Identification of in vivo mutations in exon 5 of the human HPRT gene in a set of pooled T-cell mutants by constant denaturant capillary electrophoresis (CDCE)

Abstract

Constant denaturant capillary electrophoresis (CDCE), based on co-operative DNA melting equilibria, has the resolving power to separate single nucleotide mutants from wild type sequences. We used this technique to study mutations in a 70-bp isomelting domain of the human HPRT gene, which included the entire exon 5 and its flanking splice donor and acceptor sites. Pooled samples of 6-thioguanine selected T-cell clones from 51 healthy donors representing a total of approximately 1000 individual HPRT mutants were analysed. Slow moving peaks from the heteroduplex part of the CDCE electropherograph were collected and subjected to a second round of PCR and CDCE analysis, followed by DNA sequencing. Five independent mutations were detected. Four were splicing errors; one insertion of CC and two G→A transitions in the splice donor site of intron 5, and one G→C transversion in the splice acceptor site of intron 4. The fifth mutation was a missense transversion, T389>G. A reconstruction experiment, in which DNA with known mutation was mixed with wild type DNA, showed the sensitivity of mutation detection to be better than 1:100 under the conditions used in this study. These results demonstrate the high sensitivity of the CDCE-method for mutation screening.