Dobrowolski Steven F, McKinney Jason T, Amat di San Filippo Cristina, Giak Sim Keow, Wilcken Bridget, Longo Nicola
Idaho Technology, Salt Lake City, Utah, USA.
Hum Mutat. 2005 Mar;25(3):306-13. doi: 10.1002/humu.20137.
Primary carnitine deficiency is an autosomal recessive disorder of fatty acid oxidation resulting from defective carnitine transport. This disease is caused by mutations in the OCTN2 carnitine transporter encoded by the SLC22A5 gene. Here we validate dye-binding/high-resolution thermal denaturation as a screening procedure to identify novel mutations in this gene. This procedure is based on the amplification of DNA by PCR in capillaries with the dsDNA binding dye LCGreen I. The PCR reaction is then analyzed in the same capillary by high-resolution thermal denaturation. Samples with abnormal melting profiles are sequenced. This technique correctly identified all known patients who were compound heterozygotes for different mutations in the carnitine transporter gene and about 30% of homozygous patients. The remaining 70% of homozygous patients were identified by a second amplification, in which the patient's DNA was mixed with the DNA of a normal control. This screening system correctly identified eight novel mutations and both abnormal alleles in six new families with primary carnitine deficiency. The causative role of the missense mutations identified (c.3G>T/p.M1I, c.695C>T/p.T232M, and c.1403 C>G/p.T468R) was confirmed by expression in Chinese hamster ovary (CHO) cells. These results expand the mutational spectrum in primary carnitine deficiency and indicate dye-binding/high-resolution thermal denaturation as an ideal system to screen for mutations in diseases with no prevalent molecular alteration.
原发性肉碱缺乏症是一种由于肉碱转运缺陷导致的脂肪酸氧化常染色体隐性疾病。该疾病由SLC22A5基因编码的OCTN2肉碱转运体突变引起。在此,我们验证了染料结合/高分辨率热变性作为一种筛选程序,以鉴定该基因中的新突变。该程序基于在含有双链DNA结合染料LCGreen I的毛细管中通过PCR扩增DNA。然后在同一毛细管中通过高分辨率热变性分析PCR反应。对熔解曲线异常的样本进行测序。该技术正确识别了所有已知的患者,这些患者是肉碱转运体基因不同突变的复合杂合子以及约30%的纯合子患者。其余70%的纯合子患者通过第二次扩增得以识别,在第二次扩增中,将患者的DNA与正常对照的DNA混合。该筛选系统正确识别了8个新突变以及6个原发性肉碱缺乏症新家族中的两个异常等位基因。通过在中国仓鼠卵巢(CHO)细胞中表达,证实了所鉴定的错义突变(c.3G>T/p.M1I、c.695C>T/p.T232M和c.1403 C>G/p.T468R)的致病作用。这些结果扩展了原发性肉碱缺乏症的突变谱,并表明染料结合/高分辨率热变性是筛选无普遍分子改变疾病中突变的理想系统。
