Ultrasensitive Point-of-Care Detection of Protein Markers Using an Aptamer-CRISPR/Cas12a-Regulated Liquid Crystal Sensor (ALICS).
Lubin QiJie LiuSonglin LiuYang LiuYating XiaoZhen ZhangWei ZhouYifei JiangXionghong FangPublished in: Analytical chemistry (2024)
Despite extensive efforts, point-of-care testing (POCT) of protein markers with high sensitivity and specificity and at a low cost remains challenging. In this work, we developed an aptamer-CRISPR/Cas12a-regulated liquid crystal sensor (ALICS), which achieved ultrasensitive protein detection using a smartphone-coupled portable device. Specifically, a DNA probe that contained an aptamer sequence for the protein target and an activation sequence for the Cas12a-crRNA complex was prefixed on a substrate and was released in the presence of target. The activation sequence of the DNA probe then bound to the Cas12a-crRNA complex to activate the collateral cleavage reaction, producing a bright-to-dark optical change in a DNA-functionalized liquid crystal interface. The optical image was captured by a smartphone for quantification of the target concentration. For the two model proteins, SARS-CoV-2 nucleocapsid protein (N protein) and carcino-embryonic antigen (CEA), ALICS achieved detection limits of 0.4 and 20 pg/mL, respectively, which are higher than the typical sensitivity of the SARS-CoV-2 test and the clinical CEA test. In the clinical sample tests, ALICS also exhibited superior performances compared to those of the commercial ELISA and lateral flow test kits. Overall, ALICS represents an ultrasensitive and cost-effective platform for POCT, showing a great potential for pathogen detection and disease monitoring under resource-limited conditions.
Keyphrases
- crispr cas
- label free
- sars cov
- genome editing
- gold nanoparticles
- amino acid
- quantum dots
- protein protein
- low cost
- binding protein
- transcription factor
- sensitive detection
- loop mediated isothermal amplification
- real time pcr
- small molecule
- molecularly imprinted
- deep learning
- candida albicans
- coronavirus disease
- mass spectrometry
- dna binding
- circulating tumor
- magnetic nanoparticles