qBiCo: A method to assess global DNA conversion performance in epigenetics via single-copy genes and repetitive elements

Faidra Karkala, Roy B. Simons, Floor Claessens, Vivian Kalamara, Manfred Kayser, Athina Vidaki
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Abstract

Human DNA methylation profiling offers great promises in various biomedical applications, including ageing, cancer and even forensics. So far, most DNA methylation techniques are based on a chemical process called sodium bisulfite conversion, which specifically converts non-methylated cytosines into uracils. However, despite the popularity of this approach, it is known to cause DNA fragmentation and loss affecting standardization, while incomplete conversion may result in potential misinterpretation of methylation-based outcomes. To offer the community a solution, we developed qBiCo - a novel quality-control method to address the quantity and quality of bisulfite-converted DNA. qBiCo is a 5-plex, TaqMan® probe-based, quantitative (q)PCR assay that amplifies single- and multi-copy DNA fragments of converted and non-converted nature. It estimates four parameters: converted DNA concentration, fragmentation, global conversion efficiency, and potential PCR inhibition. We optimized qBiCo using synthetic DNA standards and assessed it using standard developmental validation criteria, showcasing that qBiCo is reliable, robust and sensitive down to picogram level. We also evaluated its performance by testing decreasing DNA amounts using several commercial bisulfite conversion kits. Depending on the starting DNA quantity, bisulfite-converted DNA recoveries ranged from 8.5 – 100 %, conversion efficiencies from 78 – 99.9 %, while certain kits highly fragment DNA, demonstrating large variability in their performance. Towards building a prototype tool, we further optimized key functionalities, for example, by replacing the poorest performing single-plex assay and creating a more representative DNA standard. Aiming to scale-up and move towards implementation, we successfully transferred and validated our novel method in six different qPCR platforms from different major manufacturers. Overall, with the present study, we offer researchers in the epigenetic field a novel long-awaited QC tool that for the first time allows them to measure key quality and quantity parameters of the most popular DNA conversion process. The tool also enables standardization to prevent inconsistent data and false outcomes in the future, regardless of the downstream experimental analysis of DNA methylation-based research and applications across different fields of biology and biomedicine.
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qBiCo:通过单拷贝基因和重复元件评估表观遗传学中全球 DNA 转换性能的方法
人类 DNA 甲基化分析为各种生物医学应用,包括老龄化、癌症甚至法医学,提供了巨大的前景。迄今为止,大多数 DNA 甲基化技术都是基于一种称为亚硫酸氢钠转化的化学过程,该过程专门将非甲基化胞嘧啶转化为尿嘧啶。然而,尽管这种方法很受欢迎,但众所周知,它会导致 DNA 断裂,影响标准化,而不完全的转化可能会导致对基于甲基化的结果产生潜在的误读。qBiCo 是一种基于 TaqMan® 探针的 5 复式定量(q)PCR 检测方法,可扩增已转化和未转化的单拷贝和多拷贝 DNA 片段。它能估算四个参数:转化 DNA 浓度、片段、整体转化效率和潜在的 PCR 抑制。我们使用合成 DNA 标准对 qBiCo 进行了优化,并使用标准开发验证标准对其进行了评估,结果表明 qBiCo 可靠、稳健且灵敏度低至皮克级。我们还使用几种商业亚硫酸氢盐转换试剂盒测试了 DNA 数量的减少,从而评估了它的性能。根据起始 DNA 数量的不同,亚硫酸氢盐转化 DNA 的回收率从 8.5 % 到 100 % 不等,转化效率从 78 % 到 99.9 % 不等,而某些试剂盒会对 DNA 进行高度片段化,这表明它们的性能存在很大差异。为了建立工具原型,我们进一步优化了关键功能,例如,替换了性能最差的单复式检测方法,并创建了更具代表性的 DNA 标准。为了扩大规模并付诸实施,我们成功地在来自不同主要制造商的六种不同 qPCR 平台上转移并验证了我们的新方法。总之,通过本研究,我们为表观遗传学领域的研究人员提供了一种期待已久的新型质量控制工具,首次允许他们测量最流行的 DNA 转换过程的关键质量和数量参数。该工具还实现了标准化,以防止将来出现数据不一致和错误结果,无论基于 DNA 甲基化的下游实验分析研究和应用涉及不同的生物学和生物医学领域。
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