Magnetic Bead-Quantum Dot (MB-Qdot) Clustered Regularly Interspaced Short Palindromic Repeat Assay for Simple Viral DNA Detection.

We have developed a novel detection system that couples clustered regularly interspaced short palindromic repeat-Cas recognition of target sequences, Cas-mediated nucleic acid probe cleavage, and quantum dots as highly sensitive reporter molecules for simple detection of viral nucleic acid targets. After target recognition and Cas-mediated cleavage of biotinylated ssDNA probe molecules, the probe molecules are bound to magnetic beads. A complementary ssDNA oligonucleotide quantum dot conjugate is then added, which only hybridizes to uncleaved probes on the magnetic beads. After separating hybridized quantum dots, the collected supernatant is illuminated by a portable ultraviolet flashlight, and it provides a simple "Yes-or-No" nucleic acid detection answer. By using a DNA target matching part of the African swine fever virus, detection limits of ∼0.5 and ∼1.25 nM are achieved in buffer and porcine plasma, respectively. The positive samples are readily confirmed by visual inspection, completely avoiding the need for complicated devices and instruments. This work establishes the feasibility of a simple assay for nucleic acid screening in both hospitals and point-of-care settings.

High-throughput and all-solution phase African Swine Fever Virus (ASFV) detection using CRISPR-Cas12a and fluorescence based point-of-care system.

Here we report the development of a high throughput, all-solution phase, and isothermal detection system for African Swine Fever Virus (ASFV). CRISPR-Cas12a programmed with a CRISPR RNA (crRNA) is used to detect ASFV target DNA. Upon ASFV DNA binding, the Cas12a/crRNA/ASFV DNA complex becomes activated and degrades a fluorescent single stranded DNA (ssDNA) reporter present in the assay. We combine this powerful CRISPR-Cas assay with a fluorescence-based point-of-care (POC) system for rapid and accurate virus detection. Without nucleic acid amplification, a detection limit of 1 pM is achieved within 2 h. In addition, the ternary Cas12a/crRNA/ASFV DNA complex is highly stable at physiological temperature and continues to cleave the ssDNA reporter even after 24 h of incubation, resulting in an improved detection limit of 100 fM. We show that this system is very specific and can differentiate nucleic acid targets with closely matched sequences. The high sensitivity and selectivity of our system enables the detection of ASFV in femtomolar range. Importantly, this system features a disposable cartridge and a sensitive custom designed fluorometer, enabling compact and simple ASFV detection, intended for low resource settings.