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Molecular cloning and development of RAPD-SCAR markers for Dimocarpus longan variety authentication.


ABSTRACT: As an edible fruit and source of traditional medicine, D. longan is grown in most areas of Southern China. Identification of D. longan cultivars by using molecular markers is important genetically. In this study, we cloned fragments from improved randomly amplified polymorphic DNA (RAPD), and developed stably diagnostic sequence-characterized amplified region (SCAR) markers. The specific RAPD bands of D. longan cultivars from Guangxi, with size ranging from 500 bp to 900 bp were gel-purified, cloned and sequenced. Four clones named LY2-1, LY4-7, LY4-8 and LY5-2 were identified. In order to investigate whether the fragments were specific for the species, four pairs of SCAR primers were then designed. PCR amplifications were conducted to analyze 18 samples including different D. longan cultivars and other species. The specific bands with expected sizes were amplified in five D. longan samples but not in others. To identify and characterize the difference between D. longan and D. confinis, PCR amplifications were performed again. The specific bands with expected sizes were found in D. longan but not in D. confinis by SCAR markers LY2-1, LY4-7 and LY5-2, respectively. These results showed that our developed SCAR markers could be very useful as a specific D. longan variety authentication. Therefore, our study provides an effective and precise PCR-based diagnostic method and markers to identify D. longan species.

SUBMITTER: Yang L 

PROVIDER: S-EPMC3795202 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Molecular cloning and development of RAPD-SCAR markers for Dimocarpus longan variety authentication.

Yang Luquan L   Fu Shelly S   Khan Md Asaduzzaman MA   Zeng Weimin W   Fu Junjiang J  

SpringerPlus 20131003


As an edible fruit and source of traditional medicine, D. longan is grown in most areas of Southern China. Identification of D. longan cultivars by using molecular markers is important genetically. In this study, we cloned fragments from improved randomly amplified polymorphic DNA (RAPD), and developed stably diagnostic sequence-characterized amplified region (SCAR) markers. The specific RAPD bands of D. longan cultivars from Guangxi, with size ranging from 500 bp to 900 bp were gel-purified, cl  ...[more]

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