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| Registros recuperados : 47 | |
| 6. |  | SCHEEREN, P. L.; ALBUQUERQUE, A. C. S.; FERNANDES, M. I. B. M.; PANDOLFI, V.; MARTINS, L. F. Desenvolvimento de germoplasma, via haplodiploidização, para melhoria da qualidade panificativa do trigo brasileiro. In: CONGRESSO BRASILEIRO DE MELHORAMENTO DE PLANTAS, 1., 2001, Goiânia. Anais... Goiânia: Embrapa Arroz e Feijão, 2001. 1 CD-ROM. (Embrapa Arroz e Feijão. Documentos, 113). Editado por Elcio Perpetuo Guimaraes. Autoria: Ana Christina de Albuquerque Zanatta| Biblioteca(s): Embrapa Trigo. |
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| 9. | | BRAMMER, S.; FERNANDES, M. I. B. de M.; MINELLA, E.; ARIAS, G.; SÓ e SILVA, M.; IORCZESKI, E. J.; SILVA, A. L. S.; PANDOLFI, V. Haplodiploidização e identificação de genótipos de cevada com capacidade androgenética no programa de melhoramento da Embrapa Trigo. In: REUNIÃO ANUAL DE PESQUISA DE CEVADA, 19., 1999, Passo Fundo. Anais... Passo Fundo: Embrapa Trigo, 1999. p. 93-97 (Embrapa Trigo. Documentos, 5).| Biblioteca(s): Embrapa Trigo. |
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| 10. | | BRAMMER, S. P.; FERNANDES, M. I. B. de M.; MINELLA, E.; ARIAS, G.; SÓ e SILVA, M.; IORCZESKI, E. J.; SILVA, A. L. S. da; PANDOLFI, V. Haplodiploidização e identificação de genótipos de cevada com capacidade androgenética no programa de melhoramento da Embrapa Trigo. In: REUNIÃO NACIONAL DE PESQUISA DE TRIGO, 18., 1999, Passo Fundo. Anais... Passo Fundo: Embrapa Trigo, 1999. v. 1 p. 188-193| Biblioteca(s): Embrapa Trigo. |
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| 11. | | BRAMMER, S. P.; MORAES FERNANDES, M. I. B. de; MINELLA, E.; ARIAS, G.; SÓ e SILVA, M.; IORCZESKI, E.; PANDOLFI, V.; BOSCARDIN, D. Eficiência do meio FHGA para a haplodiploidização de cevada na Embrapa Trigo. Genetics and Molecular Biology, v. 22, n. 3, p. 675-676, Oct. 1999. Supplement. Programa e Resumos do 45. Congresso Nacional de Genética, Gramado, 1999. Resumo 17-055.| Biblioteca(s): Embrapa Trigo. |
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| 12. | | MORAES FERNANDES, M. I. B.; ZANATTA, A. C. A.; PRESTES, A. M.; CAETANO, V. da R.; BARCELLOS, A. L.; ANGRA, D. C.; PANDOLFI, V. Cytogenetics and immature embryo culture at Embrapa Trigo breeding program: transfer of disease resistance from related species by artificial resynthesis of hexaploid wheat (Triticum aestivum L. em. Thell). Genetics and Molecular Biology, v. 23, n. 4, p. 1051-1062, 2000.| Biblioteca(s): Embrapa Trigo. |
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| 13. | | FERREIRA-NETO, J. R. C.; SILVA, M. D. da; BENKO-ISEPPON, A. M.; PANDOLFI, V.; BINNECK, E.; NEPOMUCENO, A. L.; ABDELNOOR, R. V.; KIDO, E. A. Inositol phosphates and Raffinose family oligosaccharides pathways: Structural genomics and transcriptomics in soybean under root dehydration Plant Gene, v. 20, 100202, 2019. 13 p.| Biblioteca(s): Embrapa Soja. |
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| 14. | | KIDO, E. A.; PANDOLFI, V.; HOULLOU-KIDO, L. M.; ANDRADE, F. C.; MARCELINO, F. C.; NEPOMUCENO, A. L.; ABDELNOOR, R. V.; BURNQUIST, W. L.; BENKO-ISEPPON, A. M. Plant antimicrobial peptides: an overview of superSAGE transcriptional profile and a functional review. Current Protein & Peptide Science, v. 11, n. 3, p. 220-230, May 2010.| Biblioteca(s): Embrapa Soja. |
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| 15. | | MEDEIROS, C. D.; FERREIRA NETO, M. J.; OLIVEIRA, M. T.; RIVAS, R.; PANDOLFI, V.; KIDO, E. A.; BALDANI, J. I.; SANTOS, M. G. Photosynthesis, antioxidant activities and trasncriptional responses in two sugarcane (Saccharum officinarum L.) cultivars under salts stress. Acta Physiologiae Plantarum Online, octubre, 2013.| Biblioteca(s): Embrapa Agrobiologia. |
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| 16. | | SOARES-CAVALCANTI, N. M.; BELARMINO, L. C.; KIDO, E. A.; PANDOLFI, V.; MARCELINO-GUIMARÃES, F. C.; RODRIGUES, F. A.; PEREIRA, G. A. G.; BENKO-ISEPPON, A. M. Overall picture of expressed Heat Shock Factors in Glycine max, Lotus japonicus and Medicago truncatula. Genetics and Molecular Biology, Ribeirão Preto, v. 35, n. 1, suppl., p. 247-259, May 2012.| Biblioteca(s): Embrapa Soja. |
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| 17. | | ARAÚJO, F. T. de; PANDOLFI, V.; FERREIRA NETO, J. R.; SANTOS, R. F. dos; MORGANTE, C. V.; MELO, N. F. de; ISEPPON, A. M. B. Seleção de candidatos a genes referência para estudos de expressão gênica em Stylosanthes scabra. In: ENCONTRO DE GENÉTICA DO NORDESTE, 21., 2016, Recife. Anais... Ribeirão Preto: SBG; Recife: UFPE: UFRPE: UPE, 2016. p. 89.| Biblioteca(s): Embrapa Semiárido. |
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| 18. | | BARBOSA, P. K. A; CALSA JUNIOR, T; PANDOLFI, V.; KIDO, E. A.; ROCHA, M. de M.; SITTOLIN, I. M; ANDRADE, G. P; PIO-RIBEIRO, G.; BENKO-ISEPPON, A. M. Análise transcricional de Vigna unguiculata infectada por potyvírus (CABMV) através de LongSAGE. In: CONGRESSO BRASILEIRO DE GENÉTICA, 54., 2008, Salvador. Resumos... Salvador: SBG, 2008. p. 246| Biblioteca(s): Embrapa Meio-Norte. |
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| 19. | | ONOFRE, A. V. C.; AMORIM, L. L. B.; PANDOLFI, V.; KIDO, E. A.; SITTOLIN, I. M.; ROCHA, M. M.; FREIRE FILHO, F. R.; ANDRADE, G. P.; PIO-RIBEIRO, G.; ISEPPON, A. M. B. Análise de segregantes na identificação de marcadores ligados a genes de resistência a virose em feijão-caupi. In: CONGRESSO BRASILEIRO DE FISIOLOGIA VEGETAL, 12., 2009, Fortaleza. Desafios para a produção de alimentos e bioenergia: livro de resumos. Fortaleza: SBFV: UFC: Embrapa Agroindústria Tropical, 2009. p. 27-28. Resumo 69.| Biblioteca(s): Embrapa Meio-Norte. |
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| 20. | | BRASILEIRO-VIDAL, A. C.; BORTOLETI, K. C. A.; BENKO-ISEPPON, A. M.; VASCONCELOS, E. V. V.; FONSÊCA, A.; PEDROSA-HARAND, A.; OLIVEIRA, A. R. S.; BELARMINO, L. C.; AMORIM, L. L. B.; ABDELNOOR, R. V.; PANDOLFI, V.; MELO, N. F. Citogenética comparativa em leguminosas cultivadas. In: CONGRESO ARGENTINO DE GENÉTICA, 40., SIMPÓSIO LATINOAMERICANO DE CITOGENÉTICA Y EVOLUCIÓN, 3., JORNADAS SAG-NEA, 1., 2011, Buenos Aires. Journal of Basic & Apllied Genetics, v. 51, Supp., p. S19-20, 2011.| Biblioteca(s): Embrapa Soja. |
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| Registros recuperados : 47 | |
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Registro Completo
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Biblioteca(s): |
Embrapa Soja. |
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Data corrente: |
18/06/2012 |
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Data da última atualização: |
23/07/2012 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Circulação/Nível: |
A - 2 |
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Autoria: |
SOARES-CAVALCANTI, N. M.; BELARMINO, L. C.; KIDO, E. A.; PANDOLFI, V.; MARCELINO-GUIMARÃES, F. C.; RODRIGUES, F. A.; PEREIRA, G. A. G.; BENKO-ISEPPON, A. M. |
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Afiliação: |
NINA M. SOARES-CAVALCANTI, UFPE; LUÍS C. BELARMINO, UFPE; EDERSON A. KIDO, UFPE; VALESCA PANDOLFI, UFPE; FRANCISMAR CORREA MARCELINO, CNPSO; FABIANA A. RODRIGUES, CNPSo; GONÇALO A. G. PEREIRA, UNICAMP; ANA M. BENKO-ISEPPON, UFPE. |
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Título: |
Overall picture of expressed Heat Shock Factors in Glycine max, Lotus japonicus and Medicago truncatula. |
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Ano de publicação: |
2012 |
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Fonte/Imprenta: |
Genetics and Molecular Biology, Ribeirão Preto, v. 35, n. 1, suppl., p. 247-259, May 2012. |
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Idioma: |
Inglês |
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Conteúdo: |
Heat shock (HS) leads to the activation of molecular mechanisms, known as HS-response, that prevent damage and enhance survival under stress. Plants have a flexible and specialized network of Heat Shock Factors (HSFs), which are transcription factors that induce the expression of heat shock proteins. The present work aimed to identify and characterize the Glycine max HSF repertory in the Soybean Genome Project (GENOSOJA platform), comparing them with other legumes (Medicago truncatula and Lotus japonicus) in view of current knowledge of Arabidopsis thaliana. The HSF characterization in leguminous plants led to the identification of 25, 19 and 21 candidate ESTs in soybean, Lotus and Medicago, respectively. A search in the SuperSAGE libraries revealed 68 tags distributed in seven HSF gene types. From the total number of obtained tags, more than 70% were related to root tissues (water deficit stress libraries vs. controls), indicating their role in abiotic stress responses, since the root is the first tissue to sense and respond to abiotic stress. Moreover, as heat stress is related to the pressure of dryness, a higher HSF expression was expected at the water deficit libraries. On the other hand, expressive HSF candidates were obtained from the library inoculated with Asian Soybean Rust, inferring crosstalk among genes associated with abiotic and biotic stresses. Evolutionary relationships among sequences were consistent with different HSF classes and subclasses. Expression profiling indicated that regulation of specific genes is associated with the stage of plant development and also with stimuli from other abiotic stresses pointing to the maintenance of HSF expression at a basal level in soybean, favoring its activation under heat-stress conditions. MenosHeat shock (HS) leads to the activation of molecular mechanisms, known as HS-response, that prevent damage and enhance survival under stress. Plants have a flexible and specialized network of Heat Shock Factors (HSFs), which are transcription factors that induce the expression of heat shock proteins. The present work aimed to identify and characterize the Glycine max HSF repertory in the Soybean Genome Project (GENOSOJA platform), comparing them with other legumes (Medicago truncatula and Lotus japonicus) in view of current knowledge of Arabidopsis thaliana. The HSF characterization in leguminous plants led to the identification of 25, 19 and 21 candidate ESTs in soybean, Lotus and Medicago, respectively. A search in the SuperSAGE libraries revealed 68 tags distributed in seven HSF gene types. From the total number of obtained tags, more than 70% were related to root tissues (water deficit stress libraries vs. controls), indicating their role in abiotic stress responses, since the root is the first tissue to sense and respond to abiotic stress. Moreover, as heat stress is related to the pressure of dryness, a higher HSF expression was expected at the water deficit libraries. On the other hand, expressive HSF candidates were obtained from the library inoculated with Asian Soybean Rust, inferring crosstalk among genes associated with abiotic and biotic stresses. Evolutionary relationships among sequences were consistent with different HSF classes and subclasses. Expression pro... Mostrar Tudo |
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Palavras-Chave: |
Bioinformática. |
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Thesagro: |
Gene; Genoma; Soja. |
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Thesaurus NAL: |
Abiotic stress; Bioinformatics; Genes; Genome; Soybeans; Transcription factors. |
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Categoria do assunto: |
S Ciências Biológicas |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/61075/1/gmb.overall.v35n1s.247-259.2012.pdf
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Marc: |
LEADER 02713naa a2200325 a 4500
001 1926601
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008 2012 bl uuuu u00u1 u #d
100 1 $aSOARES-CAVALCANTI, N. M.
245 $aOverall picture of expressed Heat Shock Factors in Glycine max, Lotus japonicus and Medicago truncatula.
260 $c2012
520 $aHeat shock (HS) leads to the activation of molecular mechanisms, known as HS-response, that prevent damage and enhance survival under stress. Plants have a flexible and specialized network of Heat Shock Factors (HSFs), which are transcription factors that induce the expression of heat shock proteins. The present work aimed to identify and characterize the Glycine max HSF repertory in the Soybean Genome Project (GENOSOJA platform), comparing them with other legumes (Medicago truncatula and Lotus japonicus) in view of current knowledge of Arabidopsis thaliana. The HSF characterization in leguminous plants led to the identification of 25, 19 and 21 candidate ESTs in soybean, Lotus and Medicago, respectively. A search in the SuperSAGE libraries revealed 68 tags distributed in seven HSF gene types. From the total number of obtained tags, more than 70% were related to root tissues (water deficit stress libraries vs. controls), indicating their role in abiotic stress responses, since the root is the first tissue to sense and respond to abiotic stress. Moreover, as heat stress is related to the pressure of dryness, a higher HSF expression was expected at the water deficit libraries. On the other hand, expressive HSF candidates were obtained from the library inoculated with Asian Soybean Rust, inferring crosstalk among genes associated with abiotic and biotic stresses. Evolutionary relationships among sequences were consistent with different HSF classes and subclasses. Expression profiling indicated that regulation of specific genes is associated with the stage of plant development and also with stimuli from other abiotic stresses pointing to the maintenance of HSF expression at a basal level in soybean, favoring its activation under heat-stress conditions.
650 $aAbiotic stress
650 $aBioinformatics
650 $aGenes
650 $aGenome
650 $aSoybeans
650 $aTranscription factors
650 $aGene
650 $aGenoma
650 $aSoja
653 $aBioinformática
700 1 $aBELARMINO, L. C.
700 1 $aKIDO, E. A.
700 1 $aPANDOLFI, V.
700 1 $aMARCELINO-GUIMARÃES, F. C.
700 1 $aRODRIGUES, F. A.
700 1 $aPEREIRA, G. A. G.
700 1 $aBENKO-ISEPPON, A. M.
773 $tGenetics and Molecular Biology, Ribeirão Preto$gv. 35, n. 1, suppl., p. 247-259, May 2012.
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Embrapa Soja (CNPSO) |
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