An in-house multilocus SNP genotyping assay for evaluation of complex genetic diseases

摘要

Background: With an increase in the discovery of newer genetic loci/polymorphisms in complex multifactorial diseases, there is also an increased need for methods that can simultaneously genotype multiple loci in a cost-effective manner. Using coronary artery disease (CAD) as a model, the study aimed to develop an in-house multilocus assay for simultaneous detection of 17 genetic variants in 11 genes implicated in CAD.Methods: A multiplex polymerase chain reaction (PCR)-based reverse line blot hybridization (MPCR-RLBH) approach was used, where each DNA sample was amplified using two separate MPCRs, and the alleles were genotyped using covalently immobilized, amino-linked sequence-specific oligonucleotide probes using an enhanced chemiluminescence system. The assay performance was tested on 75 healthy controls and 75 angiographically proven CAD cases. Validation was done by automated Sanger sequencing.Results: The assay could successfully discriminate both the alleles at CETP (I405V), LPL (D9N), NOS3 (T-786G and E298D), LIPC (C-514T), FGB (G-455A), ITGB3 (L33P), AGT (M235T), and MTR (A2756G) loci. Certain mutations included in this assay such as ins242G, ins397G, E387K, L393K in the LDLR; N291S in the LPL; D442G in the CETP; and T833C in the CBS genes were found to be absent. The genotype results obtained using this assay showed 100% concordance with sequencing.Conclusion: The study demonstrated development and validation of a multiplex SNP genotyping assay that can be used to assess genetic risk factors in CAD. The assay provides a cost-effective alternative to expensive high throughput genotyping systems in common molecular research laboratories.