溶解
磁珠
DNA提取
基因组DNA
萃取(化学)
有孔小珠
产量(工程)
色谱法
DNA
乙醇
全血
体积热力学
化学
材料科学
聚合酶链反应
生物化学
生物
基因
冶金
物理
复合材料
免疫学
量子力学
作者
Jie Ling,Hao Wang,Shuai Zhang,Dandan Zhang,Maode Lai,Yimin Zhu
出处
期刊:PubMed
[National Institutes of Health]
日期:2012-05-01
卷期号:41 (3): 320-6
被引量:4
摘要
To develop a rapid and effective method for genomic DNA extraction with magnetic bead-based semi-automatic system.DNA was extracted from whole blood samples semi-automatically with nucleic acid automatic extraction system.The concentration and purity of samples was determined by UV-spectrophotometer. Orthogonal design was used to analyze the main effect of lysis time, blood volume, magnetic bead quantity and ethanol concentration on the DNA yield; also the 2-way interaction of these factors.Lysis time, blood volume, magnetic bead quantity and ethanol concentration were associated with DNA yield (P<0.05), but no interaction existed. DNA yield was higher under the condition with 15 min of lysis time, 100 μl of blood volume, 80 μl of magnetic beads and 80 % of ethanol. A significant association was found between the magnetic bead quantity and DNA purity OD260/OD280 (P=0.008). Interaction of blood volume and lysis time also existed (P=0.013). DNA purity was better when the extracting condition was 40 μl of magnetic beads, 15 min of lysis time and 100 μl of blood volume. Magnetic beads and ethanol concentration were associated with DNA purity OD260/OD230 (P=0.017 and P<0.05), the result was better when magnetic beads was 40 μl and ethanol concentration was 80 %.The results indicate that the optimized conditions with 40 μl magnetic beads will generate higher quality of genomic DNA from the whole blood samples.
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