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SEQUENCE EVOLUTION OF DROSOPHILA MITOCHONDRIAL DNA
David R. Wolstenholme 1 and Douglas O. Clary 1
1 Department of Biology, University of Utah, Salt Lake City,
Utah 84112
We have compared nucleotide sequences of corresponding segments
of the mitochondrial DNA (mtDNA) molecules of Drosophila yakuba and
Drosophila melanogaster, which contain the genes for six proteins and
seven tRNAs. The overall frequency of substitution between the nucleotide
sequences of these protein genes is 7.2%. As was found for mtDNAs from closely
related mammals, most substitutions (86%) in Drosophila mitochondrial protein
genes do not result in an amino acid replacement. However, the frequencies
of transitions and transversions are approximately equal in Drosophila mtDNAs,
which is in contrast to the vast excess of transitions over transversions
in mammalian mtDNAs. In Drosophila mtDNAs the frequency of C 
T substitutions
per codon in the third position is 2.5 times greater among codons of two-codon
families than among codons of four-codon families; this is contrary to the
hypothesis that third position silent substitutions are neutral in regard
to selection. In the third position of codons of four-codon families transversions
are 4.6 times more frequent than transitions and A T substitutions
account for 86% of all transversions. Ninety-four percent of all codons in
the Drosophila mtDNA segments analyzed end in A or T. However, as this alone
cannot account for the observed high frequency of A T substitutions
there must be either a disproportionately high rate of A T mutation
in Drosophila mtDNA or selection bias for the products of A T mutation.—Consideration
of the frequencies of interchange of AGA and AGT codons in the corresponding
D. yakuba and D. melanogaster mitochondrial protein genes provides
strong support for the view that AGA specifies serine in the Drosophila mitochondrial
genetic code.
Accepted on December 10, 1984
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