Single-strand conformation polymorphism for detection of mutations and base substitutions in phenylketonuria.

Abstract

In the past few years, more than 20 different mutations have been reported in hyperphenylalaninemias. In southwestern Europe and Mediterranean countries, however, the mutant genotypes reported account for only a fraction (27%) of all mutant alleles at the phenylalanine hydroxylase (PAH) locus, and most of the mutations causing the disease remain unknown. In order to develop a strategy for rapid detection of mutation-containing exons, we applied the single-strand conformation-polymorphism (SSCP) technique to exons 3, 5, 7, and 12 of the PAH gene. We observed five abnormal patterns of migration in mutant PAH genes, and we consistently found base substitutions in the corresponding exons, with no false-positive results. By this procedure, two novel putative mutations were detected in the seventh exon of the PAH gene, (A259V and Y277D) and we were able to demonstrate that the delta I94, R158Q, R408W, and E280K mutations were easily detectable by the SSCP technique. This procedure is therefore of particular interest for rapid detection of mutation-containing exons and for determination of further genotype-phenotype correlations in hyperphenylalaninemias.