Abstract
Diseases caused by viruses, such as monkeypox virus (MPXV) and human papillomavirus (HPV), pose serious threats to human health and safety. Although numerous strategies have been constructed for detecting MPXV and HPV DNA, most methods require either laborious procedures or complicated instruments involving skilled professionals. In this research, a CRISPR-Cas12a-mediated colorimetric detection platform for MPXV and HPV sensing was constructed for the first time by applying probe DNA to reprogram the catalytic properties of molybdenum disulfide quantum dots (MoS2 QDs). In the presence of MPXV or HPV targets, the CRISPR-Cas12a trans-cleavage activity is effectively motivated to decompose the probe DNA, leading to the suppression of enzymatic activity DNA enhancer adsorbed on MoS2 QDs, resulting in greatly decreased catalytic behaviors. The MoS2 QDs-DNA nanohybrids displayed prominent specificity and sensitivity, with detection limits at subpicomolar levels, as well as excellent stability and accuracy for determining MPXV and HPV DNA in human sera biosamples. Furthermore, the proposed colorimetric biosensing approach can be ensembled with a smartphone platform, allowing visible analysis of DNA targets. Taken together, this colorimetric strategy offers a novel diagnosis method for MPXV and HPV DNA detection, particularly favorable for highly endemic developing countries with restricted medical and instrumental support.
Published Version
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