Evolutionary rates of insertion and deletion in noncoding nucleotide sequences of primates.

Insertions and deletions are responsible for gaps in aligned nucleotide sequences, but they have been usually ignored when the number of nucleotide substitutions was estimated. We compared six sets of nuclear and mitochondrial noncoding DNA sequences of primates and obtained the estimates of the evolutionary rate of insertion and deletion. The maximum-parsimony principle was applied to locate insertions and deletions on a given phylogenetic tree. Deletions were about twice as frequent as insertions for nuclear DNA, and single-nucleotide insertions and deletions were the most frequent in all events. The rate of insertion and deletion was found to be rather constant among branches of the phylogenetic tree, and the rate (approximately 2.0/kb/Myr) for mitochondrial DNA was found to be much higher than that (approximately 0.2/kb/Myr) for nuclear DNA. The rates of nucleotide substitution were about 10 times higher than the rate of insertion and deletion for both nuclear and mitochondrial DNA.

[1]  M. Nei Molecular Evolutionary Genetics , 1987 .

[2]  T Gojobori,et al.  Molecular phylogeny and evolution of primate mitochondrial DNA. , 1988, Molecular biology and evolution.

[3]  N. Takahata,et al.  Allelic genealogy and human evolution. , 1993, Molecular biology and evolution.

[4]  Peilin Xu,et al.  Primate η-globin DNA sequences and man's place among the great apes , 1986, Nature.

[5]  M. Goodman,et al.  Reexamination of the African hominoid trichotomy with additional sequences from the primate beta-globin gene cluster. , 1992, Molecular phylogenetics and evolution.

[6]  J. Powell,et al.  Rates of nucleotide substitution in Drosophila mitochondrial DNA and nuclear DNA are similar. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[7]  Wen-Hsiung Li,et al.  Low nucleotide diversity in man. , 1991, Genetics.

[8]  M T Clegg,et al.  Evolution of a noncoding region of the chloroplast genome. , 1993, Molecular phylogenetics and evolution.

[9]  M. Miyamoto,et al.  Phylogenetic relations of humans and African apes from DNA sequences in the psi eta-globin region. , 1987, Science.

[10]  M. Nei,et al.  Estimation of evolutionary distance between nucleotide sequences. , 1984, Molecular biology and evolution.

[11]  H. Maki,et al.  Mutational specificity of the dnaE173 mutator associated with a defect in the catalytic subunit of DNA polymerase III of Escherichia coli. , 1991, Journal of molecular biology.

[12]  James E. Hixson,et al.  Comparisons of ape and human sequences that regulate mitochondrial DNA transcription and D-loop DNA synthesis , 1988, Nucleic Acids Res..

[13]  N. Maeda,et al.  Molecular evolution of intergenic DNA in higher primates: pattern of DNA changes, molecular clock, and evolution of repetitive sequences. , 1988, Molecular biology and evolution.

[14]  Wilfried W. de Jong,et al.  Causes of more frequent deletions than insertions in mutations and protein evolution , 1981, Nature.