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Biblioteca (s) : |
INIA Las Brujas. |
Fecha : |
25/04/2018 |
Actualizado : |
25/04/2018 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Autor : |
GALLINO, J.P.; RUIBAL, C.; CASARETTO, E.; FLEITAS, A.L.; BONNECARRERE, V.; BORSANI, O.; VIDAL, S. |
Afiliación : |
JUAN P. GALLINO, Universidad de la República (UdelaR)/ Facultad de Ciencias; CECILIA RUIBAL, Universidad de la República (UdelaR)/ Facultad de Ciencias; ESTEBAN CASARETTO, Universidad de la República (UdelaR)/ Facultad de Agronomía; ANDREA L. FLEITAS, Universidad de la República (UdelaR)/ Facultad de Ciencias; MARIA VICTORIA BONNECARRERE MARTINEZ, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; OMAR BORSANI, Universidad de la República (UdelaR)/ Facultad de Agronomía; SABINA VIDAL, Universidad de la República (UdelaR)/ Facultad de Ciencias. |
Título : |
A dehydration-induced eukaryotic translation initiation factor iso4G identified in a slow wilting soybean cultivar enhances abiotic stress tolerance in Arabidopsis. |
Fecha de publicación : |
2018 |
Fuente / Imprenta : |
Frontiers in Plant Science, 2018, v.9, Article number 262. (2 March 2018). OPEN ACCESS |
DOI : |
10.3389/fpls.2018.00262 |
Idioma : |
Inglés |
Notas : |
Article history: Received: 22 December 2017; Accepted: 14 February 2018; Published: 02 March 2018. |
Contenido : |
ABSTRACT.
Water is usually the main limiting factor for soybean productivity worldwide and yet advances in genetic improvement for drought resistance in this crop are still limited. In the present study, we investigated the physiological and molecular responses to drought in two soybean contrasting genotypes, a slow wilting N7001 and a drought sensitive TJS2049 cultivars. Measurements of stomatal conductance, carbon isotope ratios and accumulated dry matter showed that N7001 responds to drought by employing mechanisms resulting in a more efficient water use than TJS2049. To provide an insight into the molecular mechanisms that these cultivars employ to deal with water stress, their early and late transcriptional responses to drought were analyzed by suppression subtractive hybridization. A number of differentially regulated genes from N7001 were identified and their expression pattern was compared between in this genotype and TJS2049. Overall, the data set indicated that N7001 responds to drought earlier than TJ2049 by up-regulating a larger number of genes, most of them encoding proteins with regulatory and signaling functions. The data supports the idea that at least some of the phenotypic differences between slow wilting and drought sensitive plants may rely on the regulation of the level and timing of expression of specific genes. One of the genes that exhibited a marked N7001-specific drought induction profile encoded a eukaryotic translation initiation factor iso4G (GmeIFiso4G-1a). GmeIFiso4G-1a is one of four members of this protein family in soybean, all of them sharing high sequence identity with each other. In silico analysis of GmeIFiso4G-1 promoter sequences suggested a possible functional specialization between distinct family members, which can attain differences at the transcriptional level. Conditional overexpression of GmeIFiso4G-1a in Arabidopsis conferred the transgenic plants increased tolerance to osmotic, salt, drought and low temperature stress, providing a strong experimental evidence for a direct association between a protein of this class and general abiotic stress tolerance mechanisms. Moreover, the results of this work reinforce the importance of the control of protein synthesis as a central mechanism of stress adaptation and opens up for new strategies for improving crop performance under stress.
© 2018 Gallino, Ruibal, Casaretto, Fleitas, Bonnecarrère, Borsani and Vidal. MenosABSTRACT.
Water is usually the main limiting factor for soybean productivity worldwide and yet advances in genetic improvement for drought resistance in this crop are still limited. In the present study, we investigated the physiological and molecular responses to drought in two soybean contrasting genotypes, a slow wilting N7001 and a drought sensitive TJS2049 cultivars. Measurements of stomatal conductance, carbon isotope ratios and accumulated dry matter showed that N7001 responds to drought by employing mechanisms resulting in a more efficient water use than TJS2049. To provide an insight into the molecular mechanisms that these cultivars employ to deal with water stress, their early and late transcriptional responses to drought were analyzed by suppression subtractive hybridization. A number of differentially regulated genes from N7001 were identified and their expression pattern was compared between in this genotype and TJS2049. Overall, the data set indicated that N7001 responds to drought earlier than TJ2049 by up-regulating a larger number of genes, most of them encoding proteins with regulatory and signaling functions. The data supports the idea that at least some of the phenotypic differences between slow wilting and drought sensitive plants may rely on the regulation of the level and timing of expression of specific genes. One of the genes that exhibited a marked N7001-specific drought induction profile encoded a eukaryotic translation initiation factor iso4G (Gm... Presentar Todo |
Palabras claves : |
ABIOTIC STRESS; ARABIDOPSIS; DROUGHT; EIFiso4G; SOYBEAN CROP; TRANSLATION INITIATION. |
Asunto categoría : |
-- |
URL : |
http://www.ainfo.inia.uy/digital/bitstream/item/9385/1/Frontiers-in-Plant-Science.-2018.fpls-09-00262.pdf
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Marc : |
LEADER 03453naa a2200289 a 4500 001 1058480 005 2018-04-25 008 2018 bl uuuu u00u1 u #d 024 7 $a10.3389/fpls.2018.00262$2DOI 100 1 $aGALLINO, J.P. 245 $aA dehydration-induced eukaryotic translation initiation factor iso4G identified in a slow wilting soybean cultivar enhances abiotic stress tolerance in Arabidopsis.$h[electronic resource] 260 $c2018 500 $aArticle history: Received: 22 December 2017; Accepted: 14 February 2018; Published: 02 March 2018. 520 $aABSTRACT. Water is usually the main limiting factor for soybean productivity worldwide and yet advances in genetic improvement for drought resistance in this crop are still limited. In the present study, we investigated the physiological and molecular responses to drought in two soybean contrasting genotypes, a slow wilting N7001 and a drought sensitive TJS2049 cultivars. Measurements of stomatal conductance, carbon isotope ratios and accumulated dry matter showed that N7001 responds to drought by employing mechanisms resulting in a more efficient water use than TJS2049. To provide an insight into the molecular mechanisms that these cultivars employ to deal with water stress, their early and late transcriptional responses to drought were analyzed by suppression subtractive hybridization. A number of differentially regulated genes from N7001 were identified and their expression pattern was compared between in this genotype and TJS2049. Overall, the data set indicated that N7001 responds to drought earlier than TJ2049 by up-regulating a larger number of genes, most of them encoding proteins with regulatory and signaling functions. The data supports the idea that at least some of the phenotypic differences between slow wilting and drought sensitive plants may rely on the regulation of the level and timing of expression of specific genes. One of the genes that exhibited a marked N7001-specific drought induction profile encoded a eukaryotic translation initiation factor iso4G (GmeIFiso4G-1a). GmeIFiso4G-1a is one of four members of this protein family in soybean, all of them sharing high sequence identity with each other. In silico analysis of GmeIFiso4G-1 promoter sequences suggested a possible functional specialization between distinct family members, which can attain differences at the transcriptional level. Conditional overexpression of GmeIFiso4G-1a in Arabidopsis conferred the transgenic plants increased tolerance to osmotic, salt, drought and low temperature stress, providing a strong experimental evidence for a direct association between a protein of this class and general abiotic stress tolerance mechanisms. Moreover, the results of this work reinforce the importance of the control of protein synthesis as a central mechanism of stress adaptation and opens up for new strategies for improving crop performance under stress. © 2018 Gallino, Ruibal, Casaretto, Fleitas, Bonnecarrère, Borsani and Vidal. 653 $aABIOTIC STRESS 653 $aARABIDOPSIS 653 $aDROUGHT 653 $aEIFiso4G 653 $aSOYBEAN CROP 653 $aTRANSLATION INITIATION 700 1 $aRUIBAL, C. 700 1 $aCASARETTO, E. 700 1 $aFLEITAS, A.L. 700 1 $aBONNECARRERE, V. 700 1 $aBORSANI, O. 700 1 $aVIDAL, S. 773 $tFrontiers in Plant Science, 2018$gv.9, Article number 262. (2 March 2018). OPEN ACCESS
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INIA Las Brujas (LB) |
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| Acceso al texto completo restringido a Biblioteca INIA La Estanzuela. Por información adicional contacte bib_le@inia.org.uy. |
Registro completo
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Biblioteca (s) : |
INIA La Estanzuela. |
Fecha actual : |
13/03/2017 |
Actualizado : |
09/10/2019 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
Internacional - -- |
Autor : |
HARRIET, J.; CAMPÁ, J.P.; GRAJALES, M.; LHÉRITIERC, CH.; GÓMEZ PAJUELOD, A.; MENDOZA, Y.; CARRASCO-LETELIER, L. |
Afiliación : |
JORGE HARRIET, MGAP-DILAVE .Sección Apicultura, Montevideo, Uruguay.; JUAN PABLO CAMPÁ, MGAP -DILAVE .Sección Apicultura, Montevideo, Uruguay.; MAURICIO GRAJALES, Apícola Integral Las Piedras, Canelones, Uruguay; CHRISTOPHE LHÉRITIERC, Asociación de Exportadores de Miel, Uruguay.; ANTONIO GÓMEZ PAJUELOD, Pajuelo Consultores Apícolas, Sant Miquel 14, 12004 Castellón, España.; YAMANDU MENDOZA SPINA, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; LEONIDAS CARRASCO-LETELIER, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay. |
Título : |
Agricultural pesticides and veterinary substances in Uruguayan beeswax. |
Fecha de publicación : |
2017 |
Fuente / Imprenta : |
Chemosphere, v.177, p.77-83, 2017. |
DOI : |
10.1016/j.chemosphere.2017.02.131 |
Idioma : |
Inglés |
Notas : |
Article History: Received 4 November 2016 // Revised 10 February 2017// Accepted 25 February 2017 // Available online 28 February 2017. |
Contenido : |
Abstract
Over the last decade, Uruguay has expanded and intensified its rainfed crop production. This process has affected beekeeping in several ways: for example, by reducing the space available. This has increased the density of apiaries, the risk of varroosis and acaricide use. Additionally, the dominance of no-tillage crops has increased the frequencies of application and of loads of pesticides in regions where such crops share the land with beekeeping and honey production. Therefore, the exposure of bees to xenobiotics (agricultural pesticides and veterinary products) has increased in line with pollution of hives and their products. To document pollution from hive exposure to pesticides, we surveyed the presence of 30 xenobiotics normally used in Uruguay, in recycled beeswax (RB) and in honey cappings (HC) from the main Uruguayan beekeeping regions. There was contamination of all the analyzed samples (RB and HC) with the herbicide atrazine at a range of 1–2 ng g?1. At least three or four additional xenobiotics were detected: insecticides (chlorpyrifos-ethyl and thiacloprid); fungicides (azoxystrobin and tebuconazole); and veterinary products (coumaphos, ethion, and tau-fluvalinate). The frequency of detection of chlorpyrifos-ethyl and coumaphos in RB samples was higher than in those of HC. Moreover, the concentrations of azoxystrobin, coumaphos, and tebuconazole in RB samples were higher than in HC samples. Therefore, we suggest the use of HC to produce recycled printed beeswax films for use in hives to minimize pollution transfer. MenosAbstract
Over the last decade, Uruguay has expanded and intensified its rainfed crop production. This process has affected beekeeping in several ways: for example, by reducing the space available. This has increased the density of apiaries, the risk of varroosis and acaricide use. Additionally, the dominance of no-tillage crops has increased the frequencies of application and of loads of pesticides in regions where such crops share the land with beekeeping and honey production. Therefore, the exposure of bees to xenobiotics (agricultural pesticides and veterinary products) has increased in line with pollution of hives and their products. To document pollution from hive exposure to pesticides, we surveyed the presence of 30 xenobiotics normally used in Uruguay, in recycled beeswax (RB) and in honey cappings (HC) from the main Uruguayan beekeeping regions. There was contamination of all the analyzed samples (RB and HC) with the herbicide atrazine at a range of 1–2 ng g?1. At least three or four additional xenobiotics were detected: insecticides (chlorpyrifos-ethyl and thiacloprid); fungicides (azoxystrobin and tebuconazole); and veterinary products (coumaphos, ethion, and tau-fluvalinate). The frequency of detection of chlorpyrifos-ethyl and coumaphos in RB samples was higher than in those of HC. Moreover, the concentrations of azoxystrobin, coumaphos, and tebuconazole in RB samples were higher than in HC samples. Therefore, we suggest the use of HC to produce recycled printe... Presentar Todo |
Palabras claves : |
ABEJA DE LA MIEL; CERA DE ABEJAS; SALUD DE LA COLMENA. |
Thesagro : |
ABEJAS; ACARICIDAS; PLAGUICIDAS. |
Asunto categoría : |
-- |
Marc : |
LEADER 02493naa a2200289 a 4500 001 1056823 005 2019-10-09 008 2017 bl uuuu u00u1 u #d 024 7 $a10.1016/j.chemosphere.2017.02.131$2DOI 100 1 $aHARRIET, J. 245 $aAgricultural pesticides and veterinary substances in Uruguayan beeswax.$h[electronic resource] 260 $c2017 500 $aArticle History: Received 4 November 2016 // Revised 10 February 2017// Accepted 25 February 2017 // Available online 28 February 2017. 520 $aAbstract Over the last decade, Uruguay has expanded and intensified its rainfed crop production. This process has affected beekeeping in several ways: for example, by reducing the space available. This has increased the density of apiaries, the risk of varroosis and acaricide use. Additionally, the dominance of no-tillage crops has increased the frequencies of application and of loads of pesticides in regions where such crops share the land with beekeeping and honey production. Therefore, the exposure of bees to xenobiotics (agricultural pesticides and veterinary products) has increased in line with pollution of hives and their products. To document pollution from hive exposure to pesticides, we surveyed the presence of 30 xenobiotics normally used in Uruguay, in recycled beeswax (RB) and in honey cappings (HC) from the main Uruguayan beekeeping regions. There was contamination of all the analyzed samples (RB and HC) with the herbicide atrazine at a range of 1–2 ng g?1. At least three or four additional xenobiotics were detected: insecticides (chlorpyrifos-ethyl and thiacloprid); fungicides (azoxystrobin and tebuconazole); and veterinary products (coumaphos, ethion, and tau-fluvalinate). The frequency of detection of chlorpyrifos-ethyl and coumaphos in RB samples was higher than in those of HC. Moreover, the concentrations of azoxystrobin, coumaphos, and tebuconazole in RB samples were higher than in HC samples. Therefore, we suggest the use of HC to produce recycled printed beeswax films for use in hives to minimize pollution transfer. 650 $aABEJAS 650 $aACARICIDAS 650 $aPLAGUICIDAS 653 $aABEJA DE LA MIEL 653 $aCERA DE ABEJAS 653 $aSALUD DE LA COLMENA 700 1 $aCAMPÁ, J.P. 700 1 $aGRAJALES, M. 700 1 $aLHÉRITIERC, CH. 700 1 $aGÓMEZ PAJUELOD, A. 700 1 $aMENDOZA, Y. 700 1 $aCARRASCO-LETELIER, L. 773 $tChemosphere$gv.177, p.77-83, 2017.
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