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CRISPR/deadCas9-based high-throughput gene doping analysis (HiGDA): A proof of concept for exogenous human erythropoietin gene doping detection

Joon‐Yeop Yi, Minyoung Kim, Jung Ho Ahn, Byung‐Gee Kim, Junghyun Son, Changmin Sung

2023Talanta16 citationsDOIOpen Access PDF

Abstract

A genetic approach targeted toward improving athletic performance is called gene doping and is prohibited by the World Anti-Doping Agency. Currently, the clustered regularly interspaced short palindromic repeats-associated protein (Cas)-related assays have been utilized to detect genetic deficiencies or mutations. Among the Cas proteins, deadCas9 (dCas9), a nuclease-deficient mutant of Cas9, acts as a DNA binding protein with a target-specific single guide RNA. On the basis of the principles, we developed a dCas9-based high-throughput gene doping analysis for exogenous gene detection. The assay comprises two distinctive dCas9s, a magnetic bead immobilized capture dCas9 for exogenous gene isolation and a biotinylated dCas9 with streptavidin–polyHRP that enables rapid signal amplification. For efficient biotin labeling via maleimide–thiol chemistry, two cysteine residues of dCas9 were structurally validated, and the Cys574 residue was identified as an essential labeling site. As a result, we succeeded in detecting the target gene in a concentration as low as 12.3 fM (7.41 × 105 copies) and up to 10 nM (6.07 × 1011 copies) in a whole blood sample within 1 h with HiGDA. Assuming an exogenous gene transfer scenario, we added a direct blood amplification step to establish a rapid analytical procedure while detecting target genes with high sensitivity. Finally, we detected the exogenous human erythropoietin gene at concentrations as low as 2.5 copies within 90 min in 5 μL of the blood sample. Herein, we propose that HiGDA is a very fast, highly sensitive, and practical detection method for actual doping field in the future.

Topics & Concepts

ChemistryCRISPRGeneBiotinylationCas9NucleaseMolecular biologyComputational biologyBiochemistryBiologyCRISPR and Genetic EngineeringViral Infections and Immunology ResearchViral Infectious Diseases and Gene Expression in Insects