Separation of chromosomal DNA molecules fromC.albicansby pulsed field gel electropboresis

Modifications have been made to standard pulse field gel electrophoresis (PFGE) systems to enable very large DNA molecules to be resolved. The single most important modification was to elevate the temperature of electrophoresis to 35 degrees C. This enabled the largest Saccharomyces cerevisiae chromosome to be reproducibly resolved. More impressively, it enabled the DNA of Candida albicans to be clearly resolved into six bands, a feat which was very difficult at lower temperatures. Even so, optimal resolution could only be obtained by carefully adjusting field voltages and switching times. The DNA from the two largest C. albicans chromosomes, which was estimated to be at least 5-10Mbp in size, ran somewhat anomalously, giving fuzzy bands which did not migrate in the direction of the average electric field. That the highest molecular weight band was a distinct chromosome was demonstrated by specific hybridisation to the C. albicans ADE2 gene probe. With further fine tuning, the PFGE system described here should be capable of resolving DNA from the smallest human chromosomes.