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Registro Completo |
Biblioteca(s): |
Biblioteca Rui Tendinha. |
Data corrente: |
19/01/2021 |
Data da última atualização: |
19/01/2021 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Autoria: |
SÁ ANTUNES, T. F.; MAURASTONI, M. L.; MADROÑERO, J.; FUENTES, G.; SANTAMARÍA, J. M.; VENTURA, J. A.; ABREU, E. F.; FERNANDES, A. R.; FERNANDES, P. M. B. |
Afiliação: |
Tathiana F. Sá Antunes, UFES; Marlonni Maurastoni L., UFES; Johana Madroñero, UFES/UNIVERSIDAD EL BOSQUE; Gabriela Fuentes, Centro de Investigación Científica de Yucatán; Jorge M. Santamaría, Centro de Investigación Científica de Yucatán; Jose Aires Ventura, Incaper; Emauel F. Abreu, Embrapa Recursos Genéticos e Biotecnologia; Alberto R. Fernandes, UFES; Patricia M. B. Fernandes, UFES. |
Título: |
Battle of three: the curious case of papaya sticky disease. |
Ano de publicação: |
2020 |
Fonte/Imprenta: |
Plant Disease, v. 104, n. 11, p. 2754-2763, 2020. |
Idioma: |
Português |
Conteúdo: |
Among the most serious problems in papaya production are the viruses associated with papaya ringspot and papaya sticky disease (PSD). PSD concerns producers worldwide because its symptoms are extremely aggressive and appear only after flowering. As no resistant cultivar is available, several disease management strategies have been used in affected countries, such as the use of healthy seeds, exclusion of the pathogen, and roguing. In the 1990s, a dsRNA virus, papaya meleira virus (PMeV), was identified in Brazil as the causal agent of PSD. However, in 2016 a second virus, papaya meleira virus 2 (PMeV2), with an ssRNA genome, was also identified in PSD plants. Only PMeV is detected in asymptomatic plants, whereas all symptomatic plants contain both viral RNAs separately packaged in particles formed by the PMeV capsid protein. PSD also affects papaya plants in Mexico, Ecuador, and Australia. PMeV2-like viruses have been identified in the affected plants, but the partner virus(es) in these countries are still unknown. In Brazil, PMeV and PMeV2 reside in laticifers that promote spontaneous latex exudation, resulting in the affected papaya fruit?s sticky appearance. Genes modulated in plants affected by PSD include those involved in reactive oxygen species and salicylic acid signaling, proteasomal degradation, and photosynthesis, which are key plant defenses against PMeV complex infection. However, the complete activation of the defense response is impaired by the expression of negative effectors modulated by the virus. This review presents a summary of the current knowledge of the Carica papaya-PMeV complex interaction and management strategies. MenosAmong the most serious problems in papaya production are the viruses associated with papaya ringspot and papaya sticky disease (PSD). PSD concerns producers worldwide because its symptoms are extremely aggressive and appear only after flowering. As no resistant cultivar is available, several disease management strategies have been used in affected countries, such as the use of healthy seeds, exclusion of the pathogen, and roguing. In the 1990s, a dsRNA virus, papaya meleira virus (PMeV), was identified in Brazil as the causal agent of PSD. However, in 2016 a second virus, papaya meleira virus 2 (PMeV2), with an ssRNA genome, was also identified in PSD plants. Only PMeV is detected in asymptomatic plants, whereas all symptomatic plants contain both viral RNAs separately packaged in particles formed by the PMeV capsid protein. PSD also affects papaya plants in Mexico, Ecuador, and Australia. PMeV2-like viruses have been identified in the affected plants, but the partner virus(es) in these countries are still unknown. In Brazil, PMeV and PMeV2 reside in laticifers that promote spontaneous latex exudation, resulting in the affected papaya fruit?s sticky appearance. Genes modulated in plants affected by PSD include those involved in reactive oxygen species and salicylic acid signaling, proteasomal degradation, and photosynthesis, which are key plant defenses against PMeV complex infection. However, the complete activation of the defense response is impaired by the expression of n... Mostrar Tudo |
Palavras-Chave: |
Meleira. |
Thesagro: |
Carica Papaya; Doença; Mamão; Praga. |
Categoria do assunto: |
H Saúde e Patologia |
URL: |
https://biblioteca.incaper.es.gov.br/digital/bitstream/123456789/4168/1/Battle-of-Three-Papaya-Sticky-Disease-2020.pdf
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Marc: |
LEADER 02409naa a2200277 a 4500 001 1023094 005 2021-01-19 008 2020 bl uuuu u00u1 u #d 100 1 $aSÁ ANTUNES, T. F. 245 $aBattle of three$bthe curious case of papaya sticky disease.$h[electronic resource] 260 $c2020 520 $aAmong the most serious problems in papaya production are the viruses associated with papaya ringspot and papaya sticky disease (PSD). PSD concerns producers worldwide because its symptoms are extremely aggressive and appear only after flowering. As no resistant cultivar is available, several disease management strategies have been used in affected countries, such as the use of healthy seeds, exclusion of the pathogen, and roguing. In the 1990s, a dsRNA virus, papaya meleira virus (PMeV), was identified in Brazil as the causal agent of PSD. However, in 2016 a second virus, papaya meleira virus 2 (PMeV2), with an ssRNA genome, was also identified in PSD plants. Only PMeV is detected in asymptomatic plants, whereas all symptomatic plants contain both viral RNAs separately packaged in particles formed by the PMeV capsid protein. PSD also affects papaya plants in Mexico, Ecuador, and Australia. PMeV2-like viruses have been identified in the affected plants, but the partner virus(es) in these countries are still unknown. In Brazil, PMeV and PMeV2 reside in laticifers that promote spontaneous latex exudation, resulting in the affected papaya fruit?s sticky appearance. Genes modulated in plants affected by PSD include those involved in reactive oxygen species and salicylic acid signaling, proteasomal degradation, and photosynthesis, which are key plant defenses against PMeV complex infection. However, the complete activation of the defense response is impaired by the expression of negative effectors modulated by the virus. This review presents a summary of the current knowledge of the Carica papaya-PMeV complex interaction and management strategies. 650 $aCarica Papaya 650 $aDoença 650 $aMamão 650 $aPraga 653 $aMeleira 700 1 $aMAURASTONI, M. L. 700 1 $aMADROÑERO, J. 700 1 $aFUENTES, G. 700 1 $aSANTAMARÍA, J. M. 700 1 $aVENTURA, J. A. 700 1 $aABREU, E. F. 700 1 $aFERNANDES, A. R. 700 1 $aFERNANDES, P. M. B. 773 $tPlant Disease$gv. 104, n. 11, p. 2754-2763, 2020.
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Registro original: |
Biblioteca Rui Tendinha (BRT) |
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Registro |
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Registro Completo |
Biblioteca(s): |
Biblioteca Rui Tendinha. |
Data corrente: |
23/08/2016 |
Data da última atualização: |
28/09/2017 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
B - 1 |
Autoria: |
VERDIN FILHO, A. C.; VOLPI, P. S.; RODRIGUES, W. N.; COLODETTI, T. V.; MAURI, A. L.; FERRÃO, R. G.; FONSECA, A. F. A. da.; FERRÃO, M. A. G.; MARTINS, L. D.; BRINATE, S. V. B.; TOMAZ, M. A.; COMÉRIO, M.; ANDRADE JÚNIOR, S. de.; PINHEIRO, C. A. |
Afiliação: |
Abraão Carlos Verdin Filho, Incaper; Paulo Sérgio Volpi, Incaper; Wagner Nunes Rodrigues, UFES; Tafarel Victor Colodetti, UFES; Aldo Luiz Mauri, Incaper; Romário Gava Ferrão, Incaper; Aymbiré Francisco Almeida da Fonseca, Incaper/Embrapa Café; Maria Amélia Gava Ferrão, Incaper/Embrapa Café; Lima Deleon Martins, UFES; Sebastião Vinícius Batista Brinate, UFES; Marcelo Antonio Tomaz, UFES; Marcone Comério, Incaper; Saul de Andrade Júnior, UFES; Carlos Alexandre Pinheiro, UFES. |
Título: |
The beverage quality of Conilon coffee that is kept in the field after harvesting : Quantifying daily losses. |
Ano de publicação: |
2016 |
Fonte/Imprenta: |
AFRICAN JOURNAL OF AGRICULTURAL RESEARCH, v. 11, n. 33, p. 3134-3140, august 2016. |
DOI: |
10.5897/AJAR2016.11346 |
Idioma: |
Inglês |
Conteúdo: |
In search to maintain the coffee quality, the period of time for which the coffee is kept in the plantation after harvest (waiting transportation for the processing site) is one of the several factors that deserves scientific attention. This experiment aimed to identify and quantify losses of beverage quality suffered by Conilon coffee due to the time being kept in the field after harvesting, as an attempt to determine if the permanence of the bags in the plantation after harvest is possible before it causes detrimental
effects over characteristics of beverage quality. The experiment followed a completely random design, with 8 treatments and 4 repetitions, using standardized bags of mature fruits of Coffea canephora Pierre ex Froehner that were kept in the plantation field for periods of 0, 1, 2, 3, 4, 6, 8 or 10 days after harvest. Samples from each bag were sent to chemical analyses, and triplicate samples of the processed coffee were sent to three separated sensorial analyses, each one performed by a different laboratory to asset
the quality score and traits of the beverage. The results showed that the beverage quality suffers considerable losses due to the time of bags being kept in the field after harvesting. For many quality parameters, the detrimental effects of the permanence at fields start from the very first day, causing reduction of the quality score of the beverage and lowering the classification of the coffee. |
Thesaurus NAL: |
Aroma; Coffea canephora; Coffee quality; Flavor; Harvest; Time. |
Categoria do assunto: |
X Pesquisa, Tecnologia e Engenharia |
URL: |
http://biblioteca.incaper.es.gov.br/digital/bitstream/item/2227/1/BRT-thebeveragequalityofconiloncoffeee-verdinfilho.pdf
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Marc: |
LEADER 02510naa a2200361 a 4500 001 1011674 005 2017-09-28 008 2016 bl uuuu u00u1 u #d 024 7 $a10.5897/AJAR2016.11346$2DOI 100 1 $aVERDIN FILHO, A. C. 245 $aThe beverage quality of Conilon coffee that is kept in the field after harvesting$bQuantifying daily losses.$h[electronic resource] 260 $c2016 520 $aIn search to maintain the coffee quality, the period of time for which the coffee is kept in the plantation after harvest (waiting transportation for the processing site) is one of the several factors that deserves scientific attention. This experiment aimed to identify and quantify losses of beverage quality suffered by Conilon coffee due to the time being kept in the field after harvesting, as an attempt to determine if the permanence of the bags in the plantation after harvest is possible before it causes detrimental effects over characteristics of beverage quality. The experiment followed a completely random design, with 8 treatments and 4 repetitions, using standardized bags of mature fruits of Coffea canephora Pierre ex Froehner that were kept in the plantation field for periods of 0, 1, 2, 3, 4, 6, 8 or 10 days after harvest. Samples from each bag were sent to chemical analyses, and triplicate samples of the processed coffee were sent to three separated sensorial analyses, each one performed by a different laboratory to asset the quality score and traits of the beverage. The results showed that the beverage quality suffers considerable losses due to the time of bags being kept in the field after harvesting. For many quality parameters, the detrimental effects of the permanence at fields start from the very first day, causing reduction of the quality score of the beverage and lowering the classification of the coffee. 650 $aAroma 650 $aCoffea canephora 650 $aCoffee quality 650 $aFlavor 650 $aHarvest 650 $aTime 700 1 $aVOLPI, P. S. 700 1 $aRODRIGUES, W. N. 700 1 $aCOLODETTI, T. V. 700 1 $aMAURI, A. L. 700 1 $aFERRÃO, R. G. 700 1 $aFONSECA, A. F. A. da. 700 1 $aFERRÃO, M. A. G. 700 1 $aMARTINS, L. D. 700 1 $aBRINATE, S. V. B. 700 1 $aTOMAZ, M. A. 700 1 $aCOMÉRIO, M. 700 1 $aANDRADE JÚNIOR, S. de. 700 1 $aPINHEIRO, C. A. 773 $tAFRICAN JOURNAL OF AGRICULTURAL RESEARCH$gv. 11, n. 33, p. 3134-3140, august 2016.
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