Quantitative detection of methylation status in the multi-drug resistance 1 gene by competitive polymerase chain reaction combined with restrictive endonucleases
- VernacularTitle:限制性内切酶结合竞争聚合酶链反应定量检测在多药耐药基因甲基化状态中的应用
- Author:
Yan ZHU
;
Shulan WU
;
Chenxue QU
;
Dingfang BU
- Publication Type:Journal Article
- Keywords:
DNA methylation;
Multi-drug resistance gene;
Polymerase chain reaction
- From:
Chinese Journal of Laboratory Medicine
2001;0(04):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To establish a method of competitive polymerase chain reaction combined with restrictive endonucleases to measure the methylation quantitatively in MDR1 promoter region.Methods One sense primer and two anti-sense primers were designed to amplify a fragment of MDR1 gene promoter region, which was located between -102 and +186 bp containing a methylation site. The internal reference DNA fragment, witch was less 30bp than target fragment was made by three times of polymerase chain reaction(PCR)using different anti-sense primer and then subcloned into the Pbluescriptsk+ plasmid. The genomic DNA digested by Hpa, a methylation-sensitive restrictive endonuclease and competitive internal reference DNA were competitively amplified for MDR1 promoter in the same tube by PCR. The PCR products were electrophoresed on agarose gel, stained by ethidium bromide and subjected to image analysis scanner. The amount of target fragment was calculated as following, the optical density ratio of target fragment to competitive internal reference fragment multiplied the amount of competitive internal reference DNA. The ratio of PCR products amplified from HpaⅡ digested DNA and undigested DNA was named the methylation rate.Results The genomic DNA serially diluted with optimal amount of competitive internal reference DNA were co-amplified for MDR1 promoter. The significant positive correlation between the ratio of two products and the amount of genomic DNA was demonstrated. The correlation coefficient was 0.992, P
