LAMP‐MS for Locus‐Specific Visual Quantification of DNA 5mC and RNA m6A Using Ultra‐Low Input

Abstract Enhancing the effectiveness of utilizing circulating cell‐free DNA (cfDNA) for disease screening remains a challenge, necessitating improved sensitivity, specificity, cost‐efficiency, and patient adherence. We present here LAMP‐MS, an innovative technology that integrates linear amplification with single‐base quantitative nucleic acid mass spectrometry on silicon chips. This approach overcomes several limitations in utilizing cfDNA 5‐methylcytosine (5 mC) status for colorectal cancer (CRC) screening. LAMP‐MS enables unbiased amplification of as little as 1 ng of cfDNA, site‐specifically quantify methylation levels of multiple 5 mC sites, thereby facilitating cost‐effective, high‐resolution quantitative detection of cfDNA methylation markers. We have validated the accuracy of DNA methylation determination using DNA probes and cfDNA from patient plasma samples, confirmed by mass spectrometric peak areas. Additionally, we have further shown this Mass Array technology could be expanded to also quantify RNA m 6 A modification sites. Combining the ability to work with ultra‐low input materials and a visually interpretable output, LAMP‐MS stands out as a promising method for real‐world applications in clinics and laboratories for nucleic acid methylation detection and quantification.