Single-Nucleotide-Specific Lipidic Nanoflares for Precise and Visible Detection of KRAS Mutations via Toehold-Initiated Self-Priming DNA Polymerization.
Chan LiHaiyan JiaXiaoling WeiGuohui XueJiang-Guo XuRuize ChengYinghao ChengQiufeng SongZhifa ShenChang XuePublished in: Analytical chemistry (2024)
Accurate identification of single-nucleotide mutations in circulating tumor DNA (ctDNA) is critical for cancer surveillance and cell biology research. However, achieving precise and sensitive detection of ctDNAs in complex physiological environments remains challenging due to their low expression and interference from numerous homologous species. This study introduces single-nucleotide-specific lipidic nanoflares designed for the precise and visible detection of ctDNA via toehold-initiated self-priming DNA polymerization (TPP). This system can be assembled from only a single cholesterol-conjugated multifunctional molecular beacon (MMB) via hydrophobicity-mediated aggregation. This results in a compact, high-density, and nick-hidden arrangement of MMBs on the surface of lipidic micelles, thereby enhancing their biostability and localized concentrations. The assay commences with the binding of frequently mutated regions of ctDNA to the MMB toehold domain. This domain is the proximal holding point for initiating the TPP-based strand-displacement reaction, which is the key step in enabling the discrimination of single-base mutations. We successfully detected a single-base mutation in ctDNA (KRAS G12D) in its wild-type gene (KRAS WT), which is one of the most frequently mutated ctDNAs. Notably, coexisting homologous species did not interfere with signal transduction, and small differences in these variations can be visualized by fluorescence imaging. The limit of detection was as low as 10 amol, with the system functioning well in physiological media. In particular, this system allowed us to resolve genetic mutations in the KRAS gene in colorectal cancer, suggesting its high potential in clinical diagnosis and personalized medicine.
Keyphrases
- circulating tumor
- wild type
- cell free
- circulating tumor cells
- loop mediated isothermal amplification
- sensitive detection
- fluorescence imaging
- high density
- genome wide
- drug delivery
- copy number
- dna damage
- photodynamic therapy
- label free
- real time pcr
- poor prognosis
- quantum dots
- cancer therapy
- single molecule
- squamous cell carcinoma
- gene expression
- dna methylation
- young adults
- single cell
- papillary thyroid
- dna binding
- long non coding rna
- mesenchymal stem cells
- lymph node metastasis