EVOLUTION AND MITOCHONDRIAL DNA IN NEUROSPORA CRASSA.

We studied mitochondrial DNA variability in 19 natural Neurospora crassa isolates and one wild-type isolate to examine evolution of these fungi and their mitochondrial DNA (mtDNA). We combined restriction endonuclease analysis of natural isolate mtDNA with DNA-DNA hybridization to cloned EcoR I fragments of a wild-type genome to discriminate between length mutations and site changes due to nucleotide substitution. Most variability was due to length mutations (insertions and deletions); genome size could vary 25% between pairs of isolates. Length-mutation distribution was not random, nor simply explained by the presence of coding versus noncoding regions. Restriction-site changes were few; the estimated amount of nucleotide substitution per nucleotide between the most divergent pair of isolates was 0.78%. Evolutionary relationships among isolates based on both types of mutations were compatible, and suggest that geographically distinct populations of mitochondrial DNA exist in the biological species, N. crassa. In contrast, no such correlation was shown by the previously determined distribution of nuclear heterokaryon incompatibility genes in the same isolates (Mylyk, 1975, 1976).