摘要
采用正交试验L16(43)设计,以dNTP、引物和Taq DNA聚合酶3种因素4个水平,并设置了8个模板DNA浓度梯度。扩增效果表明,红麻的SRAP-PCR最佳反应体系为2μL10×Taq Reaction Buffer、20ng模板DNA、dNTP 220μmol/L、引物0.35μmol/L、Taq DNA聚合酶0.5U,总体积为20μL。同时对256对SRAP引物进行扩增,筛选出条带清晰、多态性较好的引物100对。该反应体系及100对多态性引物组合应用于今后红麻的遗传多样性、品种鉴定、亲缘关系、遗传图谱构建、QTL定位等研究。
An orthogonal experiment L 16 ( 43 ) including three factors ( dNTP, primer and Taq DNA Polymerase ) and four levels was designed to optimize SRAP -PCR reaction system of Kenaf.Be-sides, we set up 8 concentration gradients of DNA template to test its influence on amplifying results.At last, we optimized the SRAP-PCR reaction system for Kenaf.It contained 2μL 10 ×Taq reaction buff-er, 20ng DNA template, 220μmol/L dNTP concentration, 0.35μmol/L primer concentration, 0.5U Taq DNA Polymerase , 20μL of the cumulative volume.In addition, 100 primer combinations were se-lected from 256 SRAP primer combinations due to their distinct Gershgorim bands and high polymor -phism.The optimal SRAP reaction system and 100 primer combinations would contribute to the basis for evaluating genetic diversity , identifing varieties , analyzing genetic relationship , building linkage map and QTL map for Hibiscus cannabinus L.
出处
《中国麻业科学》
2014年第1期1-7,共7页
Plant Fiber Sciences in China
基金
国家麻类产业技术体系
关键词
正交试验设计
红麻
体系优化
引物筛选
SRAP
SRAP
orthogonal design
kenaf
optimization of system
primer screening
