Heat-transfer-based detection of SNPs in the PAH gene of PKU patients.

[phenylketonuria]

Conventional neonatal diagnosis of phenylketonuria is based on the presence of abnormal levels of phenylalanine in the blood . However , for carrier detection and prenatal diagnosis , direct detection of disease-correlated mutations is needed . To speed up and simplify mutation screening in genes , new technologies are developed . In this study , a heat-transfer method is evaluated as a mutation -detection technology in entire exons of the phenylalanine hydroxylase (PAH ) gene . This method is based on the change in heat-transfer resistance (R (th )) upon thermal denaturation of dsDNA (double -stranded DNA ) on nanocrystalline diamond . First , ssDNA (single -stranded DNA ) fragments that span the size range of the PAH exons were successfully immobilized on nanocrystalline diamond . Next , it was studied whether an R (th ) change could be observed during the thermal denaturation of these DNA fragments after hybridization to their complementary counterpart . A clear R (th ) shift during the denaturation of exon 5 , exon 9 , and exon 12 dsDNA was observed , corresponding to lengths of up to 123 bp . Finally , R (th ) was shown to detect prevalent single -nucleotide polymorphisms , c .473 G >A (R 158 Q ), c .932 T >C (p .L 311 P ), and c .1222 C >T (R 408 W ), correlated with phenylketonuria , displaying an effect related to the different melting temperatures of homoduplexes and heteroduplexes .