Separation and analysis of DNA sequence reaction products by capillary gel electrophoresis.

This paper demonstrates the potential of capillary gel electrophoresis with laser induced fluorescence detection as a tool for DNA sequence determination. Both synthetic oligonucleotides and single-stranded phage DNA were utilized as templates in the standard chain termination procedure. Primer molecules were tagged at the 5' end with the fluorescent dye, JOE. First, baseline resolution of a dA extended primer from 18 to 81 bases long, a total of 64 fragments, was observed. A second synthetic template was designed to yield alternating stretches of dA and dT extensions of the primer. Thirdly, the sequence reaction products from a synthetic oligonucleotide template containing all four bases was analyzed in four independent runs, one for each of the four base-specific reactions. In all cases, the expected number and patterns of peaks were observed by capillary gel electrophoretic analysis. Finally, separation of sequence reaction products generated with single-strand M13mp18 phage DNA as template exhibited baseline resolution of fragments differing in length by a single nucleotide and from 18 to greater than 330 bases total length.