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| Registros recuperados : 18 | |
| 4. |  | GONÇALVES, M. de O.; SILVA, J. B. G.; PAULA, V. R. de; NASCIMENTO, A. de M.; OTENIO, M. H. Aplicação de biofertilizante proveniente da bovinocultura no cultivar BRS Capiaçu: os efeitos da disposição sobre a cultura. In: WORKSHOP DE INICIAÇÃO CIENTÍFICA DA EMBRAPA GADO DE LEITE, 23., 2019, Juiz de Fora. Anais... Juiz de Fora: Embrapa Gado de Leite, 2019. (Embrapa Gado de Leite. Documentos, 234). 5 p.| Biblioteca(s): Embrapa Gado de Leite. |
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| 7. | | KITZBERGER, C. S. G.; SCHOLZ, M. B. S.; SILVA, J. B. G. D.; PEREIRA, L. F. P.; BENASSI, M. T. Green coffee beans composition, roasted coffee and beverages characteristics: diversity between arabica cultivars. In: INTERNATIONAL CONFERENCE ON COFFEE SCIENCE, 24., 2012, Costa Rica. Programme & abstracts. [S.l.]: Association for Science and Information on Coffee, 2012. p. 107| Biblioteca(s): Embrapa Café. |
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| 11. | | NASCIMENTO, A. de M.; MACIEL, A. M.; SILVA, J. B. G.; MENDONÇA, H. V.; PAULA, V. R. de; OTENIO, M. H. Biofertilizer application on corn (Zea mays) increases the productivity and quality of the crop without causing environmental damage. Water, Air, and Soil Pollution, v. 231, n. 8, article 414, 2020.| Biblioteca(s): Embrapa Gado de Leite. |
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| 13. | | KITZBERGER, C. S. G.; SCHOLZ, M. B. dos S.; PEREIRA, L. F. P.; VIEIRA, L. G. E.; SERA, T.; SILVA, J. B. G. D.; BENASSI, M. de T. Diterpenes in green and roasted coffee of Coffea arabica cultivars growing in the same edapho-climatic conditions. Journal of Food Composition and Analysis, v. 30, n. 1, P. 52-57, 2013.| Biblioteca(s): Embrapa Café. |
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| 14. | | COSTALONGA, L. G. T.; NETO, J. M.; REZENDE, N. C. de; AZEVEDO, T. dos S.; SANTOS, J. P. E. dos; REZENDE, T. C.; BOTTREL, S. E. C.; PEREIRA, R. de O.; SILVA, J. B. G.; OTENIO, M. H. Avaliação da ozonização como pós-tratamento do efluente da bovinocultura tratado biologicamente visando o reuso na fertirrigação. In: SIMPÓSIO DE RECURSOS HÍDRICOS DA BACIA DO RIO PARAÍBA DO SUL, 3., 2018, Juiz de Fora. Anais... Juiz de Fora: Universidade Federal de Juiz de Fora, 2018.| Biblioteca(s): Embrapa Gado de Leite. |
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| 15. | | YUYAMA, P. M.; POT, D.; DEREEPER, A.; POINTET, S.; SILVA, J. B. G. D. da; SERA, G. H.; SERA, T.; CHARMETANT, P.; DOMINGUES, D. S.; LEROY, T.; PEREIRA, L. F. P. Identificação de polimorfismos em genótipos de Coffea arabica de uma coleção da Etiópia. In: SIMPÓSIO DE PESQUISA DOS CAFÉS DO BRASIL, 8., 2013, Salvador. Sustentabilidade e inclusão Social. Brasília, DF: Embrapa Café, 2013.| Biblioteca(s): Embrapa Café. |
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| 16. | | MONTEIRO NETO, J.; COSTALONGA, L. G.; PIRES, N. O.; CARPANEZ, T. G.; GOMES, F. B. R.; BOTTREL, S. E. C.; SILVA, J. B. G.; OTENIO, M. H.; PEREIRA, R. de O. Yeast estrogen screen assay applied in the assessment of estrogenic activity removal from dairy cattle wastewater treated by anaerobic digestion. Science of the Total Environment, v. 908, 168243, 2024.| Biblioteca(s): Embrapa Gado de Leite. |
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| 17. | | JORGE, M. F.; SILVA, L. D. B. da; SILVA, J. B. G.; ALVES, D. G.; HÜTHER, C. M.; CECCHIN, D.; GUERRA, J. G. M.; SANTOS, L. M. M.; FRANCISCO, J. P.; MELO, A. C. F. de; NASCENTES, A. L.; CALLETI, R. P. K. Biological pilot treatment reduces physicochemical and microbiological parameters of dairy cattle wastewater Environmental Science and Pollution Research, v. 30, n.1 2, p. 34775-34792, 2023.| Biblioteca(s): Embrapa Agrobiologia. |
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| 18. | | BRAGA, K.; FANTIN, L. H.; CANTERI, M. G.; UTIAMADA, C. M.; MADALOSSO, T.; CAMPOS, H. D.; SILVA, D. D. da; COSTA, R. V. da; MOREIRA, L. S. O.; YADA, I. F. U.; DUARTE, A. P.; COSTA, A. A.; DIAS, A. R.; MUHL, A.; SCHIPANSKI; NAKASHIMA, C.; CHAGAS, D. F.; BETIOLI JÚNIOR, E.; BARROS, E.; BLAINSKI, E.; MOREIRA, E. N.; MEDEIROS, F. C. L.; GARCIA, F. C.; FANTIN, G. M.; COSTA, J. M.; SILVA, J. B. G. D.; ROY, J. M.; GRIGOLI, J. F. J.; NUNES JUNIOR, J.; SATO, L. N.; BELUFI, L. M. R.; MÜLLER, M. A.; TORMEN, N. R.; CARRÉ-MISSIO, V.; CUSTÓDIO, A. A. P. Novos fungicidas foliares são eficientes no controle da mancha branca e promovem ganho de produtividade no milho: uma metanálise. In: SEMINÁRIO NACIONAL DE MILHO SAFRINHA, 16., 2021, Assis. Três décadas de inovações: avanços e desafios: anais. Sete Lagoas: Associação Brasileira de Milho e Sorgo, 2021. p. 25-26.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| Registros recuperados : 18 | |
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Registro Completo
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Biblioteca(s): |
Embrapa Café. |
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Data corrente: |
05/10/2011 |
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Data da última atualização: |
05/10/2011 |
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Tipo da produção científica: |
Artigo em Anais de Congresso |
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Autoria: |
KITZBERGER, C. S. G.; SCHOLZ, M. B. S.; PEREIRA, L. F. P.; SERA, T.; SILVA, J. B. G. D.; BENASSI, M. T. |
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Afiliação: |
Instituto Agronômico do Paraná; Instituto Agronômico do Paraná; LUIZ FILIPE PROTASIO PEREIRA, SAPC; Instituto Agronômico do Paraná; Centro Tecnológico Cocari; Universidade Estadual de Londrina. |
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Título: |
Analysis of Diterpens in Green and Roasted Coffee of Coffea arabica Cultivars Growing in the Same Edapho-Climatic Conditions. |
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Ano de publicação: |
2011 |
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Fonte/Imprenta: |
In: INTERNATIONAL CONFERENCE OF COFFEE SCIENCE, 23., 2010, Bali. Proceedings... |
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Idioma: |
Inglês |
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Conteúdo: |
Lipids are important components of coffee beverage flavor and aroma. Coffee oil is rich in diterpens of the kaurane family, mainly cafestol (C20H28O3) and kahweol (C20H26O3), which have increasingly received attention in recent years due to their physiological effects in human health. However, few studies have been conducted on the effects of the genetic variability for those lipids in Coffea arabica. In this work we initiate the characterization of cafestol and kahweol in different cultivars of Coffea arabica, growing in the same edaphoclimatic conditions. Mature coffee fruits from cultivars Catuaí, Icatu and three Catucaí derived the cultivars IPR 100, IPR 102 and IPR 106. They were harvested at the Agricultural Field Station of the Coop COCARI, Mandaguari, Paraná, Brazil, from May to July 2009. Although the time of harvesting was according to the maturation of each cultivar, harvesting and post-harvesting conditions were the same for all cultivars. The five samples were subjected to medium roasting for 8 to 11 minutes at 200-210 °C, until the degree of roasting light/media (L* around 28). The extraction of diterpens was carried out in green or roasted coffee by direct saponification with KOH, extraction with terc-butyl methyl ether, and clean up with water. A reverse-phase HPLC column with isocratic elution with acetonitrile/water (55/45 v/v) was used for detection and quantification of kahweol at 290 nm and cafestol at 220 nm. In green beans, the level of kahweol was higher than cafestol, for all three IPR cultivars. Meanwhile, the inverse was observed for green beans cultivars Catuaí and Icatu, where cafestol levels were higher than kahweol. The higher levels of kahweol in relation to cafestol were again observed in roasted coffee of the three IPR cultivars. In cultivars Icatu the values for kahweol and cafestol were similar (635 and 683 mg/100 g, respectively). The highest levels of kahweol were observed in cultivar IPR 106 (1096 mg/100 g). The cultivar IPR 102 showed the highest level of cafestol (394 mg/100g). Association of this data with gene expression profile can be useful to find genes involved in cafestol and kahweol metabolism as well as to develop molecular markers for diterpens in coffee. MenosLipids are important components of coffee beverage flavor and aroma. Coffee oil is rich in diterpens of the kaurane family, mainly cafestol (C20H28O3) and kahweol (C20H26O3), which have increasingly received attention in recent years due to their physiological effects in human health. However, few studies have been conducted on the effects of the genetic variability for those lipids in Coffea arabica. In this work we initiate the characterization of cafestol and kahweol in different cultivars of Coffea arabica, growing in the same edaphoclimatic conditions. Mature coffee fruits from cultivars Catuaí, Icatu and three Catucaí derived the cultivars IPR 100, IPR 102 and IPR 106. They were harvested at the Agricultural Field Station of the Coop COCARI, Mandaguari, Paraná, Brazil, from May to July 2009. Although the time of harvesting was according to the maturation of each cultivar, harvesting and post-harvesting conditions were the same for all cultivars. The five samples were subjected to medium roasting for 8 to 11 minutes at 200-210 °C, until the degree of roasting light/media (L* around 28). The extraction of diterpens was carried out in green or roasted coffee by direct saponification with KOH, extraction with terc-butyl methyl ether, and clean up with water. A reverse-phase HPLC column with isocratic elution with acetonitrile/water (55/45 v/v) was used for detection and quantification of kahweol at 290 nm and cafestol at 220 nm. In green beans, the level of kahweol was hig... Mostrar Tudo |
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Thesagro: |
Coffea Arábica. |
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Thesaurus NAL: |
Cultivars. |
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Categoria do assunto: |
-- |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/42900/1/Analysis-of-diterpens-in-green.pdf
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Marc: |
LEADER 02908nam a2200193 a 4500
001 1902421
005 2011-10-05
008 2011 bl uuuu u00u1 u #d
100 1 $aKITZBERGER, C. S. G.
245 $aAnalysis of Diterpens in Green and Roasted Coffee of Coffea arabica Cultivars Growing in the Same Edapho-Climatic Conditions.$h[electronic resource]
260 $aIn: INTERNATIONAL CONFERENCE OF COFFEE SCIENCE, 23., 2010, Bali. Proceedings...$c2011
520 $aLipids are important components of coffee beverage flavor and aroma. Coffee oil is rich in diterpens of the kaurane family, mainly cafestol (C20H28O3) and kahweol (C20H26O3), which have increasingly received attention in recent years due to their physiological effects in human health. However, few studies have been conducted on the effects of the genetic variability for those lipids in Coffea arabica. In this work we initiate the characterization of cafestol and kahweol in different cultivars of Coffea arabica, growing in the same edaphoclimatic conditions. Mature coffee fruits from cultivars Catuaí, Icatu and three Catucaí derived the cultivars IPR 100, IPR 102 and IPR 106. They were harvested at the Agricultural Field Station of the Coop COCARI, Mandaguari, Paraná, Brazil, from May to July 2009. Although the time of harvesting was according to the maturation of each cultivar, harvesting and post-harvesting conditions were the same for all cultivars. The five samples were subjected to medium roasting for 8 to 11 minutes at 200-210 °C, until the degree of roasting light/media (L* around 28). The extraction of diterpens was carried out in green or roasted coffee by direct saponification with KOH, extraction with terc-butyl methyl ether, and clean up with water. A reverse-phase HPLC column with isocratic elution with acetonitrile/water (55/45 v/v) was used for detection and quantification of kahweol at 290 nm and cafestol at 220 nm. In green beans, the level of kahweol was higher than cafestol, for all three IPR cultivars. Meanwhile, the inverse was observed for green beans cultivars Catuaí and Icatu, where cafestol levels were higher than kahweol. The higher levels of kahweol in relation to cafestol were again observed in roasted coffee of the three IPR cultivars. In cultivars Icatu the values for kahweol and cafestol were similar (635 and 683 mg/100 g, respectively). The highest levels of kahweol were observed in cultivar IPR 106 (1096 mg/100 g). The cultivar IPR 102 showed the highest level of cafestol (394 mg/100g). Association of this data with gene expression profile can be useful to find genes involved in cafestol and kahweol metabolism as well as to develop molecular markers for diterpens in coffee.
650 $aCultivars
650 $aCoffea Arábica
700 1 $aSCHOLZ, M. B. S.
700 1 $aPEREIRA, L. F. P.
700 1 $aSERA, T.
700 1 $aSILVA, J. B. G. D.
700 1 $aBENASSI, M. T.
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