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| Registros recuperados : 171 | |
| 23. |  | RODRIGUES, F.; MAGALHAES, J. V. de; GUIMARAES, C. T.; TARDIN, F. D.; SCHAFFERT, R. E. Seleção de linhagens de sorgo granífero eficientes e responsivas à aplicação de fósforo. Pesquisa Agropecuária Brasileira, Brasília, DF, v. 49, n. 8, p. 613-621, ago. 2014.| Biblioteca(s): Embrapa Milho e Sorgo; Embrapa Unidades Centrais. |
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| 25. | | CARNEIRO, A. A.; CARNEIRO, M. H.; MAGALHAES, J. V. de; CARNEIRO, N. P.; GUIMARAES, C. T. Superexpressão do gene AltSB, aluminum tolerance Sorghum bicolor, em plantas transgências de milho. In: CONGRESSO NACIONAL DE MILHO E SORGO, 27.; SIMPOSIO BRASILEIRO SOBRE A LAGARTA-DO-CARTUCHO, SPODOPTERA FRUGIPERDA, 3.; WORKSHOP SOBRE MANEJO E ETIOLOGIA DA MANCHA BRANCA DO MILHO, 2008, Londrina. Agroenergia, produção de alimentos e mudanças climáticas: desafios para milho e sorgo: trabalhos e palestras. [Londrina]: IAPAR; [Sete Lagoas]: Embrapa Milho e Sorgo, 2008. 1 CD-ROM.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 30. | | MAGALHAES, P. C.; PEREIRA, F. J.; SCHAFFERT, R. E.; MAGALHAES, J. V. de. Características morfo-fisiológicas e de produção de seis genótipos de sorgo submetidos ao estresse hídrico. In: CONGRESSO NACIONAL DE MILHO E SORGO, 28.; SIMPÓSIO BRASILEIRO SOBRE A LAGARTA DO CARTUCHO, 4., 2010, Goiânia. Potencialidades, desafios e sustentabilidade: resumos expandidos... Sete Lagoas: ABMS, 2010. 1 CD-ROM.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 31. | | CHOUGULE, K, M.; OLSON, A.; MAGALHAES, J. V. de; VAN BUREN, P.; WANG, L.; WARE, D. Assessing new tools and best practices for RNA seq data analysis and visualization with iPlant cyberinfrastructure. In: MEETING ON GENOMIC INFORMATICS, 2015, New York. Abstracts of papers. New York: Cold Spring Harbor Laboratory, 2015. p. 64.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 35. | | PITTA, G. V. E.; COELHO, A. M.; ALVES, V. M. C.; FRANCA, G. E. de; MAGALHAES, J. V. de. Adubação: adubação de plantio e cobertura. In: RODRIGUES, J. A. S.; VERSIANI, R. P.; FERREIRA, M. T. R. (Ed.). Cultivo do sorgo. Sete Lagoas: Embrapa Milho e Sorgo, 2000. (Embrapa Milho e Sorgo. Sistema de produção, 2).| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 36. | | PITTA, G. V. E.; COELHO, A. M.; ALVES, V. M. C.; FRANCA, G. E. de; MAGALHAES, J. V. de. Adubação: calagem e gessagem. In: RODRIGUES, J. A. S.; VERSIANI, R. P.; FERREIRA, M. T. R. (Ed.). Cultivo do sorgo. Sete Lagoas: Embrapa Milho e Sorgo, 2000. (Embrapa Milho e Sorgo. Sistema de produção, 2).| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 37. | | ALVES, V. M. C.; MAGALHAES, J. V. de; KOCHIAN, L. V.; PARENTONI, S. N.; PAIVA, E.; GARVIN, D. F. Acumulação de alumínio em ápices de raízes de milho. In: REUNIAO BRASILEIRA DE FERTILIDADE DO SOLO E NUTRICAO DE PLANTAS, 24.; REUNIAO BRASILEIRA SOBRE MICORRIZAS, 8.; SIMPOSIO BRASILEIRO DE MICROBIOLOGIA DO SOLO, 6.; REUNIAO BRASILEIRA DE BIOLOGIA DO SOLO, 3., 2000, Santa Maria, RS. Biodinâmica do solo: guia do congressista. [Viçosa, MG]: Sociedade Brasileira de Ciência do Solo; [São Paulo]: Sociedade Brasileira de Microbiologia; Santa Maria, RS: Universidade Federal de Santa Maria, Departamento de Solos, 2000. Fertbio 2000. p. 151.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 38. | | NEGRI, B. F.; HUFNAGEL, B. M.; PASTINA, M. M.; MAGALHAES, J. V. de; SOUSA, S. M. de. Avaliação das características morfológicas do sistema radicular de linhagens recombinantes endogâmicas de sorgo em solução nutritiva sob estresse de fósforo. In: CONGRESSO NACIONAL DE MILHO E SORGO, 30.; SIMPÓSIO SOBRE LEPDÓPTEROS COMUNS A MILHO, SOJA E ALGODÃO, 1., 2014, Salvador. Eficiência nas cadeias produtivas e o abastecimento global: resumos expandidos. Sete Lagoas: Associação Brasileira de Milho e Sorgo, 2014. 1 CD-ROM.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| 40. | | SOUSA, S. M. de; PARENTONI, S. N.; GUIMARAES, C. T.; MAGALHAES, J. V. de; VASCONCELOS, M. J. V. de. Análise da morfologia do sistema radicular e da expressão de genes visando a associação com a eficiência na aquisição de fósforo em milho. In: CONGRESSO NACIONAL DE MILHO E SORGO, 28.; SIMPÓSIO BRASILEIRO SOBRE A LAGARTA DO CARTUCHO, 4., 2010, Goiânia. Potencialidades, desafios e sustentabilidade: resumos expandidos... Sete Lagoas: ABMS, 2010. 1 CD-ROM.| Biblioteca(s): Embrapa Milho e Sorgo. |
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| Registros recuperados : 171 | |
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Registro Completo
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Biblioteca(s): |
Embrapa Milho e Sorgo. |
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Data corrente: |
26/09/2018 |
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Data da última atualização: |
26/09/2018 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Circulação/Nível: |
A - 1 |
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Autoria: |
MAGALHAES, J. V. de; PIÑEROS, M. A.; MACIEL, L. S.; KOCHIAN, L. V. |
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Afiliação: |
JURANDIR VIEIRA DE MAGALHAES, CNPMS; Miguel A. Piñeros, Cornell University; Laiane S. Maciel, Universidade Federal de Minas Gerais; Leon V. Kochian, University of Saskatchewan. |
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Título: |
Emerging pleiotropic mechanisms underlying aluminum resistance and phosphorus acquisition on acidic soils. |
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Ano de publicação: |
2018 |
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Fonte/Imprenta: |
Frontiers in Plant Science, v. 9. p. 1-12, 2018. |
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DOI: |
10.3389/fpls.2018.01420 |
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Idioma: |
Inglês |
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Notas: |
Article 1420. |
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Conteúdo: |
Aluminum (Al) toxicity on acidic soils significantly damages plant roots and inhibits root growth. Hence, crops intoxicated by Al become more sensitive to drought stress and mineral nutrient deficiencies, particularly phosphorus (P) deficiency, which is highly unavailable on tropical soils. Advances in our understanding of the physiological and genetic mechanisms that govern plant Al resistance have led to the identification of Al resistance genes, both in model systems and in crop species. It has long been known that Al resistance has a beneficial effect on crop adaptation to acidic soils. This positive effect happens because the root systems of Al resistant plants show better development in the presence of soil ionic Al3C and are, consequently, more efficient in absorbing sub-soil water and mineral nutrients. This effect of Al resistance on crop production, by itself, warrants intensified efforts to develop and implement, on a breeding scale, modern selection strategies to profit from the knowledge of the molecular determinants of plant Al resistance. Recent studies now suggest that Al resistance can exert pleiotropic effects on P acquisition, potentially expanding the role of Al resistance on crop adaptation to acidic soils. This appears to occur via both organic acid (OA)- and non-OA transporters governing a joint, iron-dependent interplay between Al resistance and enhanced P uptake, via changes in root system architecture. Current research suggests this interplay to be part of a P stress response, suggesting that this mechanism could have evolved in crop species to improve adaptation to acidic soils. Should this pleiotropism prove functional in crop species grown on acidic soils, molecular breeding based on Al resistance genes may have a much broader impact on crop performance than previously anticipated. To explore this possibility, here we review the components of this putative effect of Al resistance genes on P stress responses and P nutrition to provide the foundation necessary to discuss the recent evidence suggesting pleiotropy as a genetic linkage between Al resistance and P efficiency. We conclude by exploring what may be needed to enhance the utilization of Al resistance genes to improve crop production on acidic soils. MenosAluminum (Al) toxicity on acidic soils significantly damages plant roots and inhibits root growth. Hence, crops intoxicated by Al become more sensitive to drought stress and mineral nutrient deficiencies, particularly phosphorus (P) deficiency, which is highly unavailable on tropical soils. Advances in our understanding of the physiological and genetic mechanisms that govern plant Al resistance have led to the identification of Al resistance genes, both in model systems and in crop species. It has long been known that Al resistance has a beneficial effect on crop adaptation to acidic soils. This positive effect happens because the root systems of Al resistant plants show better development in the presence of soil ionic Al3C and are, consequently, more efficient in absorbing sub-soil water and mineral nutrients. This effect of Al resistance on crop production, by itself, warrants intensified efforts to develop and implement, on a breeding scale, modern selection strategies to profit from the knowledge of the molecular determinants of plant Al resistance. Recent studies now suggest that Al resistance can exert pleiotropic effects on P acquisition, potentially expanding the role of Al resistance on crop adaptation to acidic soils. This appears to occur via both organic acid (OA)- and non-OA transporters governing a joint, iron-dependent interplay between Al resistance and enhanced P uptake, via changes in root system architecture. Current research suggests this interplay to be ... Mostrar Tudo |
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Thesagro: |
Alumínio; Fósforo; Melhoramento Vegetal. |
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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/183518/1/Emerging-pleiotropic.pdf
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Marc: |
LEADER 02936naa a2200217 a 4500
001 2096304
005 2018-09-26
008 2018 bl uuuu u00u1 u #d
024 7 $a10.3389/fpls.2018.01420$2DOI
100 1 $aMAGALHAES, J. V. de
245 $aEmerging pleiotropic mechanisms underlying aluminum resistance and phosphorus acquisition on acidic soils.$h[electronic resource]
260 $c2018
500 $aArticle 1420.
520 $aAluminum (Al) toxicity on acidic soils significantly damages plant roots and inhibits root growth. Hence, crops intoxicated by Al become more sensitive to drought stress and mineral nutrient deficiencies, particularly phosphorus (P) deficiency, which is highly unavailable on tropical soils. Advances in our understanding of the physiological and genetic mechanisms that govern plant Al resistance have led to the identification of Al resistance genes, both in model systems and in crop species. It has long been known that Al resistance has a beneficial effect on crop adaptation to acidic soils. This positive effect happens because the root systems of Al resistant plants show better development in the presence of soil ionic Al3C and are, consequently, more efficient in absorbing sub-soil water and mineral nutrients. This effect of Al resistance on crop production, by itself, warrants intensified efforts to develop and implement, on a breeding scale, modern selection strategies to profit from the knowledge of the molecular determinants of plant Al resistance. Recent studies now suggest that Al resistance can exert pleiotropic effects on P acquisition, potentially expanding the role of Al resistance on crop adaptation to acidic soils. This appears to occur via both organic acid (OA)- and non-OA transporters governing a joint, iron-dependent interplay between Al resistance and enhanced P uptake, via changes in root system architecture. Current research suggests this interplay to be part of a P stress response, suggesting that this mechanism could have evolved in crop species to improve adaptation to acidic soils. Should this pleiotropism prove functional in crop species grown on acidic soils, molecular breeding based on Al resistance genes may have a much broader impact on crop performance than previously anticipated. To explore this possibility, here we review the components of this putative effect of Al resistance genes on P stress responses and P nutrition to provide the foundation necessary to discuss the recent evidence suggesting pleiotropy as a genetic linkage between Al resistance and P efficiency. We conclude by exploring what may be needed to enhance the utilization of Al resistance genes to improve crop production on acidic soils.
650 $aAlumínio
650 $aFósforo
650 $aMelhoramento Vegetal
700 1 $aPIÑEROS, M. A.
700 1 $aMACIEL, L. S.
700 1 $aKOCHIAN, L. V.
773 $tFrontiers in Plant Science$gv. 9. p. 1-12, 2018.
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Embrapa Milho e Sorgo (CNPMS) |
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