Tamasu S, Nishio H, Ayaki H, Lee M J, Mizutori M, Takeshima Y, Nakamura H, Matsuo M, Maruo T, Sumino K
Department of Public Health, Kobe University School of Medicine.
Kobe J Med Sci. 1999 Dec;45(6):259-70.
Tay-Sachs disease (TSD) is caused by mutation of the HEXA gene, which results in a deficiency of the alpha-subunit of hexosaminidase A. The major mutation in Japanese TSD is a G-to-T transversion at the 3'-splice site of intron 5. We established a fluorescent competitive allele-specific polymerase chain reaction (FCAS-PCR) method for detection of the mutation and applied it to prenatal diagnosis of a Japanese TSD family. FCAS-PCR distinguished the wild and mutant alleles clearly, with broad ranges in the amount of template DNA, the dNTP concentration, the MgCl2 concentration and the number of PCR cycles. After obtaining ethics committee approval and informed consent from the parents in the index family, chorionic villus sampling was performed. FCAS-PCR analysis using chorionic villus DNA disclosed that the fetus was homozygous for the mutation. To confirm the diagnosis, direct sequencing analysis of the genomic PCR fragment was performed, and showed the same results as those of the FCAS-PCR analysis. FCAS-PCR proved to be helpful for carrier screening and prenatal diagnosis in TSD families in the Japanese population. It would also be a useful DNA-diagnostic method for many other inherited disorders.
泰-萨克斯病(TSD)由HEXA基因突变引起,该突变导致己糖胺酶A的α亚基缺乏。日本TSD的主要突变是内含子5的3'剪接位点处的G到T颠换。我们建立了一种荧光竞争性等位基因特异性聚合酶链反应(FCAS-PCR)方法来检测该突变,并将其应用于一个日本TSD家族的产前诊断。FCAS-PCR能够清晰地区分野生型和突变型等位基因,对模板DNA量、dNTP浓度、MgCl2浓度和PCR循环次数有较宽的适用范围。在获得伦理委员会批准并得到先证者家庭父母的知情同意后,进行了绒毛取样。使用绒毛DNA的FCAS-PCR分析显示胎儿为该突变的纯合子。为了确诊,对基因组PCR片段进行了直接测序分析,结果与FCAS-PCR分析相同。FCAS-PCR被证明有助于日本人群TSD家族的携带者筛查和产前诊断。它也将是许多其他遗传性疾病有用的DNA诊断方法。
