The genetic divergences of codon usage shed new lights on transmission of hepatitis E virus from swine to human.

Hepatitis E virus (HEV) is an important pathogen causing public health burden. Swine has been recognized as a main reservoir. Interestingly, genotype 1 HEV only infects human; whereas genotype 3 and 4 are zoonotic. However, there is a lack of in-depth understanding in respect to the transmission from swine to human. Codon usage patterns generally participate in viral survival and fitness towards its hosts. We have analyzed codon usage patterns of the three open reading frames (ORFs) for 243 full-length genomes of HEV genotypes 1, 3 and 4. The divergence of synonymous codon usage patterns is different in each ORF for genotypes 1, 3 and 4, but the genotype-specific codon usage bias in genotype 1 is stronger than those of genotypes 3 and 4. In respect to genotypes 3 and 4, compared with strains isolated from human, HEV isolated from swine shows appreciable variation in adaptation of codon usages to human or swine. These results may help to understand the transmission and host adaptation of HEV genotypes 3 and 4 from swine to human.

Analyses of nucleotide, synonymous codon and amino acid usages at gene levels of Brucella melitensis strain QY1.

Brucella melitensis is the causative pathogen of the zoonotic disease brucellosis in China. This work focused on analyses of genetic features represented by nucleotide, synonymous codon and amino acid usages at gene levels of B. melitensis strain QY1 isolated from China. Although nucleotide usage biases at different codon positions all work on synonymous codon usage bias, nucleotide usage biases at the 1st and 3rd positions play more important roles in codon usages. Mutation pressure caused by nucleotide composition constraint influences the formation of over-representative synonymous codons, but neighboring nucleotides surrounding a codon strongly influence synonymous codon usage bias for B. melitensis strain QY1. There is significant correlation between amino acid usage bias and hydropathicity of proteins for B. melitensis strain QY1. Compared with different Brucella species about synonymous codon usage patterns, synonymous codon usages are not obviously influenced by hosts. Due to nucleotide usage bias at the 1st codon position influencing synonymous codon and amino acid usages, good interactions among nucleotide, synonymous codon and amino acid usages exist in the evolutionary process of B. melitensis.