利用荧光MFLP 标记技术分析烟草种质的遗传多样性
Genetic Diversity Analysis of Tobacco Germplasm by Using Fluorescent MFLP Technique
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摘要: 微卫星锚定片段长度多态性(MFLP)是一种新型分子标记技术,本研究依据该技术原理,通过将M13 通用荧光接头连接在设计的 SSR 引物上对扩增产物进行荧光标记,建立了适合于烟草的荧光 MFLP 标记体系;在此基础上,利用该技术从144对选择性扩增引物组合中筛选出15对适宜的引物组合,对32份来自于不同国家和地区的烟草种质材料的遗传多态性进行了分析。试验结果显示,这些引物组合扩增的产物在 32 个烟草种质中的多态性范围为 2~13 个,平均 4.3 个;利用种质材料间遗传多态性开展的遗传相似性分析表明,32 份烟草种质间的相似系数在0.40到0.83之间。运用UPGMA聚类分析和主坐标分析法,有效地将这些烟草种质材料的来源和类型进行了分类。结果表明,荧光 MFLP 标记技术能有效地发现供试烟草材料的DNA多态性,表明该技术适用于烟草遗传特性分析的研究和应用。Abstract: Microsatellite-anchored fragment length polymorphism(MFLP) is a new technique that detected the genetic variations of restricted fragments and microsatellites for DNA fingerprinting. On basis of MFLP principle, a fluorescent MFLP technique for tobacco was established in which the SSR-anchor primers were tailed by the universal M13 primer labeled with IRD fluorescent dye. 15 of 144 primer combinations which are suitable for tobacco were chosen for selective amplification, and these primer pairs were used for genetic diversity analysis of 32 tobacco varieties collected from different countries. The results showed that polymorphisms for the primer combinations ranged from 2 to 13, with an average of 4.3 among 32 tobacco varieties, the genetic similarity for these varieties ranged from 0.4 to 0.83. Cluster analysis and principal coordinate analysis (PCA) based on MFLPs provided the proper estimate of genetic relationships among varieties. These results indicate that the fluorescent MFLP technique can effectively detect DNA polymorphisms among tobacco germplasm, and it is suitable for the analysis of genetic characteristics in tobacco.