Abstract
The amount of DNA available for informative genomic studies is often limiting. Thus, several methods have been developed to achieve a whole genome amplification (WGA). Particu-larly promising is a variant, called multiple displacement amplification (MDA) (1,2), which exploits the high processivity of Φ29 phage DNA polymerase and suffers an amplifi-cation bias significantly lower than previous, PCR-based WGA (3).Even though MDA-DNA has been successfully used for many applica-tions (1,4–7), some problems have been reported. For example, sequences near the ends of linear chromosomes appear underrepresented after MDA (6,8,9). Both defective priming events and abortive chain terminations could contribute to this problem, which limits the applications of MDA and jeopardizes its use on short linear DNA (e.g., cDNA and degraded genomes from forensic, archeological, and fetal origin) (10). In these cases, the terminal underrepresentation would cause the loss of substantial information.We studied this problem using λ phage DNA (48.5 kb; Promega Biosciences, San Luis Obispo, CA, USA). MDA was performed using the Genomiphi
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