Optimization of intercalation dye concentration for short tandem repeat allele genotyping using capillary electrophoresis with laser-induced fluorescence detection

Abstract

DNA analysis using capillary electrophoresis (CE) with laser-induced fluorescence (LIF) detection requires that polymerase chain reaction products either be prepared using primers with fluorescent molecules covalently bonded to them, or stained with a fluorescent intercalation dye following amplification. The intercalation technique has the advantage of allowing fluorescence detection of any double-stranded DNA (dsDNA) product regardless of the amplification primers used. The increased sensitivity of LIF detection is sometimes compromised by the intercalation dye changing the mass to charge ratio of the DNA. The purpose of this study was to evaluate the changes of migration rate, resolution and fluorescent intensity of dye–DNA complexes during electrophoretic separations, and to establish the optimal parameters for short tandem repeats alleles profiling. The alleles of three STR loci THO1, F13A01 and vWFA31 were intercalated with the monomeric dyes TOPRO-1 and YOPRO-1, and their corresponding dimers, TOTO-1 and YOYO-1 (Molecular Probes, Eugene, OR, USA). Alleles intercalated before injection onto the CE column resulted in loss of resolution and sensitivity when compared to the on-column labeling technique. The results of this experimentation were then applied to a STR typing assay using a commercially available polymer and buffer matrix. This assay included development of a unique internal standard used for migration time normalization assignment of alleles. Consequently, the 9 allele and the 9.3 microvariant of the THO1 locus were separated and typed correctly with a resolution of 0.49 in less than 20 min, and the only sample preparation necessary after amplification was a dilution step.