Abstract
Mutation rate varies greatly between nucleotide sites of the human genome and depends both on the global genomic location and the local sequence context of a site. In particular, CpG context elevates the mutation rate by an order of magnitude. Mutations also vary widely in their effect on the molecular function, phenotype, and fitness. Independence of the probability of occurrence of a new mutation's effect has been a fundamental premise in genetics. However, highly mutable contexts may be preserved by negative selection at important sites but destroyed by mutation at sites under no selection. Thus, there may be a positive correlation between the rate of mutations at a nucleotide site and the magnitude of their effect on fitness. We studied the impact of CpG context on the rate of human–chimpanzee divergence and on intrahuman nucleotide diversity at non-synonymous coding sites. We compared nucleotides that occupy identical positions within codons of identical amino acids and only differ by being within versus outside CpG context. Nucleotides within CpG context are under a stronger negative selection, as revealed by their lower, proportionally to the mutation rate, rate of evolution and nucleotide diversity. In particular, the probability of fixation of a non-synonymous transition at a CpG site is two times lower than at a CpG site. Thus, sites with different mutation rates are not necessarily selectively equivalent. This suggests that the mutation rate may complement sequence conservation as a characteristic predictive of functional importance of nucleotide sites.
Highlights
The functional and phenotypic effects of mutations and, the strength of negative selection vary widely among nucleotide sites in any genome
We found that highly mutable nucleotide sites, such as the dinucleotide CpG, are on average more important and more frequently preserved by natural selection
If identical nucleotides at identical sites within codons of identical amino acids are under the same selection, regardless on whether they are located within or outside CpG context, this context would impact the mutation rate, the rate of divergence between species, and the level of intraspecies nucleotide diversity
Summary
The functional and phenotypic effects of mutations and, the strength of negative selection vary widely among nucleotide sites in any genome. Evolving segments of intergenic regions and introns, as well as UTRs and nonsynonymous coding sites, are under much stronger selection (e.g., [1,2,3,4,5,6,7,8]). Even within such functional classes, the strength of negative selection varies widely among individual sites (e.g., [9,10,11,12])
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