Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves

Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves

Quinoa (Chenopodium quinoa Willd.) is a highly nutritious pseudocereal with an outstanding protein, vitamin, mineral and nutraceutical content. The leaves, flowers and seed coat of quinoa contain triterpenoid saponins, which impart bitterness to the grain and make them unpalatable without postharvest removal of the saponins. In this study, we quantified saponin content in quinoa leaves from Ecuadorian sweet and bitter genotypes and assessed the expression of saponin biosynthetic genes in leaf samples elicited with methyl jasmonate. We found saponin accumulation in leaves after MeJA treatment in both ecotypes tested. As no reference genes were available to perform qPCR in quinoa, we mined publicly available RNA-Seq data for orthologs of 22 genes known to be stably expressed in Arabidopsis thaliana using geNorm, NormFinder and BestKeeper algorithms. The quinoa ortholog of At2g28390 (Monensin Sensitivity 1, MON1) was stably expressed and chosen as a suitable reference gene for qPCR analysis. Candidate saponin biosynthesis genes were screened in the quinoa RNA-Seq data and subsequent functional characterization in yeast led to the identification of CqbAS1, CqCYP716A78 and CqCYP716A79. These genes were found to be induced by MeJA, suggesting this phytohormone might also modulate saponin biosynthesis in quinoa leaves. Knowledge of the saponin biosynthesis and its regulation in quinoa may aid the further development of sweet cultivars that do not require postharvest processing.

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Main Authors: Fiallos-Jurado, Jennifer, Pollier, Jacob, Moses, Tessa, Arendt, Philipp, Barriga-Medina, Noelia, Morillo, Eduardo, Arahana, Venancio, Torres, Maria de Lourdes, Goossens, Alain, León Reyes, Antonio
Format: Journal articles biblioteca
Language:English
Published: 2016-09
Subjects:QUINUA, CHENOPODIUM QUINOA, SAPONINAS, CULTIVOS ANDINOS,
Online Access:http://repositorio.iniap.gob.ec/handle/41000/4838
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spelling dig-iniap-41000-48382023-11-08T03:52:59Z Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves Plant Science 250:188–197 Fiallos-Jurado, Jennifer Pollier, Jacob Moses, Tessa Arendt, Philipp Barriga-Medina, Noelia Morillo, Eduardo Arahana, Venancio Torres, Maria de Lourdes Goossens, Alain León Reyes, Antonio QUINUA CHENOPODIUM QUINOA SAPONINAS CULTIVOS ANDINOS Quinoa (Chenopodium quinoa Willd.) is a highly nutritious pseudocereal with an outstanding protein, vitamin, mineral and nutraceutical content. The leaves, flowers and seed coat of quinoa contain triterpenoid saponins, which impart bitterness to the grain and make them unpalatable without postharvest removal of the saponins. In this study, we quantified saponin content in quinoa leaves from Ecuadorian sweet and bitter genotypes and assessed the expression of saponin biosynthetic genes in leaf samples elicited with methyl jasmonate. We found saponin accumulation in leaves after MeJA treatment in both ecotypes tested. As no reference genes were available to perform qPCR in quinoa, we mined publicly available RNA-Seq data for orthologs of 22 genes known to be stably expressed in Arabidopsis thaliana using geNorm, NormFinder and BestKeeper algorithms. The quinoa ortholog of At2g28390 (Monensin Sensitivity 1, MON1) was stably expressed and chosen as a suitable reference gene for qPCR analysis. Candidate saponin biosynthesis genes were screened in the quinoa RNA-Seq data and subsequent functional characterization in yeast led to the identification of CqbAS1, CqCYP716A78 and CqCYP716A79. These genes were found to be induced by MeJA, suggesting this phytohormone might also modulate saponin biosynthesis in quinoa leaves. Knowledge of the saponin biosynthesis and its regulation in quinoa may aid the further development of sweet cultivars that do not require postharvest processing. 2018-02-23T20:39:05Z 2018-02-23T20:39:05Z 2016-09 Revista Artículo *EC-INIAP-BEESC-MGC. Quito (Plant Science 250:188–197) http://repositorio.iniap.gob.ec/handle/41000/4838 en p. 188–197 application/pdf E. E. Santa Catalina
institution INIAP
collection DSpace
country Ecuador
countrycode EC
component Bibliográfico
access En linea
databasecode dig-iniap
tag biblioteca
region America del Sur
libraryname Biblioteca INIAP
language English
topic QUINUA
CHENOPODIUM QUINOA
SAPONINAS
CULTIVOS ANDINOS
QUINUA
CHENOPODIUM QUINOA
SAPONINAS
CULTIVOS ANDINOS
spellingShingle QUINUA
CHENOPODIUM QUINOA
SAPONINAS
CULTIVOS ANDINOS
QUINUA
CHENOPODIUM QUINOA
SAPONINAS
CULTIVOS ANDINOS
Fiallos-Jurado, Jennifer
Pollier, Jacob
Moses, Tessa
Arendt, Philipp
Barriga-Medina, Noelia
Morillo, Eduardo
Arahana, Venancio
Torres, Maria de Lourdes
Goossens, Alain
León Reyes, Antonio
Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
description Quinoa (Chenopodium quinoa Willd.) is a highly nutritious pseudocereal with an outstanding protein, vitamin, mineral and nutraceutical content. The leaves, flowers and seed coat of quinoa contain triterpenoid saponins, which impart bitterness to the grain and make them unpalatable without postharvest removal of the saponins. In this study, we quantified saponin content in quinoa leaves from Ecuadorian sweet and bitter genotypes and assessed the expression of saponin biosynthetic genes in leaf samples elicited with methyl jasmonate. We found saponin accumulation in leaves after MeJA treatment in both ecotypes tested. As no reference genes were available to perform qPCR in quinoa, we mined publicly available RNA-Seq data for orthologs of 22 genes known to be stably expressed in Arabidopsis thaliana using geNorm, NormFinder and BestKeeper algorithms. The quinoa ortholog of At2g28390 (Monensin Sensitivity 1, MON1) was stably expressed and chosen as a suitable reference gene for qPCR analysis. Candidate saponin biosynthesis genes were screened in the quinoa RNA-Seq data and subsequent functional characterization in yeast led to the identification of CqbAS1, CqCYP716A78 and CqCYP716A79. These genes were found to be induced by MeJA, suggesting this phytohormone might also modulate saponin biosynthesis in quinoa leaves. Knowledge of the saponin biosynthesis and its regulation in quinoa may aid the further development of sweet cultivars that do not require postharvest processing.
format Revista
topic_facet QUINUA
CHENOPODIUM QUINOA
SAPONINAS
CULTIVOS ANDINOS
author Fiallos-Jurado, Jennifer
Pollier, Jacob
Moses, Tessa
Arendt, Philipp
Barriga-Medina, Noelia
Morillo, Eduardo
Arahana, Venancio
Torres, Maria de Lourdes
Goossens, Alain
León Reyes, Antonio
author_facet Fiallos-Jurado, Jennifer
Pollier, Jacob
Moses, Tessa
Arendt, Philipp
Barriga-Medina, Noelia
Morillo, Eduardo
Arahana, Venancio
Torres, Maria de Lourdes
Goossens, Alain
León Reyes, Antonio
author_sort Fiallos-Jurado, Jennifer
title Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
title_short Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
title_full Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
title_fullStr Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
title_full_unstemmed Saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
title_sort saponin determination, expression analysis and functional characterization of saponin biosynthetic genes in chenopodium quinoa leaves
publishDate 2016-09
url http://repositorio.iniap.gob.ec/handle/41000/4838
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