Analysis of flavivirus envelope proteins reveals variable domains that reflect their antigenicity and may determine their pathogenesis.

Studies on the molecular basis of flavivirus neutralisation, attenuation and tropism indicate that amino acid substitutions, in different parts of the envelope gene, may be responsible for the altered phenotypes. However, the association of particular substitutions with individual characteristics has proven difficult. Comparative analysis of all known tick-borne flavivirus envelope proteins through sequence alignment and a sliding window, reveals clusters of amino acid variation distributed throughout the envelope protein coding region. Further comparison with mosquito-borne flaviviruses reveals essentially the same profile of variability throughout the envelope protein sequence although there is a major difference within the postulated B domain of these viruses which may reflect their different evolutionary development. Most phenotypically variant properties, such as serotypic differences, variants characteristic of vaccine strains, altered tropisms and neutralisation escape mutants, map within the variable clusters. Thus, we propose that natural mutagenesis and selection may occur at specific sites that do not destroy the secondary and tertiary E protein structure and that the variable clusters represent the exposed surface amino acids of the envelope protein defining antigenicity, tropicity and pathogenesis.