One-base-mismatch CRISPR-based transistors for single nucleotide resolution assay.

One-base-mismatch CRISPR-based transistors for single nucleotide resolution assay.

Publication date: Oct 15, 2024

An effective strategy for accurately detecting single nucleotide variants (SNVs) is of great significance for genetic research and diagnostics. However, strict amplification conditions, complex experimental instruments, and specialized personnel are required to obtain a satisfactory tradeoff between sensitivity and selectivity for SNV discrimination. In this study, we present a CRISPR-based transistor biosensor for the rapid and highly selective detection of SNVs in viral RNA. By introducing a synthetic mismatch in the crRNA, the CRISPR-Cas13a protein can be engineered to capture the target SNV RNA directly on the surface of the graphene channel. This process induces a fast electrical signal response in the transistor, obviating the need for amplification or reporter molecules. The biosensor exhibits a detection limit for target RNA as low as 5 copies in 100 μL, which is comparable to that of real-time quantitative polymerase chain reaction (PCR). Its operational range spans from 10 to 5 cD7 10 copy mL in artificial saliva solution. This capability enables the biosensor to discriminate between wild-type and SNV RNA within 15 min. By introducing 10 μL of swab samples during clinical testing, the biosensor provides specific detection of respiratory viruses in 19 oropharyngeal specimens, including influenza A, influenza B, and variants of SARS-CoV-2. This study emphasizes the CRISPR-transistor technique as a highly accurate and sensitive approach for field-deployable nucleic acid screening or diagnostics.

Concepts Keywords
100l Base Pair Mismatch
Base Biosensing Techniques
Bioelectron Biosensor
Fast COVID-19
Influenza CRISPR-Cas Systems
CRISPR-Cas13a
Epidemic detection
Graphene field-effect transistor
Graphite
Graphite
Humans
Limit of Detection
Polymorphism, Single Nucleotide
RNA, Viral
RNA, Viral
SARS-CoV-2
Single nucleotide variants
Transistors, Electronic

Semantics

Type Source Name
disease IDO assay
disease VO effective
disease IDO process
disease VO time
disease VO Viruses
pathway KEGG Influenza A
disease MESH influenza
disease MESH Base Pair Mismatch
disease MESH COVID-19

Original Article

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