Kanwal Sumaira, Bukhari Sehrish, Perveen Shazia
Department of Biosciences, COMSATS Institute of Information Technology Sahiwal Campus, Pakistan.
The Women University Multan, Pakistan.
J Pak Med Assoc. 2017 Jul;67(7):1030-1034.
To examine molecular genetics and prenatal diagnosis of beta-thalassaemia.
The study was conducted at the COMSATS Institute of Information Technology, Sahiwal, Pakistan, from October 2012 to October 2013, and comprised families having children affected by thalassaemia and autosomal recessive b-thalassemia. Blood samples of thalassaemic children and their parents were collected from different areas of Pakistan. They were screened for reported mutations through amplification refractory mutation system-polymerase chain reaction. Once mutation was characterised, chorionicvilus sampling was carried out to provide the retrospective first trimester prenatal diagnosis.
A total of five families were included in this study. Electropherogram showed that both mother and father were heterozygous (carrier) for intervening sequence I-5 mutation whereas the affected child was homozygous for this mutation. Five chorionic villus samples were examined to analyse the molecular defects which were responsible for beta-thalassaemia in the families. Prenatal diagnosis was performed for these families. They had at least one affected child (thalassaemia major) who was transfusion-dependant. Amplification refractory mutation system-polymerase chain reaction was found to be a very sensitive method to find the known point mutations present in beta-globin gene. Point mutations identified included intervening sequence I-5 (G-C), frameshift codon8/9 (+G) and frameshift codon-41/42 (-TTCT).
It is the best preventive action to adopt the screening process to overcome the disease.
研究β地中海贫血的分子遗传学及产前诊断。
2012年10月至2013年10月在巴基斯坦萨希瓦尔的COMSATS信息技术学院开展该研究,纳入有受地中海贫血和常染色体隐性β地中海贫血影响子女的家庭。从巴基斯坦不同地区采集地中海贫血患儿及其父母的血样。通过扩增阻滞突变系统-聚合酶链反应对报告的突变进行筛查。一旦确定突变特征,便进行绒毛取样以提供回顾性的孕早期产前诊断。
本研究共纳入五个家庭。电泳图显示,父母均为内含子I-5突变的杂合子(携带者),而患病儿童为该突变的纯合子。检查了五个绒毛样本以分析导致这些家庭中β地中海贫血的分子缺陷。对这些家庭进行了产前诊断。他们至少有一个受影响的孩子(重型地中海贫血),该孩子依赖输血。扩增阻滞突变系统-聚合酶链反应被发现是一种非常灵敏的方法,可用于发现β珠蛋白基因中存在的已知点突变。鉴定出的点突变包括内含子I-5(G-C)、移码密码子8/9(+G)和移码密码子-41/42(-TTCT)。
采用筛查程序是克服该疾病的最佳预防措施。