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51. | | RIBEIRO, S. G.; AMBROZEVÍCIUS, L. P.; ÁVILA, A. C.; CALEGARIO, R. C.; FERNANDES, J. J.; LIMA, M. F.; MELLO, R. N.; ROCHA, H.; ZERBINI, F. M. Distribution and genetic diversity of tomato-infecting geminiviruses in Brazil. Virus Reviews & Research, São Paulo, v. 6, n. 2, p. 160, nov. 2001. Resumo. Suplemento. Biblioteca(s): Embrapa Hortaliças. |
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52. | | ZERBINI, F. M.; AMBROZEVICIUS, L. P.; ANDRADE, E. C.; BARROS, D. R.; CALEGARIO, R. F.; FERNANDES, J. J.; BROMMOSCHENKEL, S. H.; FONTES, E. P. B.; CARVALHO, M. G. Genetic diversity of novel begomovirus species infecting tomatoes and associated weeds in Brazil. Virus Reviews & Research, Florianópolis, v. 8, p. 32-33, 2003. Resumos. Trabalhos apresentado no 14º National Meeting of Virology, Florianópolis, 2003. Biblioteca(s): Embrapa Hortaliças. |
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53. | | MAR, T. B.; XAVIER, C. A. D.; LIMA, A. T. M.; NOGUEIRA, A. M.; SILVA, J. C. F.; RAMOS-SOBRINHO, R.; LAU, D.; ZERBINI, F. M. Genetic variability and population structure of the New World begomovirus Euphorbia yellow mosaic virus. Journal of General Virology, London, v. 98, n. 6, p. 1537-1551, Jun. 2017. Biblioteca(s): Embrapa Trigo. |
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54. | | STEMPKOWSKI, L. A.; PEREIRA, F. S.; MAR, T. B.; LAU, D.; KUHNEM, P.; CASA, R. T.; SILVA, F. N. da; ZERBINI, F. M. Genetic variability and population structure of wheat stripe mosaic virus. In: CONGRESSO BRASILEIRO DE VIROLOGIA, 33.; ENCONTRO DE VIROLOGIA DO MERCOSUL, 17., 2022, Porto Seguro. Anais... Brasília, DF: SBV, 2022. Biblioteca(s): Embrapa Trigo. |
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55. | | GONZÁLEZ AGUILERA, J.; DUEÑAS HURTADO, F.; XAVIER, C. A. D.; LAURINDO, B. S.; NICK, C.; ÁLVAREZ GIL, M.; SILVA, D. J. H. da; ZERBINI, F. M. Identificação dos genes Ty-2 e Ty-3 de resistência a begomovírus em genótipos de tomateiro. Pesquisa Agropecuária Brasileira, Brasília, DF, v. 46, n. 7, p. 772.-775, jun. 2011 Notas Científicas.
Título em inglês: Identification of the begomovirus resistance genes Ty?2 and Ty?3 in tomato genotypes. Biblioteca(s): Embrapa Unidades Centrais. |
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56. | | STEMPKOWSKI, L. A.; NASCIMENTO, S. C. do; MAR, T. B.; GONÇALVES, N. P.; LAU, D.; MELLO, R. N. de; SILVA, F. N. da; ZERBINI, F. M. Diversidade genética de Polymyxa graminis infectando arroz e trigo no sul do Brasil. In: CONGRESSO BRASILEIRO DE FITOPATOLOGIA, 53., 2023, Brasília, DF. Anais... Brasília, DF: Sociedade Brasileira de Fitopatologia, 2023. p. 680. Biblioteca(s): Embrapa Arroz e Feijão. |
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57. | | FERRO, C. G.; SILVA, J. P.; XAVIER, C. A. D.; GODINHO, M. T.; LIMA, A. T. M.; MAR, T. B.; LAU, D.; ZERBINI, F. M. The ever increasing diversity of begomoviruses infecting non-cultivated hosts: new species from Sida spp. and Leonurus sibiricus, plus two New World alphasatellites. Annals of Applied Biology, v. 170, p. 204-218, 2017. Biblioteca(s): Embrapa Trigo. |
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58. | | SIVIERO, A.; MATTAR, E. P. L.; CAMELO-GARCIA, V.; RAMOS-GONZÁLEZ, P. L.; CHABI-JESUS, C.; SANDE, O. F. L.; ZERBINI, F. M.; KITAJIMA, E. W. Levantamento de vírus de plantas no Estado do Acre. In: CONGRESSO BRASILEIRO DE FITOPATOLOGIA, 51., 2109, Recife. Os avanços da Fitopatologia na Era Genômica: anais. Recife: SBF: UFPRE/PPGF, 2019. p. 776. Biblioteca(s): Embrapa Acre. |
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59. | | ZANARDO, L. G.; SILVA, F. N.; BICALHO, A. A. C.; URQUIZA, G. P. C.; LIMA, A. T. M.; ALMEIDA, A. M. R.; ZERBINI, F. M.; CARVALHO, C. M. Molecular and biological characterization of Cowpea mild mottle virus isolates infecting soybean in Brazil and evidence of recombination. Plant Pathology, v. 63, p. 456-465, 2014. Biblioteca(s): Embrapa Soja. |
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60. | | CARVALHO, S. L. de; SILVA, F. N. da; ZANARDO, L. G.; ALMEIDA, A. M. R.; ZERBINI, F. M.; CARVALHO, C. M. Production of polyclonal antiserum against Cowpea mild mottle virus coat protein and its application in virus detection. Tropical Plant Patology, Brasília, DF, v. 38, n. 1, p. 49-54, Jan.-Feb. 2013. Biblioteca(s): Embrapa Soja. |
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Registros recuperados : 92 | |
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Registro Completo
Biblioteca(s): |
Embrapa Agrobiologia. |
Data corrente: |
18/05/2023 |
Data da última atualização: |
18/05/2023 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 2 |
Autoria: |
SHIOSE, L.; VIDAL, M. S.; HERINGER, A. S; VESPOLI, L. S.; SILVEIRA, V.; BALDANI, J. I.; JESUS, E. da C. |
Afiliação: |
LUMI SHIOSE, UFRJ; MARCIA SOARES VIDAL, CNPAB; ANGELO S. HERINGER, UENF; LUCIANO S. VESPOLI, UENF; VANILDO SILVEIRA, UENF; JOSE IVO BALDANI, CNPAB; EDERSON DA CONCEICAO JESUS, CNPAB. |
Título: |
Proteomic analysis of common bean (Phaseolus vulgaris L.) leaves showed a more stable metabolism in a variety responsive to biological nitrogen fixation. |
Ano de publicação: |
2023 |
Fonte/Imprenta: |
Symbiosis, Published: 10 May 2023. |
ISSN: |
0334-5114 |
DOI: |
https://doi.org/10.1007/s13199-023-00921-z |
Idioma: |
Inglês |
Conteúdo: |
The common bean (Phaseolus vulgaris L.) can supply part of its N demand through biological nitrogen fixation (BNF) in symbiosis with rhizobia. However, the responses to inoculation and BNF's contribution to plant nutrition vary with the plant genotype. Here, we examined the proteome of two common bean genotypes (Ouro Negro and BRS Radiante) to determine shifts in leaf metabolism with two N sources: mineral N and inoculation with Rhizobium tropici CIAT899 (= SEMIA 4077 = BR 322). Data are available via ProteomeXchange with the identifier PXD034817. Through UPLC-MS/MS analysis, we iden- tified 917 proteins, 338 of which are differentially expressed. Here we focus on the 64 and 22 proteins differentially expressed in BRS Radiante and Ouro Negro, respectively, when comparing the proteome profiles of inoculated and N-fertilized plants. Different pathways in P. vulgaris were affected positively and negatively in BRS Radiante during symbiosis: glutathione metabolism, cysteine and methionine metabolism, phenylpropanoid biosynthesis, sulfur metabolism, peroxisome pentose and glucuronate interconversions, amino sugar and nucleotide sugar metabolism, carbon metabolism, and phagosome were the identified pathways. However, only three pathways were affected in Ouro Negro: peroxisome, endocytosis, and sulfur metabolism. Ouro Negro shows a less affected metabolism, which may lead to a more successful symbiosis. Proteins related to defense response were also induced in BRS Radiante, implying that their activation in this genotype may be partially responsible for its less efficient symbiosis. It is important to consider the difference in the life cycles of the two cultivars, as Ouro Negro had more time to adapt to the symbiosis than BRS Radiante. These results provide a basis for future studies to identify and explore biochemical mechanisms of nitrogen fixation in common beans beyond the roots. MenosThe common bean (Phaseolus vulgaris L.) can supply part of its N demand through biological nitrogen fixation (BNF) in symbiosis with rhizobia. However, the responses to inoculation and BNF's contribution to plant nutrition vary with the plant genotype. Here, we examined the proteome of two common bean genotypes (Ouro Negro and BRS Radiante) to determine shifts in leaf metabolism with two N sources: mineral N and inoculation with Rhizobium tropici CIAT899 (= SEMIA 4077 = BR 322). Data are available via ProteomeXchange with the identifier PXD034817. Through UPLC-MS/MS analysis, we iden- tified 917 proteins, 338 of which are differentially expressed. Here we focus on the 64 and 22 proteins differentially expressed in BRS Radiante and Ouro Negro, respectively, when comparing the proteome profiles of inoculated and N-fertilized plants. Different pathways in P. vulgaris were affected positively and negatively in BRS Radiante during symbiosis: glutathione metabolism, cysteine and methionine metabolism, phenylpropanoid biosynthesis, sulfur metabolism, peroxisome pentose and glucuronate interconversions, amino sugar and nucleotide sugar metabolism, carbon metabolism, and phagosome were the identified pathways. However, only three pathways were affected in Ouro Negro: peroxisome, endocytosis, and sulfur metabolism. Ouro Negro shows a less affected metabolism, which may lead to a more successful symbiosis. Proteins related to defense response were also induced in BRS Radiante, implying... Mostrar Tudo |
Palavras-Chave: |
Protein expression; Symbiotic Nitrogen Fixation. |
Thesagro: |
Phaseolus Vulgaris. |
Thesaurus NAL: |
Mass spectrometry. |
Categoria do assunto: |
S Ciências Biológicas |
Marc: |
LEADER 02761naa a2200265 a 4500 001 2153835 005 2023-05-18 008 2023 bl uuuu u00u1 u #d 022 $a0334-5114 024 7 $ahttps://doi.org/10.1007/s13199-023-00921-z$2DOI 100 1 $aSHIOSE, L. 245 $aProteomic analysis of common bean (Phaseolus vulgaris L.) leaves showed a more stable metabolism in a variety responsive to biological nitrogen fixation.$h[electronic resource] 260 $c2023 520 $aThe common bean (Phaseolus vulgaris L.) can supply part of its N demand through biological nitrogen fixation (BNF) in symbiosis with rhizobia. However, the responses to inoculation and BNF's contribution to plant nutrition vary with the plant genotype. Here, we examined the proteome of two common bean genotypes (Ouro Negro and BRS Radiante) to determine shifts in leaf metabolism with two N sources: mineral N and inoculation with Rhizobium tropici CIAT899 (= SEMIA 4077 = BR 322). Data are available via ProteomeXchange with the identifier PXD034817. Through UPLC-MS/MS analysis, we iden- tified 917 proteins, 338 of which are differentially expressed. Here we focus on the 64 and 22 proteins differentially expressed in BRS Radiante and Ouro Negro, respectively, when comparing the proteome profiles of inoculated and N-fertilized plants. Different pathways in P. vulgaris were affected positively and negatively in BRS Radiante during symbiosis: glutathione metabolism, cysteine and methionine metabolism, phenylpropanoid biosynthesis, sulfur metabolism, peroxisome pentose and glucuronate interconversions, amino sugar and nucleotide sugar metabolism, carbon metabolism, and phagosome were the identified pathways. However, only three pathways were affected in Ouro Negro: peroxisome, endocytosis, and sulfur metabolism. Ouro Negro shows a less affected metabolism, which may lead to a more successful symbiosis. Proteins related to defense response were also induced in BRS Radiante, implying that their activation in this genotype may be partially responsible for its less efficient symbiosis. It is important to consider the difference in the life cycles of the two cultivars, as Ouro Negro had more time to adapt to the symbiosis than BRS Radiante. These results provide a basis for future studies to identify and explore biochemical mechanisms of nitrogen fixation in common beans beyond the roots. 650 $aMass spectrometry 650 $aPhaseolus Vulgaris 653 $aProtein expression 653 $aSymbiotic Nitrogen Fixation 700 1 $aVIDAL, M. S. 700 1 $aHERINGER, A. S 700 1 $aVESPOLI, L. S. 700 1 $aSILVEIRA, V. 700 1 $aBALDANI, J. I. 700 1 $aJESUS, E. da C. 773 $tSymbiosis, Published: 10 May 2023.
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