Abstract
Numerous human diseases are associated with abnormal expansion of unstable trinucleotide repeats (TNRs). TNR instability mechanisms are complex, and remain only partially understood. Small-pool-PCR (SP-PCR) is the reference method to assess TNR instability. SP-PCR amplifies a low number of DNA molecules and is followed by Southern blot. However, SP-PCR remains expensive and time consuming. Here, we describe an optimized SP-PCR that can be done in a day, which reduces cost and experimental biases: the flash-small-pool PCR (FSP-PCR). This method consists of a fluorescent PCR on a few DNA molecules, followed by an alkaline gel electrophoresis revealed with a near infra-red detector system. With reduced experimental steps, cost, and time consumption, microsatellite analysis will become more accessible due to FSP-PCR.
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