Biophysical and enzymatic properties of the simian and prototype foamy virus reverse transcriptases

Maximilian J Hartl,Axel Rethwilm,Birgitta M Wöhrl,Florian Mayr

doi:10.1186/1742-4690-7-5

Maximilian J Hartl, Axel Rethwilm + Show 2 more

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https://doi.org/10.1186/1742-4690-7-5

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Journal: Retrovirology	Publication Date: Jan 29, 2010
Citations: 56	License type: cc-by

Affiliation: University of Bayreuth, University of Würzburg

Abstract

BackgroundThe foamy virus Pol protein is translated independently from Gag using a separate mRNA. Thus, in contrast to orthoretroviruses no Gag-Pol precursor protein is synthesized. Only the integrase domain is cleaved off from Pol resulting in a mature reverse transcriptase harboring the protease domain at the N-terminus (PR-RT). Although the homology between the PR-RTs from simian foamy virus from macaques (SFVmac) and the prototype foamy virus (PFV), probably originating from chimpanzee, exceeds 90%, several differences in the biophysical and biochemical properties of the two enzymes have been reported (i.e. SFVmac develops resistance to the nucleoside inhibitor azidothymidine (AZT) whereas PFV remains AZT sensitive even if the resistance mutations from SFVmac PR-RT are introduced into the PFV PR-RT gene). Moreover, contradictory data on the monomer/dimer status of the foamy virus protease have been published.ResultsWe set out to purify and directly compare the monomer/dimer status and the enzymatic behavior of the two wild type PR-RT enzymes from SFVmac and PFV in order to get a better understanding of the protein and enzyme functions. We determined kinetic parameters for the two enzymes, and we show that PFV PR-RT is also a monomeric protein.ConclusionsOur data show that the PR-RTs from SFV and PFV are monomeric proteins with similar biochemical and biophysical properties that are in some aspects comparable with MLV RT, but differ from those of HIV-1 RT. These differences might be due to the different conditions the viruses are confronted with in dividing and non-dividing cells.

Highlights

The foamy virus Pol protein is translated independently from Gag using a separate mRNA
Protein purification Overexpression of prototype foamy virus (PFV) PR-RT in E. coli resulted in partial degradation by cellular proteases
Biophysical properties To exclude that the purified PR-RTs are partially or completely unfolded, we analyzed the secondary structure of PFV and simian foamy virus from macaques (SFVmac) PR-RT by circular dichroism (CD) spectroscopy

Summary

Introduction

The foamy virus Pol protein is translated independently from Gag using a separate mRNA. Foamy viruses (FVs) belong to the family retroviridae, but differ in several aspects from orthoretrovirinae: (a) reverse transcription occurs before the virus leaves the host cell [1,2], (b) the pol-gene is expressed from a separate mRNA [3,4,5], and (c) the viral protease is not cleaved off from the Pol polyprotein. In comparison to human immunodeficiency virus type 1 (HIV-1) RT, PFV PR-RT appears to be a more processive polymerase [11]. This is probably due to differences in virus assembly. A highly processive polymerase is essential to enable synthesis of the complete double stranded genome

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