Mitochondrial DNA (mtDNA) from the yeast Saccharomyces cerevisiae was cleaved by restriction endonucleases Eco RI, Hpa I, Bam HI, Hind III, Pst I, and Sal I, yielding 10, 7, 5, 6, 1, and 1 fragments, respectively. A physical ordering of the restriction sites on yeast mtDNA has been derived. Yeast mtDNA cannot be isolated as intact molecules, and it contains nicks and gaps which complicate the use of conventional fragment mapping procedures. Nevertheless, the position of each of the restriction sites was obtained primarily by reciprocal redigestion of isolated restriction fragments. This procedure was supplemented by co-digestion of mtDNA with a multisite enzyme and a single-site enzyme (i.e., Sal I or Pst I) which provided a unique orientation for overlapping fragments cleaved by Sal I or Pst I. The data obtained from these approaches were confirmed by analysis of double and triple enzyme digests. Analysis of partial digest fragments was used for positioning of the smallest Eco RI fragment. A comparison of mtDNA from four grande strains (MH41-7B, 19d, TR3-15A, and MH32-12D) revealed similar, but slightly varying restriction patterns, with an identical genome size for each of approximately 5 X 10(-7) d or 75 kb. A fifth grande strain, D273-10B from S. cerevisiae, revealed restriction patterns different from those of the above strains, with a smaller genome size of 70 kb.