IDENTIFICATION OF LENS CULTIVARS IN MARKET BY MOLECULAR TOOLS: DNA BARCODING AND SSRs

IF 0.5 Q4 MULTIDISCIPLINARY SCIENCES
Metin Burak TATLISES, Semra HASANCEBİ
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引用次数: 0

Abstract

Substitution of plant cultivars of high commercial value with a cheaper, lower quality one is a common fraud committed against consumers and producers. Since it is one of the most widely grown legumes, lentil (Lens culinaris Medik.) is suitable for such frauds. This study aimed to identify lentil cultivars which are registered and authorized in the market in Türkiye by using current molecular methods. For this purpose, 26 lentil cultivars were analyzed for 15 SSR markers and two DNA barcode regions (trnH-psbA and matK). A high allele diversity was observed by 12 scorable SSR markers, and the average number of alleles was determined to be 16. One of the important findings was the presence of “cultivar-specific alleles” that can be used to identify each cultivar in the lentil market in Türkiye. At least one “cultivar-specific allele” was obtained for each cultivar. The lentil cultivars were also analyzed by two DNA barcode regions as trnH-psbA and matK. While it was observed that the rate of the intra-species variation for the trnH-psbA region was low and 26 varieties were divided into 7 groups, higher rate was found for matK and samples were distributed into 14 groups. Nevertheless, it was observed that intra-species discrimination can be made more effective when both loci are used together and 26 species were distributed into 18 different groups. We expect that the results of this study, especially the cultivar-specific SSR alleles and DNA barcoding sequence data may be used routinely to identify production and packaged products that are commercially available in markets.
用分子工具鉴定市场上的透镜品种:DNA条形码和ssr
以价格较低、质量较差的植物品种替代具有高商业价值的植物品种是对消费者和生产者的常见欺诈行为。因为它是最广泛种植的豆类之一,小扁豆(Lens culinaris Medik.)适合用于此类欺诈。本研究旨在利用现有的分子鉴定方法,对我国已在市场上注册和授权的扁豆品种进行鉴定。为此,对26个扁豆品种进行了15个SSR标记和2个DNA条形码区(trnH-psbA和matK)的分析。12个可得分SSR标记的等位基因多样性较高,平均等位基因数为16个。其中一个重要发现是存在“品种特异性等位基因”,可用于识别泰国扁豆市场上的每个品种。每个品种至少获得一个“品种特异性等位基因”。并用trnH-psbA和matK两个DNA条形码区对小扁豆品种进行了分析。trnH-psbA区种内变异率较低,26个品种分为7个类群,而matK区种内变异率较高,分布在14个类群中。然而,我们观察到,当两个基因座同时使用时,26个物种分布在18个不同的类群中,种内歧视可以更有效。我们期望本研究的结果,特别是品种特异性SSR等位基因和DNA条形码序列数据可用于常规识别生产和包装产品在市场上销售。
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来源期刊
Trakya University Journal of Natural Sciences
Trakya University Journal of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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