Abstract
The presence of highly homologous pseudocopies can compromise the mutation analysis of a gene of interest. In particular, when using PCR-based strategies, pseudogene co-amplification has to be effectively prevented. This is often achieved by using primers designed to be parental gene specific according to the reference sequence and by applying stringent PCR conditions. However, there are cases in which this approach is of limited utility. For example, it has been shown that the PMS2 gene exchanges sequences with one of its pseudogenes, named PMS2CL. This results in functional PMS2 alleles containing pseudogene-derived sequences at their 3′-end and in nonfunctional PMS2CL pseudogene alleles that contain gene-derived sequences. Hence, the paralogues cannot be distinguished according to the reference sequence. This shortcoming can be effectively circumvented by using direct cDNA sequencing. This approach is based on the selective amplification of PMS2 transcripts in two overlapping 1.6-kb RT-PCR products. In addition to avoiding pseudogene co-amplification and allele dropout, this method has also the advantage that it allows to effectively identify deletions, splice mutations, and de novo retrotransposon insertions that escape the detection of most DNA-based mutation analysis protocols.
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Wimmer, K., Wernstedt, A. (2014). PMS2 Gene Mutational Analysis: Direct cDNA Sequencing to Circumvent Pseudogene Interference. In: Poliseno, L. (eds) Pseudogenes. Methods in Molecular Biology, vol 1167. Humana Press, New York, NY. https://doi.org/10.1007/978-1-4939-0835-6_20
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DOI: https://doi.org/10.1007/978-1-4939-0835-6_20
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