New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA

New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA

Camellia oil obtained from Camellia oleifera seeds is rich in unsaturated fatty acids and unique flavors, and has become a rising high-quality edible vegetable oil in the world. However, honored as the “Oriental olive oil”, Camellia oil was widely adulterated for the situation of high price and shor...

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Main Authors: Xuexiang Cheng, Tao Yang, Yunhao Wang, Bingqian Zhou, Li Yan, Linzuo Teng, Fangbin Wang, Lili Chen, Yan He, Kunpeng Guo, Dangquan Zhang
Format: Article
Language:English
Published: Elsevier 2018-09-01
Series:Arabian Journal of Chemistry
Online Access:http://www.sciencedirect.com/science/article/pii/S187853521730268X
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author Xuexiang Cheng
Tao Yang
Yunhao Wang
Bingqian Zhou
Li Yan
Linzuo Teng
Fangbin Wang
Lili Chen
Yan He
Kunpeng Guo
Dangquan Zhang
spellingShingle Xuexiang Cheng
Tao Yang
Yunhao Wang
Bingqian Zhou
Li Yan
Linzuo Teng
Fangbin Wang
Lili Chen
Yan He
Kunpeng Guo
Dangquan Zhang
New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA
Arabian Journal of Chemistry
author_facet Xuexiang Cheng
Tao Yang
Yunhao Wang
Bingqian Zhou
Li Yan
Linzuo Teng
Fangbin Wang
Lili Chen
Yan He
Kunpeng Guo
Dangquan Zhang
author_sort Xuexiang Cheng
title New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA
title_short New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA
title_full New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA
title_fullStr New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA
title_full_unstemmed New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNA
title_sort new method for effective identification of adulterated camellia oil basing on camellia oleifera-specific dna
publisher Elsevier
series Arabian Journal of Chemistry
issn 1878-5352
publishDate 2018-09-01
description Camellia oil obtained from Camellia oleifera seeds is rich in unsaturated fatty acids and unique flavors, and has become a rising high-quality edible vegetable oil in the world. However, honored as the “Oriental olive oil”, Camellia oil was widely adulterated for the situation of high price and short supply. At present, the identification of adulterated plant edible oil is mainly based on the composition and content of fatty acids. Here, the fatty acid composition and content of the main vegetable edible oils were determined. It is found that the fatty acid composition and content are susceptible to the change of the origin, variety and climate of the raw materials, and adulterated oils could even be made extremely similar to Camellia oil by the target combination of fatty acid content, therefore it is difficult to accurately identify the adulteration of Camellia oil through the composition and content determination of fatty acids. Camellia oleifera DNA was used as the breakthrough point for adulteration identification. Basing on the EST library and transcriptome data of Camellia oleifera, 116 candidate specific DNAs were screened out by bioinformatics, then the optimized methods of trace DNA extraction in Camellia oil were established. Further, three specific Camellia oleifera DNAs that could only be PCR amplified using Camellia oil- extracted DNA as template were finally screened out, which were confirmed by exclusive PCR amplifications using DNAs of other edible oils as templates. One of the specific DNAs was used to make the concentration regression curves of trace DNA by qPCR (Quantitative real-time PCR). The computational model was successively established between the adulteration ratio and the Ct value of the qPCR by adulteration imitation of different proportions of Camellia oil. Finally, a complete identification system of Camellia oil adulteration was firstly established basing on the specific DNA of Camellia oleifera, and it may provide a new idea and method for identification of adulterated Camellia oil. Keywords: Camellia oil, Specific DNA, Adulteration identification, Camellia oleifera, Fatty acids
url http://www.sciencedirect.com/science/article/pii/S187853521730268X
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spelling doaj-90a876f48640457baa100b34b1bdcda12020-11-25T00:13:17ZengElsevierArabian Journal of Chemistry1878-53522018-09-01116815826New method for effective identification of adulterated Camellia oil basing on Camellia oleifera-specific DNAXuexiang Cheng0Tao Yang1Yunhao Wang2Bingqian Zhou3Li Yan4Linzuo Teng5Fangbin Wang6Lili Chen7Yan He8Kunpeng Guo9Dangquan Zhang10College of Forestry, Henan Agricultural University, Zhengzhou 450002, China; Key Laboratory of Cultivation and Protection for Non-Wood Forest Trees (Ministry of Education), Central South University of Forestry and Technology, Changsha 412006, ChinaHunan Institute of Food Quality Supervision and Research, Changsha 410117, ChinaKey Laboratory of Cultivation and Protection for Non-Wood Forest Trees (Ministry of Education), Central South University of Forestry and Technology, Changsha 412006, ChinaCollege of Forestry, Henan Agricultural University, Zhengzhou 450002, ChinaHunan Institute of Food Quality Supervision and Research, Changsha 410117, ChinaKey Laboratory of Cultivation and Protection for Non-Wood Forest Trees (Ministry of Education), Central South University of Forestry and Technology, Changsha 412006, ChinaHunan Institute of Food Quality Supervision and Research, Changsha 410117, ChinaKey Laboratory of Cultivation and Protection for Non-Wood Forest Trees (Ministry of Education), Central South University of Forestry and Technology, Changsha 412006, ChinaHunan Institute of Food Quality Supervision and Research, Changsha 410117, ChinaHunan Institute of Food Quality Supervision and Research, Changsha 410117, ChinaCollege of Forestry, Henan Agricultural University, Zhengzhou 450002, China; Key Laboratory of Cultivation and Protection for Non-Wood Forest Trees (Ministry of Education), Central South University of Forestry and Technology, Changsha 412006, China; Corresponding author at: College of Forestry, Henan Agricultural University, Zhengzhou 450002, China.Camellia oil obtained from Camellia oleifera seeds is rich in unsaturated fatty acids and unique flavors, and has become a rising high-quality edible vegetable oil in the world. However, honored as the “Oriental olive oil”, Camellia oil was widely adulterated for the situation of high price and short supply. At present, the identification of adulterated plant edible oil is mainly based on the composition and content of fatty acids. Here, the fatty acid composition and content of the main vegetable edible oils were determined. It is found that the fatty acid composition and content are susceptible to the change of the origin, variety and climate of the raw materials, and adulterated oils could even be made extremely similar to Camellia oil by the target combination of fatty acid content, therefore it is difficult to accurately identify the adulteration of Camellia oil through the composition and content determination of fatty acids. Camellia oleifera DNA was used as the breakthrough point for adulteration identification. Basing on the EST library and transcriptome data of Camellia oleifera, 116 candidate specific DNAs were screened out by bioinformatics, then the optimized methods of trace DNA extraction in Camellia oil were established. Further, three specific Camellia oleifera DNAs that could only be PCR amplified using Camellia oil- extracted DNA as template were finally screened out, which were confirmed by exclusive PCR amplifications using DNAs of other edible oils as templates. One of the specific DNAs was used to make the concentration regression curves of trace DNA by qPCR (Quantitative real-time PCR). The computational model was successively established between the adulteration ratio and the Ct value of the qPCR by adulteration imitation of different proportions of Camellia oil. Finally, a complete identification system of Camellia oil adulteration was firstly established basing on the specific DNA of Camellia oleifera, and it may provide a new idea and method for identification of adulterated Camellia oil. Keywords: Camellia oil, Specific DNA, Adulteration identification, Camellia oleifera, Fatty acidshttp://www.sciencedirect.com/science/article/pii/S187853521730268X

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