Abstract
We have developed a rapid method for unambiguous identification and mutant fraction determination of individual mutants in mixtures of DNA sequence variants each differing by one or a few nucleotides. This method has applications to such diverse areas as interpretation of mutational spectra, screening of populations for polymorphisms and identification of species in environmental mixtures. In our approach, a mixture of unknown sequences labeled with a fluorescent dye is combined with a set of predetermined sequences (standards) representing the variants to be assayed. Labeling the standards with another dye allows the two sets of variants to be measured independently. Using constant denaturing capillary electrophoresis, the sequence variants are separated as individual peaks on the basis of differential melting equilibria. The unknown sequence variants are initially identified based on co-migration with particular standards. This preliminary identification is verified by hybridization of the unknown variants with the co-migrating standards within the capillary. We demonstrate the use of capillary electrophoresis hybridization to dissect complex mutational spectra of human cells in culture.
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