A variety of methods that address the detection of single-nucleotide polymorphism (SNP) have been used in molecular diagnostics. The allele-specific polymerase chain reaction (ASPCR) has been one of the most extensively studied, including its application in the tumor necrosis factor (TNF)(-308) genotyping. Many studies have demonstrated that the ASPCR sensitivity and specificity depends on various PCR parameters, with mismatches occurring to a degree of 4%. The purpose of our study was to evaluate a comparison of genotyping of the TNF(-308) using an ASPCR and automated sequencing (ASEQ). In a total of 204 DNA samples, their duplicate examination by the ASPCR and ASEQ revealed concordant results in 96.5% and mismatches in 3.5% genotypes. Depending on the target TNF(-308G/G), TNF(-308G/A) , TNF(-308A/A) sequences, this translated into decreased ASPCR sensitivity to a degree of 98.6%, 94.2%, 60.0%, specificity 94.7%, 97.4%, 100.0%, positive predictive values 97.9%, 92.5%, 100.0%, and negative predictive values 96.4%, 98.0%, 99.0%, respectively. Based on these results, we found ASEQ to be more accurate than ASPCR for the TNF(-308) genotyping. By eliminating the need of empirical determination of appropriate PCR conditions for each studied sequence, ASEQ provides a sensitive and reproducible quality-control benchmark for other SNP assays.