Abstract
BackgroundDeveloping a model for codon substitutions is essential for the analyses of protein sequences. Recent studies on the mutation rates in the non-coding regions have shown that CpG mutation rates in the human genome are negatively correlated to the local GC content and to the densities of functional elements. This study aimed at understanding the effect of genomic features, namely, GC content, gene density, and frequency of CpG islands, on the rates of codon substitution in human chromosomes.ResultsCodon substitution rates of CpG to TpG mutations, TpG to CpG mutations, and non-CpG transitions and transversions in humans were estimated by comparing the coding regions of thousands of human and chimpanzee genes and inferring their ancestral sequences by using macaque genes as the outgroup. Since the genomic features are depending on each other, partial regression coefficients of these features were obtained.ConclusionThe substitution rates of codons depend on gene densities of the chromosomes. Transcription-associated mutation is one such pressure. On the basis of these results, a model of codon substitutions that incorporates the effect of genomic features on codon substitution in human chromosomes was developed.
Highlights
Developing a model for codon substitutions is essential for the analyses of protein sequences
Recent studies on the mutation rates in non-coding regions have shown that the mutation rates of a cytosine followed by a guanine (CpG) in the human genome are negatively correlated to the local GC content [11,12,13,14] and to the densities of functional elements [11]
Previous studies that focused on the effect of CpG hypermutation on the rate of amino acid change in the human lineage [22,24] did not incorporate the regional variation in the rates of codon substitution
Summary
Developing a model for codon substitutions is essential for the analyses of protein sequences. This study aimed at understanding the effect of genomic features, namely, GC content, gene density, and frequency of CpG islands, on the rates of codon substitution in human chromosomes. Statistical indications of positive selection in some sequences or individual codons may be caused by a difference in mutation rates in the synonymous and nonsynonymous sites because of CpG hypermutations [23]. Previous studies that focused on the effect of CpG hypermutation on the rate of amino acid change in the human lineage [22,24] did not incorporate the regional variation in the rates of codon substitution. The regional variation in codon substitutions, especially those related to CpG hypermutation, in the human genome is of interest
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