2020 Virtual AIChE Annual Meeting
(556f) CRISPR-Cas12a Mediated Universal Electrochemical Biosensing Platform (Faculty/Industry Candidate)
Authors
Yifan Dai - Presenter, Duke University
Chung-Chiun Liu, Case Western Reserve University
Wei Xu, Case Western Reserve University
Rodrigo A Somoza, Case Western Reserve University
Jean F. Welter, Case Western Reserve University
Arnold I. Caplan, Case Western Reserve University
An accurate, rapid, and costâeffective biosensor for the quantification of disease biomarkers is vital for the development of earlyâdiagnostic pointâofâcare systems. The recent discovery of the transâcleavage property of CRISPR type V effectors makes CRISPR a potential highâaccuracy bioârecognition tool. Herein, a CRISPRâCas12a (cpf1) based electrochemical biosensor (EâCRISPR) is demonstrated, which is more costâeffective and portable than opticalâtransductionâbased biosensors. Through optimizing the in vitro transâcleavage activity of Cas12a, EâCRIPSR was used to detect viral nucleic acids, including human papillomavirus 16 (HPVâ16) and parvovirus B19 (PBâ19), with a picomolar sensitivity. An aptamerâbased EâCRISPR cascade was further designed for the detection of transforming growth factor β1 (TGFâβ1) protein in clinical samples. As demonstrated, EâCRISPR could enable the development of portable, accurate, and costâeffective pointâofâcare diagnostic systems.