%0 Journal Article
%T Saliva samples are a viable alternative to blood samples as a source of DNA for high throughput genotyping
%A Jean E Abraham
%A Mel J Maranian
%A Inmaculada Spiteri
%A Roslin Russell
%A Susan Ingle
%A Craig Luccarini
%A Helena M Earl
%A Paul DP Pharoah
%A Alison M Dunning
%A Carlos Caldas
%J BMC Medical Genomics
%D 2012
%I BioMed Central
%R 10.1186/1755-8794-5-19
%X Patients were recruited from the Pharmacogenetics of Breast Cancer Chemotherapy (PGSNPS) study. Paired blood and saliva samples were collected from 79 study participants. The Oragene DNA Self-Collection kit (DNAgenotek£¿) was used to collect and extract DNA from saliva. DNA from EDTA blood samples (median volume 8 ml) was extracted by Gen-Probe, Livingstone, UK. DNA yields, standard measures of DNA quality, genotype call rates and genotype concordance between paired, duplicated samples were assessed.Total DNA yields were lower from saliva (mean 24 ¦Ìg, range 0.2¨C52 ¦Ìg) than from blood (mean 210 ¦Ìg, range 58¨C577 ¦Ìg) and a 2-fold difference remained after adjusting for the volume of biological material collected. Protein contamination and DNA fragmentation measures were greater in saliva DNA. 78/79 saliva samples yielded sufficient DNA for use on Illumina Beadchip arrays and using Taqman assays. Four samples were randomly selected for genotyping in duplicate on the Illumina Beadchip arrays. All samples were genotyped using Taqman assays. DNA quality, as assessed by genotype call rates and genotype concordance between matched pairs of DNA was high (>97%) for each measure in both blood and saliva-derived DNA.We conclude that DNA from saliva and blood samples is comparable when genotyping using either Taqman assays or genome-wide chip arrays. Saliva sampling has the potential to increase participant recruitment within clinical trials, as well as reducing the resources and organisation required for multicentre sample collection.
%U http://www.biomedcentral.com/1755-8794/5/19/abstract