Investigating Single-Molecule Molecular Inversion Probes for Medium-Scale Targeted DNA Methylation Analysis.

IF 3.5 Q3 GENETICS & HEREDITY Epigenomes Pub Date : 2025-03-02 DOI:10.3390/epigenomes9010008

Roy B Simons, Hieab H H Adams, Manfred Kayser, Athina Vidaki

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Abstract

Background: Epigenetic biomarkers, particularly CpG methylation, are increasingly employed in clinical and forensic settings. However, we still lack a cost-effective, sensitive, medium-scale method for the analysis of hundreds to thousands of user-defined CpGs suitable for minute DNA input amounts (<10 ng). In this study, motivated by promising results in the genetics field, we investigated single-molecule molecular inversion probes (smMIPs) for simultaneous analysis of hundreds of CpGs by using an example set of 514 age-associated CpGs (Zhang model).

Methods: First, we developed a novel smMIP design tool to suit bisulfite-converted DNA (Locksmith). Then, to optimize the capture process, we performed single-probe capture for ten selected, representative smMIPs. Based on this pilot, the full smMIP panel was tested under varying capture conditions, including hybridization and elongation temperature, smMIP and template DNA amounts, dNTP concentration and elongation time.

Results: Overall, we found that the capture efficiency was highly probe-(and hence, sequence-) dependent, with a heterogeneous coverage distribution across CpGs higher than the 1000-fold range. Considering CpGs with at least 20X coverage, we yielded robust methylation detection with levels comparable to those obtained from the gold standard EPIC microarray analysis (Pearsons's r: 0.96).

Conclusions: The observed low specificity and uniformity indicate that smMIPs in their current form are not compatible with the lowered complexity of bisulfite-converted DNA.

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研究用于中等规模靶向DNA甲基化分析的单分子分子倒置探针。

背景：表观遗传生物标志物，特别是CpG甲基化，越来越多地应用于临床和法医环境。然而，我们仍然缺乏一种经济、敏感、中等规模的方法来分析数百到数千个适合微量DNA输入量的用户自定义cpg(方法：首先，我们开发了一种新的smMIP设计工具来适应亚硫酸氢盐转化的DNA （Locksmith）。然后，为了优化捕获过程，我们对十个选定的具有代表性的smmip执行单探针捕获。在此基础上，在不同的捕获条件下测试了完整的smMIP面板，包括杂交和延伸温度，smMIP和模板DNA数量，dNTP浓度和延伸时间。结果：总体而言，我们发现捕获效率高度依赖于探针（因此，序列），在CpGs中具有高于1000倍范围的异质覆盖分布。考虑到CpGs的覆盖率至少为20倍，我们获得了与金标准EPIC微阵列分析结果相当的强大的甲基化检测（pearson’s r: 0.96）。结论：观察到的低特异性和均匀性表明，目前形式的smMIPs与亚硫酸氢盐转化DNA的复杂性降低不相容。

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