[Evolution of RNA-dependent RNA polymerases of positive riboviruses].

A comparative analysis is presented of 24 known amino acid sequences of RNA-dependent RNA polymerases of positive strand RNA viruses infecting animals, plants and bacteria. Using a newly proposed methodology of group alignment for weakly similar sequences, evolutionary conserved fragments of all these proteins were unambiguously aligned. A unique pattern (consensus) of 7 invariant amino acid residues was revealed which is absent from the sequences of other RNA and DNA polymerases and is thought to unequivocally identify the RNA-dependent RNA polymerases of positive strand RNA viruses. Based on the obtained alignment a tentative phylogenetic tree of viral RNA polymerases was constructed for the first time. The RNA-dependent RNA polymerases of positive strand RNA viruses are concluded to comprise a distinct family of evolutionary related proteins.