Chen T J, Boles R G, Wong L J
Institute for Molecular and Human Genetics, Georgetown University Medical Center, Washington, DC 20007, USA.
Clin Chem. 1999 Aug;45(8 Pt 1):1162-7.
A unique requirement for the molecular diagnosis of mitochondrial DNA (mtDNA) disorders is the ability to detect heteroplasmic mtDNA mutations and to distinguish them from homoplasmic sequence variations before further testing (e.g., sequencing) is performed. We evaluated the potential utility of temporal temperature gradient gel electrophoresis (TTGE) for these purposes in patients with suspected mtDNA mutations.
DNA samples were selected from patients with known mtDNA mutations and patients suspected of mtDNA disorders without detectable mutations by routine analysis. Six regions of mtDNA were PCR amplified and analyzed by TTGE. Electrophoresis was carried out at 145 V with a constant temperature increment of 1.2 degrees C/h. Mutations were identified by direct sequencing of the PCR products and confirmed by PCR/allele-specific oligonucleotide or PCR/restriction fragment length polymorphism analysis.
In the experiments using patient samples containing various amounts of mutant mtDNA, TTGE detected as little as 4% mutant heteroplasmy and identified heteroplasmy in the presence of a homoplasmic polymorphism. In 109 specimens with 15 different known mutations, TTGE detected the presence of all mutations and distinguished heteroplasmic mutations from homoplasmic polymorphisms. When 11% of the mtDNA genome was analyzed by TTGE in 104 patients with clinically suspected mitochondrial disorders, 7 cases of heteroplasmy ( approximately 7%) were detected.
TTGE distinguishes heteroplasmic mutation from homoplasmic polymorphisms and appears to be a sensitive tool for detection of sequence variations and heteroplasmy in patients suspected of having mtDNA disorders.
线粒体DNA(mtDNA)疾病分子诊断的一项独特要求是,在进行进一步检测(如测序)之前,有能力检测异质性mtDNA突变并将其与同质性序列变异区分开来。我们评估了时间温度梯度凝胶电泳(TTGE)在疑似mtDNA突变患者中用于这些目的的潜在效用。
从已知mtDNA突变的患者以及经常规分析未检测到突变但疑似mtDNA疾病的患者中选取DNA样本。对mtDNA的六个区域进行PCR扩增,并通过TTGE进行分析。电泳在145V下进行,温度以每小时1.2℃的恒定速率上升。通过对PCR产物进行直接测序鉴定突变,并通过PCR/等位基因特异性寡核苷酸或PCR/限制性片段长度多态性分析进行确认。
在使用含有不同量突变mtDNA的患者样本进行的实验中,TTGE能检测到低至4%的突变异质性,并在存在同质性多态性的情况下识别出异质性。在109个含有15种不同已知突变的样本中,TTGE检测到了所有突变,并将异质性突变与同质性多态性区分开来。在104例临床疑似线粒体疾病的患者中,当通过TTGE分析11%的mtDNA基因组时,检测到7例异质性(约7%)。
TTGE可区分异质性突变与同质性多态性,似乎是检测疑似mtDNA疾病患者序列变异和异质性的敏感工具。
