Accurate measurement of microsatellite length by disrupting its tandem repeat structure

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Abstract

Tandem repeats of simple sequence motifs, also known as microsatellites, are abundant in the genome. Because their repeat structure makes replication error-prone, variant microsatellite lengths are often generated during germline and other somatic expansions. As such, microsatellite length variations can serve as markers for cancer. However, accurate error-free measurement of microsatellite lengths is difficult with current methods precisely because of this high error rate during amplification. We have solved this problem by using partial mutagenesis to disrupt enough of the repeat structure of initial templates so that their sequence lengths replicate faithfully. In this work, we use bisulfite mutagenesis to convert a C to a U, later read as T. Compared to untreated templates, we achieve three orders of magnitude reduction in the error rate per round of replication. By requiring agreement from two independent first copies of an initial template, we reach error rates below one in a million. We apply this method to a thousand microsatellite loci from the human genome, revealing microsatellite length distributions not observable without mutagenesis.

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APA

Wang, Z., Moffitt, A. B., Andrews, P., Wigler, M., & Levy, D. (2022). Accurate measurement of microsatellite length by disrupting its tandem repeat structure. Nucleic Acids Research, 50(20), E116–E116. https://doi.org/10.1093/nar/gkac723

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