CLIPON: A CRISPR‐Enabled Strategy that Turns Commercial Pregnancy Test Strips into General Point‐of‐Need Test Devices
Yidan Tang, Lijuan Qi, Yichen Liu, Lulu Guo, Rujian Zhao, Meiting Yang, Yan Du, Bingling Li
Abstract
Desirable biosensing assays need to be sensitive, specific, cost-effective, instrument-free, and versatile. Herein we report a new strategy termed CLIPON (CRISPR and Large DNA assembly Induced Pregnancy strips for signal-ON detection) that can deliver these traits. CLIPON integrates a commercial pregnancy test strip (PTS) with four biological elements: the human chorionic gonadotropin (hCG), CRISPR-Cas12a, crRNA and cauliflower-like large-sized DNA assemblies (CLD). CLIPON uses the Cas12a/crRNA complex both to recognize a target of interest and to release CLD-bound hCG so that target presence can translate into a colorimetric signal on the PTS. We demonstrate the versatility of CLIPON through sensitive and specific detection of HPV genomic DNA, SARS-CoV-2 genomic RNA and adenosine. We also engineer a cell phone app and a hand-held microchip to achieve signal quantification. CLIPON represents an attractive option for biosensing and point-of-care diagnostics.