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作 者:密士军[1] 邱丽娟[1] 常汝镇[1] 郝再彬[2] 关荣霞[1]
机构地区:[1]中国农业科学院作物品种资源研究所 [2]东北农业大学生命科学学院,哈尔滨150030
出 处:《植物病理学报》2004年第3期244-253,共10页Acta Phytopathologica Sinica
基 金:国家"九七三"( G19980 10 2 0 6);国家"八六三"( 2 0 0 1AA2 110 41);国家攻关项目 ( 2 0 0 1BA5 11B)
摘 要:利用 61个 SSR( simple sequence repeats)引物对筛选出的 1 1 3份高抗大豆花叶病毒 ( SMV)病抗源进行了遗传多样性分析。 1 1 3个抗源产生了 3 87个等位变异 ,平均每个引物可以扩增 6.3 4个等位变异。采用 Nei-Li公式计算相似系数 ,使用 NTSYS-pc2 .1 0 t数据分析软件 ,非加权组平均法进行聚类。分析结果表明抗源间平均相似系数为 0 .2 95 ,说明鉴定的这些抗源遗传差异较大。 1 1 3个抗源被明显地聚为 7类 ,地理来源相同和亲缘关系较近的品种大多聚在一起。相似系数较小、聚在不同类群中的抗源可能携带不同的抗病基因。The genetic diversity of 113 soybean varieties with high resistance to SMV was evaluated using 61 SSR primers. A total of 387 allelic variants were obtained in the varieties with average 6.34 alleles per SSR locus. Nei-Li genetic similarity coefficients were calculated using the software of NTSYS-pc2.10t and a dendrogram was constructed by the unweighted pair group method of arithmetic average (UPGMA). Mean similarity coefficient among the varieties was up to 0.295, which indicated that genetic difference among them was significant. Based on the genetic similarity coefficient matrix, the varieties were divided into seven groups. The varieties with the same geographical origin and the approximate pedigree were clustered together. The varieties whose genetic similarity coefficients were small and that were clustered in the different group probably carried the different resistant genes.
关 键 词:大豆(G.max) 大豆花叶病毒(SMV) SSR 遗传多样性
分 类 号:S435.651[农业科学—农业昆虫与害虫防治]
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