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| 63. | | BORSOI, G. A.; BERGER, G.; GOMES, J. F.; BRENA, D. A.; LONGHI, S. J. Determinação do fator de casca para a Floresta Ombrófila Mista em estágio avançado de regeneração natural. In: SIMPÓSIO LATINO-AMERICANO SOBRE MANEJO FLORESTAL, 3., 2004, Santa Maria. Anais. Santa Maria: UFSM, Programa de Pós-Graduação em Engenharia Florestal, 2004. p. 112-116.| Biblioteca(s): Embrapa Florestas. |
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| 65. | | SANTOS, F. E. M. dos; FANTONELLI, M. A. B.; FERREIRA, R. de C.; LONGHI, S. J. Plano de arborização urbana das ruas do Conjunto Habitacional Piratini, Santa Maria, RS. In: CONGRESSO FLORESTAL ESTADUAL DO RIO GRANDE DO SUL, 9., 2003, Nova Prata, RS. Floresta: função social: anais. Nova Prata: Prefeitura Municipal, 2003. 1 CD-ROM.| Biblioteca(s): Embrapa Florestas. |
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| 69. | | LONGHI, S. J.; BRUN, E. J.; OLIVEIRA, D. M.; BRITTO FIALHO, L. E.; WOJCIECHOWSKI, J. C.; VACCARO, S. Banco de sementes do solo em três fases sucessionais de uma floresta estacional decidual em Santa Tereza, RS. Ciência Florestal, Santa Maria, v. 15, n. 3/4, p. 359-370, set. 2005.| Biblioteca(s): Embrapa Florestas. |
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| 71. | | ARAUJO, M. M.; LONGHI, S. J.; KELLING, M. B.; BORSOI, G. A.; HOPPE, J. M.; MULLER, I. Aspectos fitossociológicos em fragmento de floresta estacional decidual: agrupamento e associação de espécies. In: SIMPÓSIO LATINO-AMERICANO SOBRE MANEJO FLORESTAL, 2., 2001, Santa Maria. [Anais]. Santa Maria: Universidade Federal de Santa Maria, Centro de Ciências Rurais, Departamento de Ciências Florestais, 2001. p. 519-537. Trabalhos Voluntários.| Biblioteca(s): Embrapa Florestas. |
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| 72. | | LONGHI, S. J.; ARAUJO, M. M.; KELLING, M. B.; HOPPE, J. M.; MULLER, I.; BORSOI, G. A. Aspectos fitossociológicos de fragmento de floresta estacional decidual, Santa Maria, RS. Ciência Florestal, Santa Maria, v. 10, n. 2, p. 59-74, 2000.| Biblioteca(s): Embrapa Florestas. |
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| 76. | | AMARAL, L. de P.; FERREIRA, R. A.; LISBOA, G. dos S.; LONGHI, S. J.; WATZLAWICK, L. F. Variabilidade espacial do Índice de Diversidade de Shannon-Wiener em Floresta Ombrófila Mista. Scientia Forestalis, Piracicaba, v. 41, n. 97, p. 83-93, mar. 2013.| Biblioteca(s): Embrapa Florestas. |
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| 77. | | ALMEIDA, C. M. de; ARAUJO, M. M.; LONGHI, S. J.; ROVEDDER, A. P.; SCCOTI, M. S. V.; AVILA, M. d'; AIMI, S. C.; TONETTO, T. da S. Análise de agrupamentos em remanescente de floresta estacional decidual. Ciência Florestal, Santa Maria, v. 25, n. 3, p. 781-789, jul./set. 2015. Nota técnica.| Biblioteca(s): Embrapa Florestas. |
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| 79. | | LONGHI, S. J.; NASCIMENTO, A. R. T.; FLEIG, F. D.; FLORA, J. B. D.; FREITAS, R. A. de; CHARAO, L. W. Composicao floristica e estrutura da comunidade arborea de um fragmento florestal no municipio de Santa Maria - Brasil. Ciencia Florestal, Santa Maria, v.9, n.1, p.115-133, jun. 1999.| Biblioteca(s): Embrapa Florestas. |
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| 80. | | KÖNIG, F. G.; LONGHI, S. J.; BRUN, E. J.; KLEINPAUL, A. S. F.; CECCONI, D. E.; CORREA, R. S.; MACHADO, A. A.; KLEINPAUL, J. J.; HECK, D. F. Composição florística da arborização da Vila Santos Dumont, no Bairro Camobi - Santa Maria, RS. In: CONGRESSO FLORESTAL ESTADUAL DO RIO GRANDE DO SUL, 9., 2003, Nova Prata, RS. Floresta: função social: anais. Nova Prata: Prefeitura Municipal, 2003. 1 CD-ROM.| Biblioteca(s): Embrapa Florestas. |
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| Registros recuperados : 83 | |
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Registro Completo
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Biblioteca(s): |
Embrapa Agroenergia; Embrapa Soja. |
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Data corrente: |
18/12/2020 |
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Data da última atualização: |
26/02/2021 |
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Tipo da produção científica: |
Capítulo em Livro Técnico-Científico |
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Autoria: |
FUGANTI-PAGLIARINI, R.; MARIN, S. R. R.; MOLINARI, M. D. C.; BARBOSA, D. de A.; MOLINARI, H. B. C.; MERTZ-HENNING, L. M.; NEUMAIER, N.; FARIAS, J. R. B.; NAKASHIMA, K.; YAMAGUCHI-SHINOZAKI, K.; NEPOMUCENO, A. L. |
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Afiliação: |
Renata Fuganti-Pagliarini, National Council for Scientific and Technological Development (CNPq).; SILVANA REGINA ROCKENBACH MARIN, CNPSO; Mayla Daiane Côrrea Molinari, Universidade Estadual de Londrina, UEL, Londrina, PR.; Daniel de Amorim Barbosa, Universidade Estadual de Londrina, UEL, Londrina, PR.; HUGO BRUNO CORREA MOLINARI, CNPAE; LILIANE MARCIA MERTZ HENNING, CNPSO; NORMAN NEUMAIER, CNPSO; JOSE RENATO BOUCAS FARIAS, CNPSO; Kazuo Nakashima, Japan International Research Center for Agricultural Sciences, Tsukuba, Ibaraki 305-8686, Japan; Kazuko Yamaguchi-Shinozaki, Research Institute for Agricultural and Life Sciences, Tokyo University of Agriculture, 1-1-1 Sakuragaoka, Setagaya-ku, Tokyo 156-8502, Japan; ALEXANDRE LIMA NEPOMUCENO, CNPSO. |
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Título: |
Drought-tolerant soybean development: evaluation of GM lines under greenhouse and field conditions. |
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Ano de publicação: |
2020 |
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Fonte/Imprenta: |
In: NAKASHIMA, K.; URAO, Takeshi. (Ed.). Development of biotechnologies and biotech crops for stable food production under adverse environments and changing climate conditions. Tsukuba: JIRCAS, 2020. p. 57-88. (JIRCAS Working Report, 91). |
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Idioma: |
Inglês |
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Conteúdo: |
Drought is one of the greatest sources of environmental stress that has resulted in both economic and yield losses in many soybean-producing regions. The use of biotechnological tools aimed to produce plants with increased drought tolerance and productivity is the result of major investments in scientific and technological research. During the last decades, transcription factors (TFs) and key genes of important drought-responsive pathways have been used to develop genetically modified (GM) plants with increased tolerance to abiotic stress. To develop soybean lines with improved drought tolerance, genes encoding dehydration-responsive element binding protein (DREB) TFs and ABA-responsive element-binding proteins (AREB) as well as the GolS and NCED genes that encode the enzyme galactinol synthase (GolS, EC 2.4.1.123) of the raffinose family of oligosaccharides (RFOs) and the key enzyme in abscisic acid (ABA) biosynthesis 9-cisepoxycarotenoid dioxygenase (NCED, EC 1.13.11.51), respectively, were successfully introduced in soybean plants. After transformation, it was imperative to characterize the resultant drought tolerance of the GM lines. Thus, the soybean GM lines containing genetic constructions to overexpress AtDREB1A, GmDREB1A, AtDREB2A, AtAREB1, AtGolS2, and AtNCED3 were phenotyped based on molecular and agronomical traits, growth parameters, and survival rates under water deficit conditions in experiments carried out under greenhouse and field conditions for more than one crop season. All obtained results were compiled and are presented in this report. Overall, the GM lines are promising and show improved drought tolerance as diverse defense mechanisms aimed at surviving periods of water scarcity were targeted while retaining the productivity of the crop. These outcomes highlight soybean drought-tolerance pathways and indicate that the use of biotechnological tools in agricultural research can help producers minimize both yield and financial losses during drought-stricken crop seasons. MenosDrought is one of the greatest sources of environmental stress that has resulted in both economic and yield losses in many soybean-producing regions. The use of biotechnological tools aimed to produce plants with increased drought tolerance and productivity is the result of major investments in scientific and technological research. During the last decades, transcription factors (TFs) and key genes of important drought-responsive pathways have been used to develop genetically modified (GM) plants with increased tolerance to abiotic stress. To develop soybean lines with improved drought tolerance, genes encoding dehydration-responsive element binding protein (DREB) TFs and ABA-responsive element-binding proteins (AREB) as well as the GolS and NCED genes that encode the enzyme galactinol synthase (GolS, EC 2.4.1.123) of the raffinose family of oligosaccharides (RFOs) and the key enzyme in abscisic acid (ABA) biosynthesis 9-cisepoxycarotenoid dioxygenase (NCED, EC 1.13.11.51), respectively, were successfully introduced in soybean plants. After transformation, it was imperative to characterize the resultant drought tolerance of the GM lines. Thus, the soybean GM lines containing genetic constructions to overexpress AtDREB1A, GmDREB1A, AtDREB2A, AtAREB1, AtGolS2, and AtNCED3 were phenotyped based on molecular and agronomical traits, growth parameters, and survival rates under water deficit conditions in experiments carried out under greenhouse and field conditions for more than o... Mostrar Tudo |
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Palavras-Chave: |
9-cisepoxycarotenoid dioxygenase; ABA; AREB; DREB; Galactinol synthase. |
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Thesagro: |
Deficiência Hídrica; Glycine Max; Produção; Soja. |
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Thesaurus NAL: |
Soil water deficit; Transcription factors; Yields. |
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Categoria do assunto: |
F Plantas e Produtos de Origem Vegetal |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/219437/1/Drought-tolerant-soybean-development-evaluation-of-GM-lines-under.pdf
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Marc: |
LEADER 03314naa a2200385 a 4500
001 2128419
005 2021-02-26
008 2020 bl uuuu u00u1 u #d
100 1 $aFUGANTI-PAGLIARINI, R.
245 $aDrought-tolerant soybean development$bevaluation of GM lines under greenhouse and field conditions.$h[electronic resource]
260 $c2020
520 $aDrought is one of the greatest sources of environmental stress that has resulted in both economic and yield losses in many soybean-producing regions. The use of biotechnological tools aimed to produce plants with increased drought tolerance and productivity is the result of major investments in scientific and technological research. During the last decades, transcription factors (TFs) and key genes of important drought-responsive pathways have been used to develop genetically modified (GM) plants with increased tolerance to abiotic stress. To develop soybean lines with improved drought tolerance, genes encoding dehydration-responsive element binding protein (DREB) TFs and ABA-responsive element-binding proteins (AREB) as well as the GolS and NCED genes that encode the enzyme galactinol synthase (GolS, EC 2.4.1.123) of the raffinose family of oligosaccharides (RFOs) and the key enzyme in abscisic acid (ABA) biosynthesis 9-cisepoxycarotenoid dioxygenase (NCED, EC 1.13.11.51), respectively, were successfully introduced in soybean plants. After transformation, it was imperative to characterize the resultant drought tolerance of the GM lines. Thus, the soybean GM lines containing genetic constructions to overexpress AtDREB1A, GmDREB1A, AtDREB2A, AtAREB1, AtGolS2, and AtNCED3 were phenotyped based on molecular and agronomical traits, growth parameters, and survival rates under water deficit conditions in experiments carried out under greenhouse and field conditions for more than one crop season. All obtained results were compiled and are presented in this report. Overall, the GM lines are promising and show improved drought tolerance as diverse defense mechanisms aimed at surviving periods of water scarcity were targeted while retaining the productivity of the crop. These outcomes highlight soybean drought-tolerance pathways and indicate that the use of biotechnological tools in agricultural research can help producers minimize both yield and financial losses during drought-stricken crop seasons.
650 $aSoil water deficit
650 $aTranscription factors
650 $aYields
650 $aDeficiência Hídrica
650 $aGlycine Max
650 $aProdução
650 $aSoja
653 $a9-cisepoxycarotenoid dioxygenase
653 $aABA
653 $aAREB
653 $aDREB
653 $aGalactinol synthase
700 1 $aMARIN, S. R. R.
700 1 $aMOLINARI, M. D. C.
700 1 $aBARBOSA, D. de A.
700 1 $aMOLINARI, H. B. C.
700 1 $aMERTZ-HENNING, L. M.
700 1 $aNEUMAIER, N.
700 1 $aFARIAS, J. R. B.
700 1 $aNAKASHIMA, K.
700 1 $aYAMAGUCHI-SHINOZAKI, K.
700 1 $aNEPOMUCENO, A. L.
773 $tIn: NAKASHIMA, K.; URAO, Takeshi. (Ed.). Development of biotechnologies and biotech crops for stable food production under adverse environments and changing climate conditions. Tsukuba: JIRCAS, 2020. p. 57-88. (JIRCAS Working Report, 91).
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Embrapa Soja (CNPSO) |
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