Canine DNA Subjected to Whole Genome Amplification is Suitable for a Wide Range of Molecular Applications

doi:10.1093/jhered/esi126

Journal of Heredity Advance Access originally published online on November 2, 2005
Journal of Heredity 2005 96(7):829-835; doi:10.1093/jhered/esi126

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Canine DNA Subjected to Whole Genome Amplification is Suitable for a Wide Range of Molecular Applications

A. D. Short, L. J. Kennedy, O. Forman, A. Barnes, N. Fretwell, R. Wiggall, W. Thomson, and W. E. R. Ollier

From the Centre for Integrated Genomic Medical Research, Stopford Building, University of Manchester, Manchester, UK (Short, Kennedy, Thomson, and Ollier); Mammalian Immunogenetics Research Group, Veterinary Clinical Sciences, University of Liverpool, Liverpool, UK (Barnes); Waltham Centre for Pet Nutrition, Freeby Lane, Leicestershire, UK (Fretwell and Wiggall); and Animal Health Trust, Newmarket, Suffolk, UK (Forman)

Address correspondence to Andrea D. Short at the address above, or e-mail: andrea.short{at}manchester.ac.uk.

Molecular and genetic studies of canine disease phenotypes canbe limited by the amount of DNA available for analysis. Newmethods have been developed to amplify the genomic DNA of aspecies producing large quantities of DNA from small startingamounts. Whole genome amplification (WGA) of DNA is now beingused in human studies, although this technique has not beenapplied extensively in veterinary research. We evaluated WGAof canine DNA for suitability in a range of molecular tests.DNA from 93 canine blood extracted and 18 buccal swab sampleswas subjected to WGA using the GenomiPhi kit (Amersham). GenomicDNA was compared with WGA product using a range of techniques,including reference strand-mediated conformation analysis, denaturinghigh-performance liquid chromatography analysis, microsatellitegenotyping, direct DNA sequencing, and single nucleotide polymorphismallelic discrimination. All samples amplified well, giving anaverage yield of 3 µg of DNA from 2.5 ng of starting material.Extremely high levels of experimental reproducibility and concordancewere observed between source and WGA DNA samples for all analysesused: greater than 95% for blood extracted DNA and greater than80% for buccal swab DNA. These studies clearly demonstrate theusefulness of WGA of canine DNA as a means of increasing DNAquantities for canine studies. This technique will have majorimplications for future veterinary research.

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