| Literature DB >> 26074065 |
Catherine H Schein1, Mengyi Ye2, Aniko V Paul3, M Steven Oberste4, Nora Chapman5, Gerbrand J van der Heden van Noort6, Dmitri V Filippov6, Kyung H Choi2.
Abstract
Enteroviruses (EV) uridylylate a peptide, VPg, as the first step in their replication. VPgpUpU, found free in infected cells, serves as the primer for RNA elongation. The abilities of four polymerases (3D(pol)), from EV-species A-C, to uridylylate VPgs that varied by up to 60% of their residues were compared. Each 3D(pol) was able to uridylylate all five VPgs using polyA RNA as template, while showing specificity for its own genome encoded peptide. All 3D(pol) uridylylated a consensus VPg representing the physical chemical properties of 31 different VPgs. Thus the residues required for uridylylation and the enzymatic mechanism must be similar in diverse EV. As VPg-binding sites differ in co-crystal structures, the reaction is probably done by a second 3D(pol) molecule. The conservation of polymerase residues whose mutation reduces uridylylation but not RNA elongation is compared.Entities:
Keywords: Coxsackie virus; EV-71; Metal ion dependent phosphotransfer; Nucleotide transfer reaction; PCP-consensus sequence; Peptide priming; Poliovirus; RNA polymerase
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Year: 2015 PMID: 26074065 PMCID: PMC4567471 DOI: 10.1016/j.virol.2015.05.016
Source DB: PubMed Journal: Virology ISSN: 0042-6822 Impact factor: 3.616