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A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)

BACKGROUND: The application and nutritional value of vegetable oil is highly dependent on its fatty acid composition, especially the relative proportion of its two major fatty acids, i.e oleic acid and linoleic acid. Microsomal oleoyl phosphatidylcholine desaturase encoded by FAD2 gene is known to i...

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Autores principales: Cao, Shijiang, Zhou, Xue-Rong, Wood, Craig C, Green, Allan G, Singh, Surinder P, Liu, Lixia, Liu, Qing
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3554562/
https://www.ncbi.nlm.nih.gov/pubmed/23289946
http://dx.doi.org/10.1186/1471-2229-13-5
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author Cao, Shijiang
Zhou, Xue-Rong
Wood, Craig C
Green, Allan G
Singh, Surinder P
Liu, Lixia
Liu, Qing
author_facet Cao, Shijiang
Zhou, Xue-Rong
Wood, Craig C
Green, Allan G
Singh, Surinder P
Liu, Lixia
Liu, Qing
author_sort Cao, Shijiang
collection PubMed
description BACKGROUND: The application and nutritional value of vegetable oil is highly dependent on its fatty acid composition, especially the relative proportion of its two major fatty acids, i.e oleic acid and linoleic acid. Microsomal oleoyl phosphatidylcholine desaturase encoded by FAD2 gene is known to introduce a double bond at the Δ12 position of an oleic acid on phosphatidylcholine and convert it to linoleic acid. The known plant FAD2 enzymes are encoded by small gene families consisting of 1-4 members. In addition to the classic oleate Δ12-desaturation activity, functional variants of FAD2 that are capable of undertaking additional or alternative acyl modifications have also been reported in a limited number of plant species. In this study, our objective was to identify FAD2 genes from safflower and analyse their differential expression profile and potentially diversified functionality. RESULTS: We report here the characterization and functional expression of an exceptionally large FAD2 gene family from safflower, and the temporal and spatial expression profiles of these genes as revealed through Real-Time quantitative PCR. The diversified functionalities of some of the safflower FAD2 gene family members were demonstrated by ectopic expression in yeast and transient expression in Nicotiana benthamiana leaves. CtFAD2-1 and CtFAD2-10 were demonstrated to be oleate desaturases specifically expressed in developing seeds and flower head, respectively, while CtFAD2-2 appears to have relatively low oleate desaturation activity throughout the plant. CtFAD2-5 and CtFAD2-8 are specifically expressed in root tissues, while CtFAD2-3, 4, 6, 7 are mostly expressed in the cotyledons and hypocotyls in young safflower seedlings. CtFAD2-9 was found to encode a novel desaturase operating on C16:1 substrate. CtFAD2-11 is a tri-functional enzyme able to introduce a carbon double bond in either cis or trans configuration, or a carbon triple (acetylenic) bond at the Δ12 position. CONCLUSIONS: In this study, we isolated an unusually large FAD2 gene family with 11 members from safflower. The seed expressed FAD2 oleate Δ12 desaturase genes identified in this study will provide candidate targets to manipulate the oleic acid level in safflower seed oil. Further, the divergent FAD2 enzymes with novel functionality could be used to produce rare fatty acids, such as crepenynic acid, in genetically engineered crop plants that are precursors for economically important phytoalexins and oleochemical products.
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spelling pubmed-35545622013-01-29 A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.) Cao, Shijiang Zhou, Xue-Rong Wood, Craig C Green, Allan G Singh, Surinder P Liu, Lixia Liu, Qing BMC Plant Biol Research Article BACKGROUND: The application and nutritional value of vegetable oil is highly dependent on its fatty acid composition, especially the relative proportion of its two major fatty acids, i.e oleic acid and linoleic acid. Microsomal oleoyl phosphatidylcholine desaturase encoded by FAD2 gene is known to introduce a double bond at the Δ12 position of an oleic acid on phosphatidylcholine and convert it to linoleic acid. The known plant FAD2 enzymes are encoded by small gene families consisting of 1-4 members. In addition to the classic oleate Δ12-desaturation activity, functional variants of FAD2 that are capable of undertaking additional or alternative acyl modifications have also been reported in a limited number of plant species. In this study, our objective was to identify FAD2 genes from safflower and analyse their differential expression profile and potentially diversified functionality. RESULTS: We report here the characterization and functional expression of an exceptionally large FAD2 gene family from safflower, and the temporal and spatial expression profiles of these genes as revealed through Real-Time quantitative PCR. The diversified functionalities of some of the safflower FAD2 gene family members were demonstrated by ectopic expression in yeast and transient expression in Nicotiana benthamiana leaves. CtFAD2-1 and CtFAD2-10 were demonstrated to be oleate desaturases specifically expressed in developing seeds and flower head, respectively, while CtFAD2-2 appears to have relatively low oleate desaturation activity throughout the plant. CtFAD2-5 and CtFAD2-8 are specifically expressed in root tissues, while CtFAD2-3, 4, 6, 7 are mostly expressed in the cotyledons and hypocotyls in young safflower seedlings. CtFAD2-9 was found to encode a novel desaturase operating on C16:1 substrate. CtFAD2-11 is a tri-functional enzyme able to introduce a carbon double bond in either cis or trans configuration, or a carbon triple (acetylenic) bond at the Δ12 position. CONCLUSIONS: In this study, we isolated an unusually large FAD2 gene family with 11 members from safflower. The seed expressed FAD2 oleate Δ12 desaturase genes identified in this study will provide candidate targets to manipulate the oleic acid level in safflower seed oil. Further, the divergent FAD2 enzymes with novel functionality could be used to produce rare fatty acids, such as crepenynic acid, in genetically engineered crop plants that are precursors for economically important phytoalexins and oleochemical products. BioMed Central 2013-01-07 /pmc/articles/PMC3554562/ /pubmed/23289946 http://dx.doi.org/10.1186/1471-2229-13-5 Text en Copyright ©2013 Cao et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Cao, Shijiang
Zhou, Xue-Rong
Wood, Craig C
Green, Allan G
Singh, Surinder P
Liu, Lixia
Liu, Qing
A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)
title A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)
title_full A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)
title_fullStr A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)
title_full_unstemmed A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)
title_short A large and functionally diverse family of Fad2 genes in safflower (Carthamus tinctorius L.)
title_sort large and functionally diverse family of fad2 genes in safflower (carthamus tinctorius l.)
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3554562/
https://www.ncbi.nlm.nih.gov/pubmed/23289946
http://dx.doi.org/10.1186/1471-2229-13-5
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