An initial check-reexamination strategy for analysis of H. Pylori DNA and single-nucleotide variants

Abstract

Helicobacter Pylori infection is drawing increasing attentions in public health, especially the drug resistance problems induced by Single-Nucleotide Variants (SNV). Diagnosis of H. Pylori remains challenging for its requirement in selectivity and sensitivity. Herein an initial check-reexamination strategy is designed for analysis of H. Pylori DNA and SNV. At the first stage, target DNA with all genotypes is captured to form a Y-shaped structure, resulting in an electrochemiluminescence (ECL) signal recovered from quenched states. Then Cas9 assisted cleavage processes are followed to cut off the Y-shaped structure, resulting in corresponding signal decrease. By means of these two stages with different selectivity, both the total amount of H. Pylori DNA and the ratio of SNV can be clarified. To expand its capacity, a large-scale screening assay is carried out on chip. Array detection improves the reliability and the following PCA analysis confirms the otherness. This approach improved the work efficiency and reduced the cost, which may offer an appealing option for the prevention and cure of H. pylori infections in the future.