利用磁珠法对甘蓝、白菜、芥菜、洋葱、黄瓜、番茄、辣椒等7种形状、大小不同的蔬菜单粒种子和幼苗进行DNA提取,采用内参基因Actin进行实时荧光定量PCR评价DNA质量,利用KASP(kompetitive allele specific PCR)标记检验DNA质量是否达到K...利用磁珠法对甘蓝、白菜、芥菜、洋葱、黄瓜、番茄、辣椒等7种形状、大小不同的蔬菜单粒种子和幼苗进行DNA提取,采用内参基因Actin进行实时荧光定量PCR评价DNA质量,利用KASP(kompetitive allele specific PCR)标记检验DNA质量是否达到KASP检测要求。结果显示,单粒种子磁珠法提取的各蔬菜DNA平均Ct值均处于19~24范围内。KASP检测进一步证实种子提取DNA的质量达到KASP标记分型的要求。综上所述,本研究建立了一种简单、经济、实用性强的单粒种子DNA提取方法,该方法对不同大小的蔬菜种子具有较好的稳定性,且大幅缩短了获得基因型数据的时间。展开更多
A simple and efficient method was presented for isolating microsatellite DNA markers from peanut (Arachis hypogaea L.) genome. The genomic DNA was converted into pre-amplified AFLP fragments and hybridized with biotin...A simple and efficient method was presented for isolating microsatellite DNA markers from peanut (Arachis hypogaea L.) genome. The genomic DNA was converted into pre-amplified AFLP fragments and hybridized with biotin-labeled SSR probes. Then the hybrid mixture was used to incubate with magnetic beads coated with streptavidin. After washing to remove the non-SSR fragments, the eluted single-strand DNA, which was cloned and sequenced, was largely enriched for microsatellites. Primers can then be designed according to the sequence flanking the repeat motifs and used for polymorphism analysis. The whole experiment can be completed within one week and can be employed as a reliable option for any molecular laboratory to develop SSR markers.展开更多
文摘利用磁珠法对甘蓝、白菜、芥菜、洋葱、黄瓜、番茄、辣椒等7种形状、大小不同的蔬菜单粒种子和幼苗进行DNA提取,采用内参基因Actin进行实时荧光定量PCR评价DNA质量,利用KASP(kompetitive allele specific PCR)标记检验DNA质量是否达到KASP检测要求。结果显示,单粒种子磁珠法提取的各蔬菜DNA平均Ct值均处于19~24范围内。KASP检测进一步证实种子提取DNA的质量达到KASP标记分型的要求。综上所述,本研究建立了一种简单、经济、实用性强的单粒种子DNA提取方法,该方法对不同大小的蔬菜种子具有较好的稳定性,且大幅缩短了获得基因型数据的时间。
文摘A simple and efficient method was presented for isolating microsatellite DNA markers from peanut (Arachis hypogaea L.) genome. The genomic DNA was converted into pre-amplified AFLP fragments and hybridized with biotin-labeled SSR probes. Then the hybrid mixture was used to incubate with magnetic beads coated with streptavidin. After washing to remove the non-SSR fragments, the eluted single-strand DNA, which was cloned and sequenced, was largely enriched for microsatellites. Primers can then be designed according to the sequence flanking the repeat motifs and used for polymorphism analysis. The whole experiment can be completed within one week and can be employed as a reliable option for any molecular laboratory to develop SSR markers.