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The Use of Whole Genome Amplification in the Study of Human Disease

Overview
Journal Prog Biophys Mol Biol
Specialties Biophysics
Molecular Biology
Date 2004 Nov 25
PMID 15561304
Citations 24
Authors
Simon Hughes
Nona Arneson
Susan Done
Jeremy Squire
Affiliations
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Abstract

The availability of large amounts of genomic DNA is of critical importance for many of the molecular biology assays used in the analysis of human disease. However, since the amount of patient tissue available is often limited and as particular foci of interest may consist of only a few hundred cells, the yield of DNA is often insufficient for extensive analysis. To address this problem, several whole genome amplification (WGA) methodologies have been developed. Initial WGA approaches were based on the polymerase chain reaction (PCR). However, recent reports have described the use of non-PCR-based linear amplification protocols for WGA. Using these methods, it is possible to generate microgram quantities of DNA starting with as little as 1mg of genomic DNA. This review will provide an overview of WGA approaches and summarize some of the uses for amplified DNA in various high-throughput genetic applications.

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