Successful automated allele calling.
Successful automated allele calling.
Highly specific probe binding.
Highly specific probe binding.
Genotyping workflow.
Genotyping workflow.
Reliable SNP genotyping with small amounts of template.
Reliable SNP genotyping with small amounts of template.
Successful automated allele calling.

Average automated allele call rates for a panel of different DNAs were analyzed using 6 different TaqMan® MGB-based SNP genotyping assays and 1 ng of genomic DNA from each of the 60 samples. PCR was performed with the indicated products in 384-well plates in a 5 μl reaction volume. Allelic discrimination plate read was performed on an Applied Biosystems 7900HT instrument. The Type-it Fast SNP Probe PCR Kit consistently resulted in the highest call rates and the lowest error rates.
Highly specific probe binding.

Buffer systems from other suppliers used for SNP genotyping often show poorer separation of allele clusters due to nonspecific binding of the mismatch probe. The Type-it Fast SNP Probe Buffer System provides increased discrimination by narrowing the probe melting temperature window, thereby reducing nonspecific binding of the mismatch probe. Wide and clear separation of allele clusters is obtained.
Genotyping workflow. The Type-it Fast SNP Probe PCR Master Mix consists of highly specific HotStarTaq Plus Polymerase, which enables fast and easy reaction setup at room temperature and ensures highly specific amplification — even with low template amounts.
Reliable SNP genotyping with small amounts of template. Allelic discrimination was performed with a panel of 80 different genomic DNAs (10 ng or 1 ng each in 5 μl reactions) using either the [A] Type-it Fast SNP Probe PCR Kit or [B] a genotyping master mix from Supplier A. Even when using low amounts of template, the Type-it Fast SNP Probe PCR Master Mix outperformed the master mix from Supplier A and provided tight clustering of alleles and reliable results. PCR was performed with a TaqMan® SNP genotyping assay for rs 951134 (aryl-hydrocarbon receptor repressor gene) and 2 no template controls (NTCs) and analyzed on an Applied Biosystems 7900HT instrument. Black: NTCs; blue: homozygous for T allele (FAM fluorescence); green: heterozygous samples; red: homozygous for A allele (VIC fluorescence). Data was analyzed with 98% confidence.