M A Marino, L A Turni, S A Del Rio, P E Williams, P B Cregan
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引用次数: 0
摘要
这项工作的目的是通过毛细管凝胶电泳(CGE)检测大豆植物基因型中是否存在简单序列重复(SSR)DNA。大豆中的 SSR DNA 长度多态性决定了聚合酶链反应(PCR)产物长度的变化。选择的位点是扩增后每个基因型产生一个 PCR 产物(M.S. Akkaya 等人,1992 年)。携带不同等位基因的亲本的 F1 杂交种会产生两个与两个亲本相同的 PCR 产物。CGE 系统使用有效长度为 40 厘米的 3%T,3%C 聚丙烯酰胺凝胶毛细管。在 260 纳米波长下监测长度为 150 至 200 碱基对的 PCR 产物。分析时间不到 50 分钟。与传统的测序凝胶技术一样,CGE 也能按碱基对数分离 PCR 产物。与传统方法相比,CGE 为确定大豆 SSR 等位基因大小提供了一种自动化、高速度、高分辨率的分析方法。
The analysis of simple sequence repeat DNA in soybean by Capillary Gel Electrophoresis.
The objective of this work is to examine the presence of simple sequence repeat (SSR) DNA in soybean plant genotypes by Capillary Gel Electrophoresis (CGE). The SSR DNA length polymorphism in soybean determines the variation in polymerase chain reaction (PCR) product lengths. Loci were chosen where amplification produced one PCR product per genotype (M.S. Akkaya et al., 1992). The F1 hybrids of parents carrying different alleles produced two PCR products identical to the two parents. The CGE system used a 3%T,3%C polyacrylamide gel capillary with an effective length of 40 cm. The PCR products with lengths of 150 to 200 base pairs were monitored at 260 nm. The analysis time was under 50 minutes. CGE is capable of separating these PCR products by base pair number the same as conventional sequencing gel techniques. CGE offers an automated, high speed, high resolution analytical method for determining soybean SSR allele sizes as compared with the traditional methodologies.
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