Human Genetic Resource Center , National Research Institute for Health and Family Planning , 12 Da Huisi Raod , Beijing 100081 , People's Republic of China.
Chinese Academy of Medical Sciences , Graduate School of Peking Union Medical College , 9 Dongdan Three Road , Beijing 100730 , People's Republic of China.
Anal Chem. 2018 Aug 7;90(15):8919-8926. doi: 10.1021/acs.analchem.8b01096. Epub 2018 Jul 20.
Hereditary hearing loss is a common clinical neurosensory disorder in humans and has a high demand for genetic screening. Current screening techniques using peripheral blood or dried blood spots (DBSs) are invasive. Therefore, this study aims to develop a noninvasive and accurate detection method for eight hotspot deafness-associated mutations based on buccal swab and droplet digital PCR (ddPCR). First, this method was evaluated for analytic performance including specificity, detection limit, dynamic range using plasmid DNA. The specificity was 100% and the detection limit was 5 copies. The dynamic range of this ddPCR-based method was from 10 to 10 copies/μL. Next, the method was found to accurately quantify mitochondrial gene heteroplasmy rate as low as 1% for both m.1494C > T and m.1555A > G sites. Then, we demonstrated that buccal swab was a reliable sample. DNA can be extracted and accurately quantified after a buccal swab had been stored for 90 days at either room temperature or -20 °C. Finally, clinical samples (23 DBSs and 42 buccal swabs) were tested to further evaluate the accuracy and clinical applicability of this method. All clinical samples were accurately quantified and genotyped. This noninvasive and accurate method is highly promising as a genetic screening method for deafness-associated mutations due to its high sensitivity and accuracy.
遗传性听力损失是人类常见的临床神经感觉障碍,对基因筛查的需求很高。目前使用外周血或干血斑(DBS)的筛查技术具有侵入性。因此,本研究旨在开发一种基于口腔拭子和液滴数字 PCR(ddPCR)的非侵入性和准确检测 8 个热点耳聋相关突变的方法。首先,该方法通过质粒 DNA 评估了分析性能,包括特异性、检测限和动态范围。特异性为 100%,检测限为 5 个拷贝。基于 ddPCR 的方法的动态范围为 10 至 10 拷贝/μL。接下来,该方法被发现可以准确地量化线粒体基因异质性率,对于 m.1494C>T 和 m.1555A>G 两个位点,其低至 1%的异质性率都可以被准确量化。然后,我们证明了口腔拭子是一种可靠的样本。在室温或-20°C 下储存 90 天后,口腔拭子可以提取和准确定量 DNA。最后,对 23 个 DBS 和 42 个口腔拭子的临床样本进行了测试,以进一步评估该方法的准确性和临床适用性。所有临床样本都被准确地定量和基因分型。由于该方法具有高灵敏度和准确性,因此这种非侵入性和准确的方法很有希望成为耳聋相关突变的遗传筛查方法。
