DIRECT 2 : A novel platform for a CRISPR-Cas12-based assay comprising universal DNA-IgG probe and a direct lateral flow test.

CRISPR-Cas12-based biosensors are a promising tool for the detection of nucleic acids. After dsDNA-target-activated Cas12 cleaves the ssDNA probe, a lateral flow test (LFT) is applied for rapid, simple, and out-of-laboratory detection of the cleaved probe. However, most of the existing approaches of LFT detection have disadvantages related to inverted test/control zones in which the assay result depends not only on the cleavage of the probe but also on the second factor: the binding of the non-cleaved probe in the control zone. We proposed a novel platform for the detection of trans-cleaved DNA using a universal DNA-IgG probe and LFT with the sequential direct location of test and control zones. The advantage of the platform consists of the assay result depending only on the cleaved probe. For this, we designed a composite probe that comprise two parts: the DNA part (biotinylated dsDNA connected to ssDNA with fluorescein) (FAM), and the antibody part (mouse anti-FAM IgG). The Cas12, with guide RNA, was activated by the dsDNA-target. The activated Cas12 cleaved the probe, releasing the ssDNA-FAM-IgG reporter that was detected by the LFT. The sandwich LFT was proposed with anti-mouse IgG adsorbed in the test zone and on the surface of gold nanoparticles. We called the platform with direct location zones and direct analyte-signal dependence the DNA-Immunoglobulin Reporter Endonuclease Cleavage Test (DIRECT ² ). Therefore, this proof-of-concept study demonstrated that the combination of the proposed DNA-IgG probe and direct LFT opens new opportunities for CRISPR-Cas12 activity detection and its bioanalytical applications.
(Copyright © 2022 Elsevier B.V. All rights reserved.)