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23. | | GRAICHEN, F. A. S.; MARTINELLI, J. A.; WESP, C. L.; VARIANI, C.; CHAVES, M. S.; FEDERIZZI, L. C. Correlações entre componentes histológicos e epidemiológicos da resistência à ferrugem da folha em aveia. In: REUNIÃO DA COMISSÃO BRASILEIRA DE PESQUISA DE AVEIA, 30., 2010, São Carlos, SP. Anais... São Carlos, SP: Embrapa Pecuária Sudeste, 2010. p. 19-21. 1 CD-ROM. Biblioteca(s): Embrapa Trigo. |
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24. | | ALMEIDA, N. P. de; CHAVES, M. S.; MARTINELLI, J. A.; GRICHEN, F. A. S.; COPETTI, M. R. Fenotipagem e identificação de genes de resistência à ferrugem da folha em linhagens e cultivares de trigo. In: MOSTRA DE INICIAÇÃO CIENTÍFICA DA EMBRAPA TRIGO, 6., 2010, Passo Fundo. Resumos... Passo Fundo: Embrapa Trigo, 2010. 1 p. html. (Embrapa Trigo. Documentos online, 123). Biblioteca(s): Embrapa Trigo. |
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25. | | ALMEIDA, J. L. de; NETO, V. da C. L.; KOEHIER, H. S.; MINELLA, E.; MARTINELLI, J. A. Efeito de diferentes participações do milho em rotação e sucessão na produção das micotoxinas nos grãos de cevada cervejeira. In: REUNIÃO NACIONAL DE PESQUISA DE CEVADA, 26., 2007, Passo Fundo. Anais... Passo Fundo: Embrapa Trigo, 2007. p. 660. (Embrapa Trigo. Documentos, 76). Organizado por Euclydes Minella. Biblioteca(s): Embrapa Trigo. |
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27. | | ZANELLA, C. M.; EREFUL, N.; CASASSOLA, A.; BRAMMER, S. P.; CHAVES, M. S.; CAVERZAN, A.; MARTINELLI, J. A.; BOYD, L. Transcriptome analysis in the wheat cultivar Toropi in response to infection with Puccinia triticina, the causal pathogen on leaf rust. In: INTERNATIONAL WHEAT CONGRESS, 1., 2019, Saskatoon, SK, Canada. Abstracts, proceedings, poster presentations... Saskatoon: University of Saskatchewan, 2019. Trab. 019025, p. 37. Biblioteca(s): Embrapa Trigo. |
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28. | | ÁVILA, M. R. de; SANTOS, T. N. dos; SILVA, G. B. P. da; DALL'AGNOL, M.; MARTINELLI, J. A.; KÖPP, M. M. Agronomic production and evaluation of severity of Curvularia geniculata on Medicago sativa cv. Crioula in Southern Brazil. In: CONGRESSO BRASILEIRO DE MELHORAMENTO DE PLANTAS, 8., 2015, Goiânia. O melhoramento de plantas, o futuro da agricultura e a soberania nacional: anais. Goiânia: UFG: SBMP, 2015. Biblioteca(s): Embrapa Pecuária Sul. |
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29. | | BRAMMER, S. P.; BOYD, L. A.; CHAVES, M. S.; MARTINELLI, J. A.; SCAGLIUSI, S. M. M.; CASASSOLA, A.; SILVA, G. B. P.; EREFUL, N. Genetics of leaf rust resistance in the Brazilian wheat cultivar Toropi. Journal of Basic & Applied Genetics, Buenos Aires, v. 27, n. 1, p. 61, 2016. Suppl. Edição dos Resumos do XVI Congreso Latinoamericano de Genética, IV Congreso de la Sociedad Uruguaya de Genética, XLIX Reunión Anual de la Sociedad de Genética de Chile, XLV Congreso Argentino de Genética, Montevideo, 2016. Biblioteca(s): Embrapa Trigo. |
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31. | | CASASSOLA, A.; BRAMMER, S. P.; CHAVES, M. S.; NHANI JUNIOR, A.; MARTINELLI, J. A.; KUSER-FALCAO, P. R.; ZERLOTINI, A.; GRANDO, M. F.; STEFANATO, F.; BOYD, L. Genética da resistência de planta adulta à ferrugem da folha em trigo - cultivar Toropi. In: MOSTRA DE INICIAÇÃO CIENTÍFICA, 9.; MOSTRA DE PÓS-GRADUAÇÃO DA EMBRAPA TRIGO, 6., 2014, Passo Fundo. A construção de um cientista!: resumos. Brasília, DF: Embrapa, 2015. p. 53. Orientadora: Sandra Patussi Brammer. Biblioteca(s): Embrapa Trigo. |
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32. | | CASASSOLA, A.; EREFUL, N. C.; ZANELLA, C. M.; PANDEY, P.; BRAMMER, S. P.; CHAVES, M. S.; MARTINELLI, J. A.; BOYD, L. A. Transcriptional profiling identifies the early responses to Puccinia triticina infection in the adult plant leaf rust resistant wheat variety Toropi. Plant Pathology, v. 73, n. 4, p. 832–845, May 2024. Biblioteca(s): Embrapa Clima Temperado; Embrapa Trigo. |
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33. | | ALMEIDA, N. P.; CHAVES, M. S.; MARTINELLI, J. A.; GRAICHEN, F. A. S.; BRAMMER, S. P.; BONATO, A. L. V.; MOGNON, A. P.; COPETTI, M. R. Validação da resistência de planta adulta à ferrugem da folha em genótipos de trigo. In: MOSTRA DE INICIAÇÃO CIENTÍFICA DA EMBRAPA TRIGO, 5., 2009, Passo Fundo. Resumos... Passo Fundo: Embrapa Trigo, 2009. 1 p. html. (Embrapa Trigo. Documentos online, 115). Biblioteca(s): Embrapa Trigo. |
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34. | | ÁVILA, M. R.; DALL'AGNOL, M.; MARTINELLI, J. A.; SILVA, G. B. P. da; SANTOS, T. N. dos; MOTTA, E. A.; GARCIA, L. S.; GRAMINHO, L. A.; BREMM, C.; KOPP, M. M. Selection of alfalfa for resistance to the foliar pathogen Curvularia geniculata in the field. In: REUNIÃO ANUAL DA SOCIEDADE BRASILEIRA DE ZOOTECNIA, 53., 2016, Gramado. Produção animal para as novas gerações: anais. Viçosa, MG: Sociedade Brasileira de Zootecnia, 2016. Biblioteca(s): Embrapa Pecuária Sul. |
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Registros recuperados : 34 | |
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Registro Completo
Biblioteca(s): |
Embrapa Clima Temperado; Embrapa Trigo. |
Data corrente: |
17/02/2023 |
Data da última atualização: |
27/02/2023 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 2 |
Autoria: |
CHAVES, M. S.; ANTUNES, M. B.; SILVA, G. B. P. da; GRAICHEN, F. A. S.; TORRES, G. A. M.; MARTINELLI, J. A. |
Afiliação: |
MARCIA SOARES CHAVES, CPACT; MARCIELE BARBIERI ANTUNES, UNIVERSIDADE FEDERAL DO RIO GRANDE DO SUL; GERARDA BEATRIZ PINTO DA SILVA, UNIVERSIDADE FEDERAL DO RIO GRANDE DO SUL; FELIPE ANDRÉ SGANZERLA GRAICHEN, UNIVERSIDADE ESTADUAL DE MATO GROSSO DO SUL; GISELE ABIGAIL MONTAN TORRES, CNPT; JOSÉ ANTÔNIO MARTINELLI, UNIVERSIDADE FEDERAL DO RIO GRANDE DO SUL. |
Título: |
Pre and post stage of infection of Magnaporthe oryzae Oryza in wheat leaves with different resistance levels. |
Ano de publicação: |
2022 |
Fonte/Imprenta: |
Brazilian Journal of Microbiology, v. 53, p. 1091-1100, 2022. |
DOI: |
https://doi.org/10.1007/s42770-022-00749-7 |
Idioma: |
Inglês |
Notas: |
Online first 12 April 2022. |
Conteúdo: |
Blast fungus (Magnaporthe oryzae B.C. Couch) is an imminent threat to global food security because it causes serious yield losses in rice (Oryza sativa L.) and wheat (Triticum aestivum L.). The investigation of infection processes in resistant and susceptible varieties, as well as the cellular responses involved in resistance, can help us to better understand the process of interaction of the M. oryzae-Poaceae pathosystems. Thus, the objectives of this study were to evaluate the processes of pre-and post-infection of M. oryzae in leaves of wheat varieties with diferent levels of resistance. The percentage of germinated conidia, appressorium formed, tissue penetration and colonization, and the reaction of leaf tissue to infection were evaluated. A decrease was observed in the percentage of germinated conidia, appressorium formation, tissue penetration and colonization, especially in the tissues of resistant varieties, in addition to an increase in the plant?s response to infection, with cell wall reinforcement, cell death, and autofuorescent cytoplasm aggregation. Nevertheless, our data produced a diferent temporal perspective regarding the expression of the known types of resistance. We found that, for a single genotype, recognition can start as early as 6 h after inoculation and continue to evolve until very late during the infection cycle, culminating in cell death. The combined and overlapping pre- and post-haustorial resistance mechanisms were sufcient to prevent disease symptoms, with a few punctual lesions observed in one of the resistant varieties (BR 18) and no visible symptoms in the other two (Ônix or BRS229) as opposed to susceptible variety. MenosBlast fungus (Magnaporthe oryzae B.C. Couch) is an imminent threat to global food security because it causes serious yield losses in rice (Oryza sativa L.) and wheat (Triticum aestivum L.). The investigation of infection processes in resistant and susceptible varieties, as well as the cellular responses involved in resistance, can help us to better understand the process of interaction of the M. oryzae-Poaceae pathosystems. Thus, the objectives of this study were to evaluate the processes of pre-and post-infection of M. oryzae in leaves of wheat varieties with diferent levels of resistance. The percentage of germinated conidia, appressorium formed, tissue penetration and colonization, and the reaction of leaf tissue to infection were evaluated. A decrease was observed in the percentage of germinated conidia, appressorium formation, tissue penetration and colonization, especially in the tissues of resistant varieties, in addition to an increase in the plant?s response to infection, with cell wall reinforcement, cell death, and autofuorescent cytoplasm aggregation. Nevertheless, our data produced a diferent temporal perspective regarding the expression of the known types of resistance. We found that, for a single genotype, recognition can start as early as 6 h after inoculation and continue to evolve until very late during the infection cycle, culminating in cell death. The combined and overlapping pre- and post-haustorial resistance mechanisms were sufcient to prevent disease... Mostrar Tudo |
Thesagro: |
Arroz; Brusone; Oryza Sativa; Trigo; Triticum Aestivum. |
Categoria do assunto: |
-- |
Marc: |
LEADER 02506naa a2200265 a 4500 001 2151852 005 2023-02-27 008 2022 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.1007/s42770-022-00749-7$2DOI 100 1 $aCHAVES, M. S. 245 $aPre and post stage of infection of Magnaporthe oryzae Oryza in wheat leaves with different resistance levels.$h[electronic resource] 260 $c2022 500 $aOnline first 12 April 2022. 520 $aBlast fungus (Magnaporthe oryzae B.C. Couch) is an imminent threat to global food security because it causes serious yield losses in rice (Oryza sativa L.) and wheat (Triticum aestivum L.). The investigation of infection processes in resistant and susceptible varieties, as well as the cellular responses involved in resistance, can help us to better understand the process of interaction of the M. oryzae-Poaceae pathosystems. Thus, the objectives of this study were to evaluate the processes of pre-and post-infection of M. oryzae in leaves of wheat varieties with diferent levels of resistance. The percentage of germinated conidia, appressorium formed, tissue penetration and colonization, and the reaction of leaf tissue to infection were evaluated. A decrease was observed in the percentage of germinated conidia, appressorium formation, tissue penetration and colonization, especially in the tissues of resistant varieties, in addition to an increase in the plant?s response to infection, with cell wall reinforcement, cell death, and autofuorescent cytoplasm aggregation. Nevertheless, our data produced a diferent temporal perspective regarding the expression of the known types of resistance. We found that, for a single genotype, recognition can start as early as 6 h after inoculation and continue to evolve until very late during the infection cycle, culminating in cell death. The combined and overlapping pre- and post-haustorial resistance mechanisms were sufcient to prevent disease symptoms, with a few punctual lesions observed in one of the resistant varieties (BR 18) and no visible symptoms in the other two (Ônix or BRS229) as opposed to susceptible variety. 650 $aArroz 650 $aBrusone 650 $aOryza Sativa 650 $aTrigo 650 $aTriticum Aestivum 700 1 $aANTUNES, M. B. 700 1 $aSILVA, G. B. P. da 700 1 $aGRAICHEN, F. A. S. 700 1 $aTORRES, G. A. M. 700 1 $aMARTINELLI, J. A. 773 $tBrazilian Journal of Microbiology$gv. 53, p. 1091-1100, 2022.
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