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Registros recuperados : 27 | |
2. | | SILVA, V. N. B.; VIEIRA, L. R.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Morphological changes in Portulaca oleracea L. under salt stress. In: INOVAGRI INTERNATIONAL MEETING, 4.; CONGRESSO NACIONAL DE IRRIGAÇÃO E DRENAGEM, 26.; SIMPÓSIO BRASILEIRO DE SALINIDADE, 3., 2017, Fortaleza. Anais... Fortaleza: INOVAGRI: ABID; UFC, 2017. Não paginado. Biblioteca(s): Embrapa Agroenergia. |
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5. | | SANTOS, M. L.; SILVA, V. N. B.; VIEIRA, L. R.; CASARI, R. A. C. N.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Can Setaria viridis (A 10.1) be used as model plant for validation of genes for salinity tolerance? In: INOVAGRI INTERNATIONAL MEETING, 4.; CONGRESSO NACIONAL DE IRRIGAÇÃO E DRENAGEM, 26.; SIMPÓSIO BRASILEIRO DE SALINIDADE, 3., 2017, Fortaleza. Anais... Fortaleza: INOVAGRI: ABID; UFC, 2017. Não paginado. Biblioteca(s): Embrapa Agroenergia. |
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7. | | RODRIGUES-NETO, J. C.; CORREIA, M. V.; SOUTO, A. L.; RIBEIRO, J. A. de A.; VIEIRA, L. R.; SOUZA JUNIOR, M. T.; RODRIGUES, C. M.; ABDELNUR, P. V. Metabolic fingerprinting analysis of oil palm reveals a set of differentially expressed metabolites in fatal yellowing symptomatic and non-symptomatic plants. Metabolomics, v. 14, n. 142, 2018. Biblioteca(s): Embrapa Agroenergia. |
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8. | | CARVALHO, C. G. I.; SANTOS, M. de L.; VIEIRA, L. R.; LOPES, A. M.; CARMONA, P. A. O.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Morphophysiological responses of Setaria viridis to cold stress. Pesquisa Agropecuária Brasileira, Brasília, v.57, e02424, 2022. Título em português: Respostas morfofisiológicas de Setaria viridis ao estresse por frio. Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte; Embrapa Unidades Centrais. |
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10. | | SANTOS, M. de L.; SILVA, V. N. B. e.; VIEIRA, L. R.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Use of Setaria viridis (A10.1) as model plant for validation of genes for cold tolerance. In: BRAZILIAN CONGRESS OF PLANT PHYSIOLOGY, 16., 2017, São Pedro, SP. Abstract ... [S.l.]: Sociedade Brasileira de Fisiologia Vegetal, 2017. p. 108. Biblioteca(s): Embrapa Agroenergia. |
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11. | | LOPES NETO, J. J.; ALMEIDA, T. S. DE; MEDEIROS, J. L. DE; VIEIRA, L. R.; MOREIRA, T. B.; MAIA, A. I. V.; RIBEIRO, P. R. V.; BRITO, E. S. de; FARIAS, D. F.; CARVALHO, A. F. U. Impact of bioaccessibility and bioavailability of phenolic compounds in biological systems upon the antioxidant activity of the ethanolic extract of Triplaris gardneriana seeds. Biomedicine & Pharmacotherapy, v. 88, p. 999-1007, 2017. Biblioteca(s): Embrapa Agroindústria Tropical. |
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12. | | SALGADO, F. F.; SILVA, T. L. C. da; VIEIRA, L. R.; SILVA, V. N. B.; LEAO, A. P.; COSTA, M. M. do C.; TOGAWA, R. C.; SOUSA, C. A. F. de; GRYNBERG, P.; SOUZA JUNIOR, M. T. The early response of oil palm (Elaeis guineensis Jacq.) plants to water deprivation: Expression analysis of miRNAs and their putative target genes, and similarities with the response to salinity stress. Frontiers in Plant Science, n. 13, 970113, 2022. Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte; Embrapa Recursos Genéticos e Biotecnologia. |
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13. | | 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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14. | | 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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15. | | 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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16. | | 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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17. | | 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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18. | | YASSITEPE, J. E. de C. T.; SILVA, V. C. H. da; HERNANDES-LOPES, J.; DANTE, R. A.; GERHARDT, I. R.; FERNANDES, F. R.; SILVA, P. A. da; VIEIRA, L. R.; BONATTI, V.; ARRUDA, P. Maize transformation: from plant material to the release of genetically modified and edited varieties. Frontiers in Plant Science, v. 12, p. 1-17, Oct. 2021. Article 766702. Biblioteca(s): Embrapa Agricultura Digital. |
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19. | | SALGADO, F. F.; VIEIRA, L. R.; SILVA, V. N. B.; LEAO, A. P.; GRYNBERG, P.; COSTA, M. M. do C.; TOGAWA, R. C.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Expression analysis of miRNAs and their putative target genes confirm a preponderant role of transcription factors in the early response of oil palm plants to salinity stress. BMC Plant Biology, v. 21, n. 518, 2021. Biblioteca(s): Embrapa Agroenergia; Embrapa Meio-Norte. |
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20. | | SALGADO, F. F.; VIEIRA, L. R.; SILVA, V. N. B.; LEAO, A. P.; GRYNBERG, P.; COSTA, M. M. do C.; TOGAWA, R. C.; SOUSA, C. A. F. de; SOUZA JUNIOR, M. T. Expression analysis of miRNAs and their putative target genes confrm a preponderant role of transcription factors in the early response of oil palm plants to salinity stress. BMC Plant Biology, v. 21, 518, 2021. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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Registros recuperados : 27 | |
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Registro Completo
Biblioteca(s): |
Embrapa Agricultura Digital. |
Data corrente: |
24/11/2021 |
Data da última atualização: |
03/12/2021 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
YASSITEPE, J. E. de C. T.; SILVA, V. C. H. da; HERNANDES-LOPES, J.; DANTE, R. A.; GERHARDT, I. R.; FERNANDES, F. R.; SILVA, P. A. da; VIEIRA, L. R.; BONATTI, V.; ARRUDA, P. |
Afiliação: |
JULIANA ERIKA DE C T YASSITEPE, CNPTIA; VIVIANE CRISTINA HEINZEN DA SILVA, UNICAMP; JOSÉ HERNANDES-LOPES, Colaborador CNPTIA, UNICAMP; RICARDO AUGUSTO DANTE, CNPTIA; ISABEL RODRIGUES GERHARDT, CNPTIA; FERNANDA RAUSCH FERNANDES, CNPTIA; PRISCILA ALVES DA SILVA, UNICAMP; LETICIA RIOS VIEIRA, UNICAMP; VANESSA BONATTI, UNICAMP; PAULO ARRUDA, UNICAMP. |
Título: |
Maize transformation: from plant material to the release of genetically modified and edited varieties. |
Ano de publicação: |
2021 |
Fonte/Imprenta: |
Frontiers in Plant Science, v. 12, p. 1-17, Oct. 2021. |
DOI: |
https://doi.org/10.3389/fpls.2021.766702 |
Idioma: |
Inglês |
Notas: |
Article 766702. |
Conteúdo: |
Over the past decades, advances in plant biotechnology have allowed the development of genetically modified maize varieties that have significantly impacted agricultural management and improved the grain yield worldwide. To date, genetically modified varieties represent 30% of the world´s maize cultivated area and incorporate traits such as herbicide, insect and disease resistance, abiotic stress tolerance, high yield, and improved nutritional quality. Maize transformation, which is a prerequisite for genetically modified maize development, is no longer a major bottleneck. Protocols using morphogenic regulators have evolved significantly towards increasing transformation frequency and genotype independence. Emerging technologies using either stable or transient expression and tissue culture-independent methods, such as direct genome editing using RNA-guided endonuclease system as an in vivo desired-target mutator, simultaneous double haploid production and editing/haploid-inducer-mediated genome editing, and pollen transformation, are expected to lead significant progress in maize biotechnology. This review summarises the significant advances in maize transformation protocols, technologies, and applications and discusses the current status, including a pipeline for trait development and regulatory issues related to current and future genetically modified and genetically edited maize varieties. |
Palavras-Chave: |
Gene editing; Genetic modification; Maize; Modificação genética; Morphogenic regulator-mediated transformation; Plant biotechnology; Plant transformation; Transformação de planta. |
Thesagro: |
Biotecnologia; Genética; Genética Vegetal; Milho. |
Thesaurus NAL: |
Biotechnology; Genetics; Plant genetics. |
Categoria do assunto: |
-- |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/228048/1/AP-Maize-Transformation-2021.pdf
|
Marc: |
LEADER 02711naa a2200433 a 4500 001 2136495 005 2021-12-03 008 2021 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.3389/fpls.2021.766702$2DOI 100 1 $aYASSITEPE, J. E. de C. T. 245 $aMaize transformation$bfrom plant material to the release of genetically modified and edited varieties.$h[electronic resource] 260 $c2021 500 $aArticle 766702. 520 $aOver the past decades, advances in plant biotechnology have allowed the development of genetically modified maize varieties that have significantly impacted agricultural management and improved the grain yield worldwide. To date, genetically modified varieties represent 30% of the world´s maize cultivated area and incorporate traits such as herbicide, insect and disease resistance, abiotic stress tolerance, high yield, and improved nutritional quality. Maize transformation, which is a prerequisite for genetically modified maize development, is no longer a major bottleneck. Protocols using morphogenic regulators have evolved significantly towards increasing transformation frequency and genotype independence. Emerging technologies using either stable or transient expression and tissue culture-independent methods, such as direct genome editing using RNA-guided endonuclease system as an in vivo desired-target mutator, simultaneous double haploid production and editing/haploid-inducer-mediated genome editing, and pollen transformation, are expected to lead significant progress in maize biotechnology. This review summarises the significant advances in maize transformation protocols, technologies, and applications and discusses the current status, including a pipeline for trait development and regulatory issues related to current and future genetically modified and genetically edited maize varieties. 650 $aBiotechnology 650 $aGenetics 650 $aPlant genetics 650 $aBiotecnologia 650 $aGenética 650 $aGenética Vegetal 650 $aMilho 653 $aGene editing 653 $aGenetic modification 653 $aMaize 653 $aModificação genética 653 $aMorphogenic regulator-mediated transformation 653 $aPlant biotechnology 653 $aPlant transformation 653 $aTransformação de planta 700 1 $aSILVA, V. C. H. da 700 1 $aHERNANDES-LOPES, J. 700 1 $aDANTE, R. A. 700 1 $aGERHARDT, I. R. 700 1 $aFERNANDES, F. R. 700 1 $aSILVA, P. A. da 700 1 $aVIEIRA, L. R. 700 1 $aBONATTI, V. 700 1 $aARRUDA, P. 773 $tFrontiers in Plant Science$gv. 12, p. 1-17, Oct. 2021.
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