Age-related mechanism and its relationship with secondary metabolism and abscisic acid in Aristotelia chilensis plants subjected to drought stress
| Primer Autor |
Gonzalez-Villagra, Jorge
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| Co-autores |
Rodrigues-Salvador, Acacio#Nunes-Nesi, Adriano#Cohen, Jerry D.#Reyes-Diaz, Marjorie M.
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| Título |
Age-related mechanism and its relationship with secondary metabolism and abscisic acid in Aristotelia chilensis plants subjected to drought stress
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| Editorial |
ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER
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| Revista |
PLANT PHYSIOLOGY AND BIOCHEMISTRY
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| Lenguaje |
en
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| Resumen |
Drought stress is the most important stress factor for plants, being the main cause of agricultural crop loss in the world. Plants have developed complex mechanisms for preventing water loss and oxidative stress such as synthesis of abscisic acid (ABA) and non-enzymatic antioxidant compounds such as anthocyanins, which might help plants to cope with abiotic stress as antioxidants and for scavenging reactive oxygen species. A. chilensis (Mol.) is a pioneer species, colonizing and growing on stressed and disturbed environments. In this research, an integrated analysis of secondary metabolism in Aristotelia chilensis was done to relate ABA effects on anthocyanins biosynthesis, by comparing between young and fully-expanded leaves under drought stress. Plants were subjected to drought stress for 20 days, and physiological, biochemical, and molecular analyses were performed. The relative growth rate and plant water status were reduced in stressed plants, with young leaves significantly more affected than fully-expanded leaves beginning from the 5th day of drought stress. A. chilensis plants increased their ABA and total anthocyanin content and showed upregulation of gene expression when they were subjected to severe drought (day 20), with these effects being higher in fully-expanded leaves. Multivariate analysis indicated a significant positive correlation between transcript levels for NCED1 (9-cis-epoxycarotenoid dioxygenase) and UFGT (UDP glucose: flavonoid-3-O-glucosyltransferase) with ABA and total anthocyanin, respectively. Thus, this research provides a more comprehensive analysis of the mechanisms that allow plants to cope with drought stress. This is highlighted by the differences between young and fully-expanded leaves, showing different sensibility to stress due to their ability to synthesize anthocyanins. In addition, this ability to synthesize different and high amounts of anthocyanins could be related to higher NCED1 and MYB expression and ABA levels, enhancing drought stress tolerance.
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| Tipo de Recurso |
Artículo original
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| Description |
We would like to thank the Comision Nacional de Investigacion Cientifica y Tecnologica by PhD grant to JG-V (CONICYT at N 21130602). We also thank BestPlant Co., Curico, Chile, for providing the maqui plants. The authors JG-V and MR-D thanks Dr. Victor Polanco from Universidad Mayor for kindly providing AcUFGT primer sequences. All authors thanks Mariela Mora Garrido, biologist, and Mario Diaz Matus, biotechnologist, for their collaboration in HPLC-DAD and qRT-PCR analyses, respectively. Research at the University of Minnesota was supported by U.S. National Science Foundation grant IOS1238812 and by funds from the Gordon and Margaret Bailey Endowment for Environmental Horticulture.
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| doi |
10.1016/j.plaphy.2018.01.010
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| Formato Recurso |
pdf
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| Palabras Claves |
Anthocyanins# Fully-expanded leaves# Maqui# Phytohormone# Water stress# Young leaves
Anthocyanins# Fully-expanded leaves# Maqui# Phytohormone# Water stress# Young leaves
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| Ubicación del archivo |
http://dx.doi.org/10.1016/j.plaphy.2018.01.010
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| Categoría OCDE |
Plant Sciences
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| Materias |
antocianinas# Hojas completamente expandidas# maqui# Fitohormona# Estrés hídrico# hojas tiernas
antocianinas# Hojas completamente expandidas# maqui# Fitohormona# Estrés hídrico# hojas tiernas
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| Id de Web of Science |
WOS:000426231200015
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| Título de la cita (Recomendado-único) |
Age-related mechanism and its relationship with secondary metabolism and abscisic acid in <i>Aristotelia chilensis</i> plants subjected to drought stress
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| Identificador del recurso (Mandatado-único) |
Artículo original
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| Versión del recurso (Recomendado-único) |
version publicada
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| Editorial |
ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER
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| Revista/Libro |
PLANT PHYSIOLOGY AND BIOCHEMISTRY
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| Categoría WOS |
Ciencias de las plantas
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| ISSN |
0981-9428
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| Idioma |
en
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| Referencia del Financiador (Mandatado si es aplicable-repetible) |
ANID CONICYT 21130602#BestPlant Co.#NSF IOS1238812#Gordon and Margaret Bailey Endowment for Environmental Horticulture
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| Descripción |
We would like to thank the Comision Nacional de Investigacion Cientifica y Tecnologica by PhD grant to JG-V (CONICYT at N 21130602). We also thank BestPlant Co., Curico, Chile, for providing the maqui plants. The authors JG-V and MR-D thanks Dr. Victor Polanco from Universidad Mayor for kindly providing AcUFGT primer sequences. All authors thanks Mariela Mora Garrido, biologist, and Mario Diaz Matus, biotechnologist, for their collaboration in HPLC-DAD and qRT-PCR analyses, respectively. Research at the University of Minnesota was supported by U.S. National Science Foundation grant IOS1238812 and by funds from the Gordon and Margaret Bailey Endowment for Environmental Horticulture.
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| Formato |
pdf
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| Tipo de ruta |
hibrida#verde
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| Access Rights |
metadata
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| Derechos de acceso |
metadata
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| Página de inicio (Recomendado-único) |
749
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| Página final (Recomendado-único) |
751
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