bei Google ScholarTitelangaben
Hartl, Maximilian J. ; Kretzschmar, Benedikt ; Frohn, Anne ; Nowrouzi, Ali ; Rethwilm, Axel ; Wöhrl, Birgitta M.:
AZT resistance of simian foamy virus reserve transcriptase is based on the excision of AZTMP in the presence of ATP.
In: Nucleic Acids Research.
Bd. 36
(Februar 2008)
Heft 3
.
- S. 1009-1016.
ISSN 1362-4962
DOI: https://doi.org/10.1093/nar/gkm1087 PMCID: PMC2241919
Abstract
Azidothymidine (AZT, zidovudine) is one of the few nucleoside inhibitors known to inhibit foamy virus replication. We have shown previously that up to four mutations in the reverse transcriptase gene of simian foamy virus from macaque (SFVmac) are necessary to confer high resistance against AZT. To characterize the mechanism of AZT resistance we expressed two recombinant reverse transcriptases of highly AZT-resistant SFVmac in Escherichia coli harboring three (K211I, S345T, E350K) or four mutations (K211I, I224T, S345T, E350K) in the reverse transcriptase gene. Our analyses show that the polymerization activity of these mutants is impaired. In contrast to the AZT-resistant reverse transcriptase of HIV-1, the AZT resistant enzymes of SFVmac reveal differences in their kinetic properties. The SFVmac enzymes exhibit lower specific activities on poly(rA)/oligo(dT) and higher K(M)-values for polymerization but no change in K(D)-values for DNA/DNA or RNA/DNA substrates. The AZT resistance of the mutant enzymes is based on the excision of the incorporated inhibitor in the presence of ATP. The additional amino acid change of the quadruple mutant appears to be important for regaining polymerization efficiency.