Establishment of a method for detection of IVS-2-654 (C>T) and -28 (A>G) gene mutations by high-resolution melting analysis in β-thalassemia and its clinical application
10.3760/cma.j.issn.1009-9158.2012.08.017
- VernacularTitle:HRM技术检测β-地中海贫血IVS-2-654(C>T)与-28(A>G)突变方法的建立及初步应用
- Author:
Lingling YU
;
Kegang TIAN
;
Jingjing FENG
;
Huiyan WANG
;
Meiqin ZHENG
;
Xiaoqun ZHENG
;
Jianxin Lü
- Publication Type:Journal Article
- Keywords:
beta-Thalassemia;
Mutation;
High resolution melting
- From:
Chinese Journal of Laboratory Medicine
2012;35(8):730-735
- CountryChina
- Language:Chinese
-
Abstract:
Objective To establish a method for detection of gene mutations in β-thalassemia by high-resolution melting (HRM) and study its preliminary clinical application.Methods Two common mutations [ IVS-2-654 ( C > T ) and -28 ( A > G ) ]of β-thalassemia in Wenzhou city population were selected.The plasmid DNA fragments of these mutations were constructed by TA clone technology as PCR templates or genotyping controls.A method for detection of β-thalassemia gene mutations based on HRM analysis was established and its specificity,sensitivity and repeatability were methodologically evaluated.One hundred and seventeen patients with clinically suspected β-thalassemia from Second Affiliated Hospital and Yu ying Children's Hospital of Wenzhou Medical College were enrolled into this study.The genomic DNA was extracted from whole blood cells and detected by HRM method.The results were compared with the direct sequencing data.Results HRM method could detect the mutations [ IVS-2-654( C > T) and -28 ( A > G ) ]of β-thalassemia and the results did not show any non-specific amplified fragments.All within-run and between-run coefficients of variation for different DNA types' Tm were smaller than 0.1%.And minimum 103 copies of DNA of each assay and 10% mutation could be determined by this method.One hundred and seventeen patients with clinically suspected β-thalassemia were detected with HRM and all the results were in accordance with direct DNA sequencing.There were 45 IVS-2-654 ( C > T)heterozygous mutation and 9-28 ( A > G)heterozygous mutation and none homozygous mutation.Conclusion The method of rapid identification of β-thalassemia gene mutations based on HRM analysis is successfully established,which is a convenient,rapid,specific,sensitive and accurate technique for screening gene mutations in β-thalassemia as well as a general technical platform to identify other gene mutations.