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Registros recuperados : 15 | |
3. | | CAMPOS, V.; MELO, R. C. N.; SILVA, L. P. da; AQUINO, E. N.; CASTRO, M. S.; FONTES, W. Characterization of neutrophil adhesion to different titanium surfaces. Bulletin of Materials Science, v. 37, n. 1, p. 157-166, 2014. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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4. | | RIBEIRO, D. G.; ALMEIDA, R. F.; FONTES, W.; CASTRO, M. de S.; SOUSA, M. V. de; RICART, C. A. O.; PEREIRA, J. E. S.; MEHTA, A. Identificação de proteínas envolvidas na aquisição de competência embriogênica em dendezeiros (Elaeis guineensis Jacq. var. tenera) utilizando proteômica Shotgun. In: CONGRESSO NACIONAL DE BOTÂNICA, 67., 2016, Vitória, ES. Conectando diversidades, revelando o desconhecido: resumos. Brasília, DF: Sociedade Botânica do Brasil, 2016. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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5. | | CÂNDIDO, E. S.; SILVA, R. B.; AQUINO, E. N.; NORONHA, E. F.; FRANCO, O. L.; KRÜGER, R. H.; FONTES, W.; QUIRINO, B. F. Analysis of the Arabidopsis thaliana - Xanthomonas campestris pv. campestris pathosystem using proteomics tools. In: REUNIÃO BRASILEIRA DE FERTILIDADE DO SOLO E NUTRIÇÃO DE PLANTAS, 28., 2008; REUNIÃO BRASILEIRA SOBRE MICORRIZAS, 12., 2008; SIMPÓSIO BRASILEIRO DE MICROBIOLOGIA DO SOLO, 10., 2008; 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. Biblioteca(s): Embrapa Agroenergia. |
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6. | | GOMES, P. H. M.; CÂNDIDO, E. S.; AQUINO, E. N.; NORONHA, E. F.; FRANCO, O. L.; FONTES, W.; KRÜGER, R. H.; QUIRINO, B. F. Xanthomonas campestris pv. campestris secretome toward susceptible and resistant Arabidopsis thaliana ecotypes. In: REUNIÃO BRASILEIRA DE FERTILIDADE DO SOLO E NUTRIÇÃO DE PLANTAS, 28., 2008; REUNIÃO BRASILEIRA SOBRE MICORRIZAS, 12., 2008; SIMPÓSIO BRASILEIRO DE MICROBIOLOGIA DO SOLO, 10., 2008; 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. Biblioteca(s): Embrapa Agroenergia. |
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7. | | CARVALHEIRA, L. R.; CARVALHO, B. C. de; RIBEIRO, L. S.; GOES, T. J. F.; VIEIRA, S. F.; FONTES, W. F.; TORRES FILHO, R. A.; OLIVEIRA, C. S.; SIQUEIRA, L. G. B.; CAMARGO, L. S. de A.; BRANDÃO, F. Z. Follicular population and oocyte quality from Holstein x Gyr cows under heat stress in climatic chamber and supplemented with organic chromium. Animal Reproduction, v. 15, n. 3, p. 403, 2018. Edição dos proceedings do 32º Annual Meeting of the Brazilian Embryo Technology Society, Florianópolis, 2018. Biblioteca(s): Embrapa Gado de Leite. |
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8. | | VILLETH, G. R. C.; CARMO, L. S. T.; SILVA, L. P.; FONTES, W.; GRYNBERG, P.; SARAIVA, M.; BRASILEIRO, A. C. M.; CARNEIRO, R. M. D.; OLIVEIRA, J. T. A.; GROSSI-DE-SA, M. F.; MEHTA, A. Cowpea-Meloidogyne incognita interaction: root proteomic analysis during early stages of nematode infection. Proteomics, v. 15, p. 1746-1759, 2015. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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9. | | SANTOS, C.; NOGUEIRA, F. C. S.; DOMONT, G. B.; FONTES, W.; PRADO, G. S.; HABIBI, P.; SANTOS, V. O.; OLIVEIRA-NETO, O. B.; SA, M. F. G. de; JORRÍN-NOVO, J. V.; FRANCO, O. L.; REIS, A. M. dos. Corrigendum: proteomic analysis and functional validation of a Brassica oleracea Endochitinase involved in resistance to Xanthomonas campestris. Frontiers in Plant Science, v. 11, article 201, 2020. Na publicação: Maria Fatima Grossi-de-Sá, Angela Mehta. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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10. | | CURY, N. F.; RIBEIRO, D. G.; LIMA, J. D. de; MENDES, P. da N.; FERNANDEZ, D.; FONTES, W.; CASTRO, M. S.; SOUSA, M. V.; MARTINS, N. F.; REIS, A. M. dos. Proteome dataset of Hemileia vastatrix by LC-MS/MS label-free identification. Data in Brief, v. 43, 2022. 108433. Na publicação: Angela Mehta. Biblioteca(s): Embrapa Agroindústria Tropical; Embrapa Recursos Genéticos e Biotecnologia. |
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11. | | RIBEIRO, D. G.; BEZERRA, A. C. M.; SANTOS, I. R.; GRYNBERG, P.; FONTES, W.; CASTRO, M. de S.; SOUSA, M. V. de; LISEI-DE-SÁ, M. E.; SA, M. F. G. de; FRANCO, O. L.; REIS, A. M. dos. Proteomic insights of Cowpea response to combined biotic and abiotic stresses. Plants, v. 12, n. 9, 1900, 2023. Na publicação: Maria Fatima Grossi-de-Sá; Angela Mehta. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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12. | | TÁVORA, F. T. P. K.; BEVITORI, R.; MELLO, R. N. de; CINTRA, M. M. D. F.; OLIVEIRA NETO, O. B.; FONTES, W.; CASTRO, M. S.; SOUSA, M. V.; FRANCO, O. L.; REIS, A. M. dos. Shotgun proteomics coupled to transient-inducible gene silencing reveal rice susceptibility genes as new sources for blast disease resistance. Journal of Proteomics, v. 241, 104223, June 2021. Na publicação: Angela Mehta. Biblioteca(s): Embrapa Arroz e Feijão; Embrapa Recursos Genéticos e Biotecnologia. |
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13. | | RIBEIRO, D. G.; ALMEIDA, R. F. de; FONTES, W.; CASTRO, M. de S.; SOUSA, M. V. de; RICART, C. A. O.; CUNHA, R. N. V. da; LOPES, R.; PEREIRA, J. E. S.; REIS, A. M. dos. Stress and cell cycle regulation during somatic embryogenesis plays a key role in oil palm callus development. Journal of Proteomics, v. 192, p. 137-146, 2019. Biblioteca(s): Embrapa Amazônia Ocidental; Embrapa Recursos Genéticos e Biotecnologia. |
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14. | | RIBEIRO, D. G.; MOTA, A. P. Z.; SANTOS, I. R.; ARRAES. F. B. M.; GRYNBERG, P.; FONTES, W.; CASTRO, M. de S.; SOUSA, M. V. de; LISEI-DE-SÁ, M. E.; SA, M. F. G. de; FRANCO, O. L.; REIS, A. M. dos. NBS-LRR-WRKY genes and protease inhibitors (PIs) seem essential for cowpea resistance to root-knot nematode. Journal of Proteomics, v. 261, 2022. 104575. Na publicação: Maria Fatima Grossi-de-Sá; Angela Mehta. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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15. | | MAURASTONI, M.; ANTUNES, T. F. S.; ABREU, E. F. M.; RIBEIRO, S. da G.; REIS, A. M. dos; SANCHES, M. M.; FONTES, W.; KITAJIMA, E. W.; CRUZ, F. T.; SANTOS, A. M. C.; VENTURA, J. A.; GOMES, A. C. M. M.; ZERBINI, F. M.; SOSA-ACOSTA, P.; NOGUEIRA, F. C. S.; RODRIGUES, S. P.; ARAGÃO, F. J. L.; WHITFIELD, A. E.; FERNANDES, P. M. B. A capsid protein fragment of a Fusagra-like virus found in Carica papaya latex interacts with the 50S Ribosomal protein L17. Viruses, v. 5, n. 2, 2023. 541. Na publicação: Simone G. Ribeiro; Angela Mehta. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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Registros recuperados : 15 | |
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| Acesso ao texto completo restrito à biblioteca da Embrapa Arroz e Feijão. Para informações adicionais entre em contato com cnpaf.biblioteca@embrapa.br. |
Registro Completo
Biblioteca(s): |
Embrapa Arroz e Feijão; Embrapa Recursos Genéticos e Biotecnologia. |
Data corrente: |
24/04/2021 |
Data da última atualização: |
12/07/2021 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
TÁVORA, F. T. P. K.; BEVITORI, R.; MELLO, R. N. de; CINTRA, M. M. D. F.; OLIVEIRA NETO, O. B.; FONTES, W.; CASTRO, M. S.; SOUSA, M. V.; FRANCO, O. L.; REIS, A. M. dos. |
Afiliação: |
FABIANO T. P. K. TÁVORA, UNIVERSIDADE FEDERAL DE JUIZ DE FORA, MG; ROSANGELA BEVITORI, CNPAF; RAQUEL NEVES DE MELLO, CNPAF; MARIA MONICA DOMINGUES F CINTRA, CNPAF; OSMUNDO B. OLIVEIRA NETO, CENTRO UNIVERSITARIO UNIEURO, Brasília-DF; WAGNER FONTES, UNIVERSIDADE DE BRASÍLIA; MARIANA S. CASTRO, UNIVERSIDADE DE BRASÍLIA; MARCELO V. SOUSA, UNIVERSIDADE DE BRASÍLIA; OCTAVIO L. FRANCO, UNIVERSIDADE CATÓLICA DE BRASÍLIA; ANGELA MEHTA DOS REIS, Cenargen. |
Título: |
Shotgun proteomics coupled to transient-inducible gene silencing reveal rice susceptibility genes as new sources for blast disease resistance. |
Ano de publicação: |
2021 |
Fonte/Imprenta: |
Journal of Proteomics, v. 241, 104223, June 2021. |
ISSN: |
1874-3919 |
DOI: |
https://doi.org/10.1016/j.jprot.2021.104223 |
Idioma: |
Inglês Português |
Notas: |
Na publicação: Angela Mehta. |
Conteúdo: |
A comparative proteomic analysis between two near-isogenic rice lines, displaying a resistant and susceptible phenotype upon infection with Magnaporthe oryzae was performed. We identified and validated factors associ-ated with rice disease susceptibility, representing a flourishing source toward a more resolute rice-blast resis-tance. Proteome profiles were remarkably different during early infection (12 h post-inoculation), revealing several proteins with increased abundance in the compatible interaction. Potential players of rice susceptibility were selected and gene expression was evaluated by RT-qPCR. Gene Ontology analysis disclosed susceptibility gene-encoded proteins claimed to be involved in fungus sustenance and suppression of plant immunity, such as sucrose synthase 4-like, serpin-ZXA-like, nudix hydrolase15, and DjA2 chaperone protein. Two other candidate genes, picked from a previous transcriptome study, were added into our downstream analysis including pyr-abactin resistant-like 5 (OsPYL5), and rice ethylene-responsive factor 104 (OsERF104). Further, we validated their role in susceptibility by Transient-Induced Gene Silencing (TIGS) using short antisense oligodeoxyr-ibonucleotides that resulted in a remarkable reduction of foliar disease symptoms in the compatible interaction. Therefore, we successfully employed shotgun proteomics and antisense-based gene silencing to prospect and functionally validate rice potential susceptibility factors, which could be further explored to build rice-blast resistance. Significance: R gene-mediated disease resistance is race-specific and often not durable in the field. More recently, advancements in new breeding techniques (NBTs) have made plant disease susceptibility genes (S-genes) a new target to build a broad spectrum and more durable resistance, hence an alternative source to R-genes in breeding programs. We successfully coupled shotgun proteomics and gene silencing tools to prospect and validate new rice-bast susceptibility genes that can be further exploited toward a more resolute blast disease resistance. MenosA comparative proteomic analysis between two near-isogenic rice lines, displaying a resistant and susceptible phenotype upon infection with Magnaporthe oryzae was performed. We identified and validated factors associ-ated with rice disease susceptibility, representing a flourishing source toward a more resolute rice-blast resis-tance. Proteome profiles were remarkably different during early infection (12 h post-inoculation), revealing several proteins with increased abundance in the compatible interaction. Potential players of rice susceptibility were selected and gene expression was evaluated by RT-qPCR. Gene Ontology analysis disclosed susceptibility gene-encoded proteins claimed to be involved in fungus sustenance and suppression of plant immunity, such as sucrose synthase 4-like, serpin-ZXA-like, nudix hydrolase15, and DjA2 chaperone protein. Two other candidate genes, picked from a previous transcriptome study, were added into our downstream analysis including pyr-abactin resistant-like 5 (OsPYL5), and rice ethylene-responsive factor 104 (OsERF104). Further, we validated their role in susceptibility by Transient-Induced Gene Silencing (TIGS) using short antisense oligodeoxyr-ibonucleotides that resulted in a remarkable reduction of foliar disease symptoms in the compatible interaction. Therefore, we successfully employed shotgun proteomics and antisense-based gene silencing to prospect and functionally validate rice potential susceptibility factors, which could be furth... Mostrar Tudo |
Palavras-Chave: |
Gene ontology; Plant immunity; PTO-based TIGS; RT-qPCR; S-gene; Transient-Induced gene silencing. |
Thesagro: |
Arroz; Brusone; Doença de Planta; Oryza Sativa. |
Thesaurus NAL: |
blast disease; disease resistance; foliar diseases; Magnaporthe oryzae; plant diseases and disorders; proteomics; rice. |
Categoria do assunto: |
-- S Ciências Biológicas |
Marc: |
LEADER 03484naa a2200469 a 4500 001 2131497 005 2021-07-12 008 2021 bl uuuu u00u1 u #d 022 $a1874-3919 024 7 $ahttps://doi.org/10.1016/j.jprot.2021.104223$2DOI 100 1 $aTÁVORA, F. T. P. K. 245 $aShotgun proteomics coupled to transient-inducible gene silencing reveal rice susceptibility genes as new sources for blast disease resistance.$h[electronic resource] 260 $c2021 500 $aNa publicação: Angela Mehta. 520 $aA comparative proteomic analysis between two near-isogenic rice lines, displaying a resistant and susceptible phenotype upon infection with Magnaporthe oryzae was performed. We identified and validated factors associ-ated with rice disease susceptibility, representing a flourishing source toward a more resolute rice-blast resis-tance. Proteome profiles were remarkably different during early infection (12 h post-inoculation), revealing several proteins with increased abundance in the compatible interaction. Potential players of rice susceptibility were selected and gene expression was evaluated by RT-qPCR. Gene Ontology analysis disclosed susceptibility gene-encoded proteins claimed to be involved in fungus sustenance and suppression of plant immunity, such as sucrose synthase 4-like, serpin-ZXA-like, nudix hydrolase15, and DjA2 chaperone protein. Two other candidate genes, picked from a previous transcriptome study, were added into our downstream analysis including pyr-abactin resistant-like 5 (OsPYL5), and rice ethylene-responsive factor 104 (OsERF104). Further, we validated their role in susceptibility by Transient-Induced Gene Silencing (TIGS) using short antisense oligodeoxyr-ibonucleotides that resulted in a remarkable reduction of foliar disease symptoms in the compatible interaction. Therefore, we successfully employed shotgun proteomics and antisense-based gene silencing to prospect and functionally validate rice potential susceptibility factors, which could be further explored to build rice-blast resistance. Significance: R gene-mediated disease resistance is race-specific and often not durable in the field. More recently, advancements in new breeding techniques (NBTs) have made plant disease susceptibility genes (S-genes) a new target to build a broad spectrum and more durable resistance, hence an alternative source to R-genes in breeding programs. We successfully coupled shotgun proteomics and gene silencing tools to prospect and validate new rice-bast susceptibility genes that can be further exploited toward a more resolute blast disease resistance. 650 $ablast disease 650 $adisease resistance 650 $afoliar diseases 650 $aMagnaporthe oryzae 650 $aplant diseases and disorders 650 $aproteomics 650 $arice 650 $aArroz 650 $aBrusone 650 $aDoença de Planta 650 $aOryza Sativa 653 $aGene ontology 653 $aPlant immunity 653 $aPTO-based TIGS 653 $aRT-qPCR 653 $aS-gene 653 $aTransient-Induced gene silencing 700 1 $aBEVITORI, R. 700 1 $aMELLO, R. N. de 700 1 $aCINTRA, M. M. D. F. 700 1 $aOLIVEIRA NETO, O. B. 700 1 $aFONTES, W. 700 1 $aCASTRO, M. S. 700 1 $aSOUSA, M. V. 700 1 $aFRANCO, O. L. 700 1 $aREIS, A. M. dos 773 $tJournal of Proteomics$gv. 241, 104223, June 2021.
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