Discrepancy in divergence of the mitochondrial and nuclear genomes of Drosophila teissieri and Drosophila yakuba.

Restriction sites were compared in the mitochondrial DNA (mtDNA) molecules from representatives of two closely related species of fruit flies: nine strains of Drosophila teissieri and eight strains of Drosophila yakuba. Nucleotide diversities among D. teissieri strains and among D. yakuba strains were 0.07% and 0.03%, respectively, and the nucleotide distance between the species was 0.22%. Also determined was the nucleotide sequence of a 2305-nucleotide pair (ntp) segment of the mtDNA molecule of D. teissieri that contains the noncoding adenine + thymine (A + T)-rich region (1091 ntp) as well as the genes for the mitochondrial small-subunit rRNA, tRNA(f-met), tRNA(gln), and tRNA(ile), and portions of the ND2 and tRNA(Val) genes. This sequence differs from the corresponding segment of the D. yakuba mtDNA by base substitutions at 0.1% and 0.8% of the positions in the coding and noncoding regions, respectively. The higher divergence due to base substitutions in the A + T-rich region is accompanied by a greater number of insertions/deletions than in the coding regions. From alignment of the D. teissieri A + T-rich sequence with those of D. yakuba and Drosophila virilis, it appears that the 40% of this sequence that lies adjacent to the tRNA(ile) gene has been highly conserved. Divergence between the entire D. teissieri and D. yakuba mtDNA molecules, estimated from the sequences, was 0.3%; this value is close to the value (0.22%) obtained from the restriction analysis, but 10 times lower than the value estimated from published DNA hybridization results.(ABSTRACT TRUNCATED AT 250 WORDS)