Comparison of lethality in mice infected with select 1918 and modern human H1N1 influenza A (Tx/91) reassortant viruses. BALB/c mice were inoculated intranasally with 10⁵ PFU of virus to determine which virus genes of the 1918 virus contributed to virulence. Among all eight gene segments tested individually, the HA gene was the only 1918 virus gene able to confer a virulent phenotype when rescued on the genetic background of Tx/91 H1N1 virus. In the reciprocal experiments, the exchange of most of the individual 1918 influenza virus genes with seasonal influenza Tx/91 virus genes did not alter the virulence of the lethal 1918 virus; however, substitution of the HA, NA or PB1 genes substantially affected the ability of this virus to cause severe disease in mice. Illustration by J. Archer (Centers for Disease Control).

The codon pair bias (CPB) score for each of the 14,795 annotated human genes was calculated4. Each dot represents the calculated CPB score of one gene plotted against its amino acid (aa) length. Predominant use of underrepresented codon pairs yields negative CPB scores. Various poliovirus constructs are plotted according to the CPB score of their P1 capsid precursor protein. As the CPB decreases, translatability decreases and the attenuation effect on the virus increases. PV-Min is nonviable; PV-Max expresses replication and virulence phenotypes similar to those of wild-type PV. Adapted from ref. 4.

The poliovirus genome and the effect of codon bias. (a) Poliovirus genomic RNA56,91 is of plus-strand polarity (that is, it functions as mRNA in viral replication). It is covalently linked at the 5′ end to the small viral protein VPg (3B of the polyprotein), followed by a long 5′ nontranslated region (5′ NTR), a continuous open reading frame (ORF), a 3′ NTR and poly(A). The 5′ NTR consists of structural elements that control RNA replication (cloverleaf) and translation (the internal ribosomal entry site (IRES)). The ORF encodes the polyprotein, the single translation product of the viral mRNA. The polyprotein is proteolytically processed by viral proteinases 2A^pro and 3C/3CD^pro into functional proteins, which have been divided into the structural region (P1 and the capsid precursors) and the nonstructural regions P2 and P3 (replication proteins). The ORF is followed by a 3′ NTR, which contributes to the control of RNA synthesis, and poly(A). The P1 coding region has been a target for codon and codon pair deoptimization. (b) Codon use statistics in synthetic P1 capsid designs. PV-SD maintains nearly identical codon frequencies compared to wild-type PV1(M), while maximizing codon positional changes within the sequence5. In PV-AB capsids, the use of nonpreferred codons was maximized. The length of the bars and the numbers behind each bar indicate the occurrence of each codon in the sequence. As a reference, the normal human synonymous codon frequencies for each amino acid are given. Adapted from S.M. et a.5.