AbstractThe mobility of mitochondrial DNA (mtDNA) in pulsed-field gel electrophoresis (PFGE) and its appearance in moving pictures from fluorescence microscopy were used to investigate the mitochondrial genome structure for five Pichia and Williopsis strains of yeast. An apocytochrome b-gene hybridization probe identified only linear mtDNA molecules for each strain when total cellular DNA was fractionated by PFGE. Most of the mass of DNA isolated from mitochondria for one linear-mapping and one circular-mapping mitochondrial genome was found in linear molecules much larger than the genome size of 50kb; some molecules were as long as 1500kb, but only a trace amount of apparently circular mtDNA was found for the strain with the circular-mapping genome. Probes for both the apocytochrome-b and mitochondrial small rRNA subunit genes hybridized strongly to mtDNA of approximately 50100kb, but weakly to the larger DNA from mitochondria of these two strains. For the four linear-mapping strains, PFGE revealed two or three distinct bands of linear mtDNA, larger than the genome size, within a smear of approximately 50100kb, but a smear without bands was found for the circular-mapping strain.