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| Registros recuperados : 110 | |
| 81. |  | BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; VIEIRA, L. R.; LEAO, A. P.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Insights from a Multi-Omics Integration (MOI) Study in Oil Palm (Elaeis gineensis Jacq.) Response to Abiotic Stresses: Part One?Salinity. Plants, 11, n. 1755, 2022.| Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte. |
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| 82. | | LEAO, A. P.; BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; BRAGA, I. de O.; VIEIRA, L. R.; RIBEIRO, J. A. de A.; SOUSA, C. A. F. de; ABDELNUR, P. V.; SOUZA JUNIOR, M. T. Insights from a Multi-Omics Integration (MOI) Study in Oil Palm (Elaeis gineensis Jacq.) Response to Abiotic Stresses: Part Two - Drought. Plants, 11, n. 2786, 2022.| Biblioteca(s): Embrapa Agroenergia. |
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| 83. | | LEAO, A. P.; BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; BRAGA, Í. de O.; VIEIRA, L. R.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Insights from a Multi-Omics Integration (MOI) study in Oil Palm (Elaeis guineensis Jacq.) response to abiotic stresses: Part Two-Drought. Plants, v. 11, n. 20, 2786, Oct. 2022.| Biblioteca(s): Embrapa Meio-Norte. |
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| 84. | | BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; VIEIRA, L. R.; LEAO, A. P.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Insights from a Multi-Omics Integration (MOI) study in oil palm (ELAEIS GUINEENSIS JACQ.) response to salinity and drought stresses. In: BRAZILIAN CONGRESS OF GENETICS, 67., 2022, Natal, RN. Porto Alegre: Sociedade Brasileira de Genética, 2022. p. 394| Biblioteca(s): Embrapa Agroenergia. |
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| 85. | | BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; VIEIRA, L. R.; LEAO, A. P.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Insights from a Multi-Omics Integration (MOI) study in oil palm (ELAEIS GUINEENSIS JACQ.) response to salinity and drought stresses. In: BRAZILIAN CONGRESS OF GENETICS, 67., 2022, Natal, RN. p. 394| Biblioteca(s): Embrapa Meio-Norte. |
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| 86. | | SILVA, T. L. C. da; SILVA, V. N. B.; BRAGA, I. de O.; RODRIGUES NETO, J. C.; LEAO, A. P.; RIBEIRO, J. A. de A.; VALADARES, L. F.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Integration of metabolomics and transcriptomics data to further characterize Gliricidia sepium (Jacq.) Kunth under high salinity stress. Plant Genome, e20182, 2021.| Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte. |
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| 87. | | RODRIGUES NETO, J. C.; VARGAS, L. H. G.; RIBEIRO, J. A. de A.; SILVA, M. E. R. da; SOUZA JUNIOR, M. T.; RODRIGUES, C. M.; OLIVEIRA, A. E. de; ABDELNUR, P. V. Impressão digital metabólica de folhas de Elaeis guineensis em diferentes condições de preparo de amostra utilizando UHPLC-MS. In: ENCONTRO DE PESQUISA E INOVAÇÃO DA EMBRAPA AGROENERGIA, 3., 2016, Brasília, DF. Anais ... Brasília, DF: Embrapa, 2016. p. 237-245.| Biblioteca(s): Embrapa Agroenergia. |
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| 88. | | FONTES, P. R.; RIBEIRO, J. A. de A.; COSTA, P. P. K. G.; DAMASO, M. C. T.; GONZALEZ, W. de A.; SANTOS, C. M. C. dos; ABDELNUR, P. V.; RODRIGUES, C. M. Development and validation of a HILIC-UPLC-ELSD method based on optimized chromatographic and detection parameters for the quantification of polyols from bioconversion processes. Analytical Methods, v. 8, p. 2048-2057, 2016.| Biblioteca(s): Embrapa Agroenergia. |
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| 89. | | NETO, J. C. R.; RICCI-SILVA, M. E.; SANTOS, C. F. dos; COSTA, P. P. K. G.; RIBEIRO, J. A. de A.; SIQUEIRA, F. G. de; ABDELNUR, P. V. Desenvolvimento de protocolo analítico para identificação de proteínas em frutos de dendê utilizando MALDI(+)-TOF-MS In: CONGRESSO BRASILEIRO DE QUÍMICA, 55., 2015, Goiânia. Recursos renováveis: inovação e tecnologia. Rio de Janeiro: ABQ, 2015.| Biblioteca(s): Embrapa Agroenergia. |
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| 90. | | GOMES, T. G.; MACHADO, A. E. V.; ARAÚJO, A. P.; LAVIOLA, B. G.; RIBEIRO, J. A. de A.; CAMPANHA, R. B.; HELM, C. V.; MENDONCA, S.; SIQUEIRA, F. G. de. Degradação de ésteres de forbol da torta de pinhão-manso por macrofungos e potencial como substrato para produção de cogumelos comestíveis. In: ENCONTRO DE PESQUISA E INOVAÇÃO DA EMBRAPA AGROENERGIA, 2., 2015, Brasília, DF. Anais ... Brasília, DF: Embrapa Agroenergia, 2015. p. 95-97.| Biblioteca(s): Embrapa Florestas. |
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| 91. | | GOMES, T. G.; MACHADO, A. E. V.; ARAÚJO, A. P.; LAVIOLA, B. G.; RIBEIRO, J. A. de A.; CAMPANHA, R. B.; HELM, C. V.; MENDONCA, S.; SIQUEIRA, F. G. de. Degradação de ésteres de forbol da torta de pinhão-manso por macrofungos e potencial como substrato para produção de cogumelos comestíveis. In: ENCONTRO DE PESQUISA E INOVAÇÃO DA EMBRAPA AGROENERGIA, 2., 2015, Brasília, DF. Anais ... Brasília, DF: Embrapa Agroenergia, 2015. 95 - 97| Biblioteca(s): Embrapa Agroenergia. |
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| 92. | | BRAGA, Í. de O.; SILVA, T. L. C. da; SILVA, V. N. B.; RODRIGUES NETO, J. C.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Deep untargeted metabolomics analysis to further characterize the adaptation response of Gliricidia sepium (Jacq.) Walp. to very high salinity stress. Frontiers in Plant Science, v. 13, Art. 869105, May, 2022.| Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte. |
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| 93. | | BARROS, T. de F. S.; MEDEIROS, E. P. de; ALMEIDA, P. B. A. de; SOUSA, G. R. M. de; ARRIEL, N. H. C.; QUEIROZ, M. F. de; MENDONCA, S.; RIBEIRO, J. A. de A.; FERNANDES, P. D. Determinação do perfil lipídico das espécies: pinhão manso, pinhão bravo e pinhão roxo. CONGRESSO BRASILEIRO DE MAMONA, 5.; SIMPÓSIO INTERNACIONAL DE OLEAGINOSAS ENERGÉTICAS, 2.; FÓRUM CAPIXABA DE PINHÃO-MANSO, 1., 2012, Guarapari. Desafios e Oportunidades: anais. Campina Grande: Embrapa Algodão, 2012. p. 401| Biblioteca(s): Embrapa Agroenergia; Embrapa Algodão. |
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| 94. | | BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; LEAO, A. P.; RIBEIRO, J. A. de A.; MAIA, A. de H. N.; SOUSA, C. A. F. de; QUIRINO, B. F.; SOUZA JÚNIOR, M. T. Molecular interplay between non-host resistance, pathogens and basal immunity as a background for fatal yellowing in oil palm (Elaeis guineensis Jacq.) plants. International Journal of Molecular Sciences, v. 24, n. 16, article 12918, 2023.| Biblioteca(s): Embrapa Agroenergia; Embrapa Meio Ambiente; Embrapa Meio-Norte. |
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| 95. | | VARGAS, L. H. G.; RODRIGUES NETO, J. C.; RIBEIRO, J. A. de A.; RICCI-SILVA, M. E.; SOUZA JUNIOR, M. T.; RODRIGUES, C. M.; OLIVEIRA, A. E. DE; ABDELNUR, P. V. Metabolomics analysis of oil palm (Elaeis guineensis) leaf: evaluation of sample preparation steps using UHPLC?MS/MS. Metabolomics, v. 12, n. 10, artigo número 153, 2016.| Biblioteca(s): Embrapa Agroenergia. |
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| 96. | | SILVA, M. R. da; BRAGAGNOLO, F. S.; CARNEIRO. R. L.; PEREIRA, I. de O. C.; RIBEIRO, J. A. de A.; RODRIGUES, C. M.; JELLEY, R. E.; FEDRIZZI, B.; FUNARI, C. S. Metabolite characterization of fifteen by-products of the coffee production chain: From farm to factory. Food Chemistry, v. 369, 130753, Feb. 2022. 17 p.| Biblioteca(s): Embrapa Agroenergia. |
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| 97. | | CAMPOS, C. G.; VERAS, H. C. T.; RIBEIRO, J. A. de A.; COSTA, P. P. K. G.; ARAÚJO, K. P.; RODRIGUES, C. M.; ALMEIDA, J. R. M. de; ABDELNUR, P. V. New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts. Journal of the American Society for Mass Spectrometry, v. 28, n. 12, p. 2646-2657, 2017. p. 2646-2657| Biblioteca(s): Embrapa Agroenergia. |
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| 98. | | SILVA, V. N. B.; SILVA, T. L. C. da; FERREIRA, T. M. M.; RODRIGUES NETO, J. C.; LEAO, A. P.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; VALADARES, L. F.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Multi-omics analysis of young Portulaca Oleracea L. plants' responses to High NaCl doses reveals insights into pathways and genes responsive to salinity stress in this halophyte species. Phenomics, 2022. Published online: 15 June 2022.| Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte. |
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| 99. | | GOMES, T. G.; HADI, S. I. I. A.; RIBEIRO, J. A. de A.; SEGATTO, R.; MENDES, T. D.; HELM, C. V.; CHAGAS JÚNIOR, A. F.; MILLER, R. N. G.; MENDONCA, S.; SIQUEIRA, F. G. de. Phorbol ester biodegradation in Jatropha curcas cake and potential as a substrate for enzyme and Pleurotus pulmonarius edible mushroom production. Biocatalysis and Agricultural Biotechnology, v. 45, 102498, Oct., 2022. 13 p.| Biblioteca(s): Embrapa Agroenergia; Embrapa Florestas. |
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| 100. | | PEREIRA, C. B.; SILVA, R. M. C. da; POLETTO, C. M.; CAMPOS, C. G.; RIBEIRO, J. A. de A.; RODRIGUES, C. M.; ABDELNUR, P. V.; ALMEIDA, J. R. M. de; DAMASO, M. C. T. Screening of microorganisms for production of aggregated-value chemicals from glycerin bioconversion. In: SYMPOSIUM ON BIOTECHNOLOGY FOR FUELS AND CHEMICALS, 37., 2015, San Diego, California. [Resumos ...] Fairfax: Society for Industrial Microbiology and Biotechnology, 2015.| Biblioteca(s): Embrapa Agroenergia. |
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| Registros recuperados : 110 | |
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Registro Completo
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Biblioteca(s): |
Embrapa Agroenergia; Embrapa Meio-Norte. |
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Data corrente: |
21/07/2022 |
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Data da última atualização: |
21/07/2022 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Circulação/Nível: |
A - 4 |
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Autoria: |
BITTENCOURT, C. B.; SILVA, T. L. C. da; RODRIGUES NETO, J. C.; VIEIRA, L. R.; LEAO, A. P.; RIBEIRO, J. A. de A.; ABDELNUR, P. V.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. |
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Afiliação: |
CLEITON BARROSO BITTENCOURT, Universidade Federal de Lavras; THALLITON LUIZ CARVALHO DA SILVA, Universidade Federal de Lavras; JORGE CÂNDIDO RODRIGUES NETO; LETÍCIA RIOS VIEIRA, Universidade Federal de Lavras; ANDRE PEREIRA LEAO, CNPAE; JOSE ANTONIO DE AQUINO RIBEIRO, CNPAE; PATRICIA VERARDI ABDELNUR, CNPAE; CARLOS ANTONIO FERREIRA DE SOUSA, CPAMN; MANOEL TEIXEIRA SOUZA JUNIOR, CNPAE. |
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Título: |
Insights from a Multi-Omics Integration (MOI) Study in Oil Palm (Elaeis gineensis Jacq.) Response to Abiotic Stresses: Part One?Salinity. |
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Ano de publicação: |
2022 |
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Fonte/Imprenta: |
Plants, 11, n. 1755, 2022. |
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DOI: |
https://doi.org/10.3390/plants11131755 |
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Idioma: |
Inglês |
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Conteúdo: |
Oil palm (Elaeis guineensis Jacq.) is the number one source of consumed vegetable oil nowadays. It is cultivated in areas of tropical rainforest, where it meets its natural condition of high rainfall throughout the year. The palm oil industry faces criticism due to a series of practices that was considered not environmentally sustainable, and it finds itself under pressure to adopt new and innovative procedures to reverse this negative public perception. Cultivating this oilseed crop outside the rainforest zone is only possible using artificial irrigation. Close to 30% of the world?s irrigated agricultural lands also face problems due to salinity stress. Consequently, the research community must consider drought and salinity together when studying to empower breeding programs in order to develop superior genotypes adapted to those potential new areas for oil palm cultivation. Multi-Omics Integration (MOI) offers a new window of opportunity for the non-trivial challenge of unraveling the mechanisms behind multigenic traits, such as drought and salinity tolerance. The current study carried out a comprehensive, large-scale, single-omics analysis (SOA), and MOI study on the leaves of young oil palm plants submitted to very high salinity stress. Taken together, a total of 1239 proteins were positively regulated, and 1660 were negatively regulated in transcriptomics and proteomics analyses. Meanwhile, the metabolomics analysis revealed 37 metabolites that were upregulated and 92 that were downregulated. After performing SOA, 436 differentially expressed (DE) full-length transcripts, 74 DE proteins, and 19 DE metabolites ffected by this stress, with at least one DE molecule in all three omics platforms used. The Cysteine and methionine metabolism (map00270) and Glycolysis/Gluconeogenesis (map00010) pathways were the most affected ones, each one with 20 DE molecules. MenosOil palm (Elaeis guineensis Jacq.) is the number one source of consumed vegetable oil nowadays. It is cultivated in areas of tropical rainforest, where it meets its natural condition of high rainfall throughout the year. The palm oil industry faces criticism due to a series of practices that was considered not environmentally sustainable, and it finds itself under pressure to adopt new and innovative procedures to reverse this negative public perception. Cultivating this oilseed crop outside the rainforest zone is only possible using artificial irrigation. Close to 30% of the world?s irrigated agricultural lands also face problems due to salinity stress. Consequently, the research community must consider drought and salinity together when studying to empower breeding programs in order to develop superior genotypes adapted to those potential new areas for oil palm cultivation. Multi-Omics Integration (MOI) offers a new window of opportunity for the non-trivial challenge of unraveling the mechanisms behind multigenic traits, such as drought and salinity tolerance. The current study carried out a comprehensive, large-scale, single-omics analysis (SOA), and MOI study on the leaves of young oil palm plants submitted to very high salinity stress. Taken together, a total of 1239 proteins were positively regulated, and 1660 were negatively regulated in transcriptomics and proteomics analyses. Meanwhile, the metabolomics analysis revealed 37 metabolites that were upregulated and 92 t... Mostrar Tudo |
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Palavras-Chave: |
African oil palm; Integratomics. |
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Thesaurus NAL: |
Abiotic stress; Metabolomics; Proteomics; Transcriptomics. |
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Categoria do assunto: |
-- |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1144868/1/MANOEL-SEG-12.15.00.007.00.19-Bittencourt-et-al-2022.pdf
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Marc: |
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260 $c2022
520 $aOil palm (Elaeis guineensis Jacq.) is the number one source of consumed vegetable oil nowadays. It is cultivated in areas of tropical rainforest, where it meets its natural condition of high rainfall throughout the year. The palm oil industry faces criticism due to a series of practices that was considered not environmentally sustainable, and it finds itself under pressure to adopt new and innovative procedures to reverse this negative public perception. Cultivating this oilseed crop outside the rainforest zone is only possible using artificial irrigation. Close to 30% of the world?s irrigated agricultural lands also face problems due to salinity stress. Consequently, the research community must consider drought and salinity together when studying to empower breeding programs in order to develop superior genotypes adapted to those potential new areas for oil palm cultivation. Multi-Omics Integration (MOI) offers a new window of opportunity for the non-trivial challenge of unraveling the mechanisms behind multigenic traits, such as drought and salinity tolerance. The current study carried out a comprehensive, large-scale, single-omics analysis (SOA), and MOI study on the leaves of young oil palm plants submitted to very high salinity stress. Taken together, a total of 1239 proteins were positively regulated, and 1660 were negatively regulated in transcriptomics and proteomics analyses. Meanwhile, the metabolomics analysis revealed 37 metabolites that were upregulated and 92 that were downregulated. After performing SOA, 436 differentially expressed (DE) full-length transcripts, 74 DE proteins, and 19 DE metabolites ffected by this stress, with at least one DE molecule in all three omics platforms used. The Cysteine and methionine metabolism (map00270) and Glycolysis/Gluconeogenesis (map00010) pathways were the most affected ones, each one with 20 DE molecules.
650 $aAbiotic stress
650 $aMetabolomics
650 $aProteomics
650 $aTranscriptomics
653 $aAfrican oil palm
653 $aIntegratomics
700 1 $aSILVA, T. L. C. da
700 1 $aRODRIGUES NETO, J. C.
700 1 $aVIEIRA, L. R.
700 1 $aLEAO, A. P.
700 1 $aRIBEIRO, J. A. de A.
700 1 $aABDELNUR, P. V.
700 1 $aSOUSA, C. A. F. de
700 1 $aSOUZA JUNIOR, M. T.
773 $tPlants, 11$gn. 1755, 2022.
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