Codon Signature Extremes In Eukaryote genomes

Abstract

Twenty-one complete eukaryotic genomes are compared for codon signature biases. The codon signature refers to the dinucleotide relative abundance values at codon sites {1, 2}, {2, 3}, and {3, 4} (4 = 1 of the next codon site). The genomes under study include human, mouse, chicken, three invertebrates, one plant species, eight fungi, and six protists. The dinucleotide CpG is significantly underrepresented at all contiguous codon sites and drastically suppressed in noncoding regions in mammalian species, in yeast-like genomes, in the dicotArabidopsis thaliana, but not in the filamentous fungiNeurospora crassaandAsperigillus fumigatus, and in the protistEntamoeba histolytica.The dinucleotide TpA, probably due to DNA structural weaknesses, is underrepresented genome-wide and significantly underrepresented in the codon signature for all contiguous codon sites in mammals, inverterbrates, plants, and fungi, but somewhat restricted to codon sites {1, 2} among protists helping in avoidance of stop codons. The amino acid Ser, not of abundance in bacterial genomes, generally ranks among the two most used amino acids among eukaryotes ostensibly resulting from greater activity in the nucleus. The observed differences are linked to specifics of methylation, context-dependent mutation, DNA repair, and replication. For example, the amino acid Leu is broadly abundant in all life domains generally resulting from extra occurrences of the codon TTR, R purine. The malarial protistPlasmodium falciparumshows many codon signature extremes.