Expression, Purification, and Characterization of an Active RNase H Domain of the Hepatitis B Viral Polymerase

Xin Wei,Darrell L Peterson

doi:10.1074/jbc.271.51.32617

Abstract

The replication of the hepatitis B viral DNA genome proceeds through a pregenomic RNA intermediate. This pregenomic RNA subsequently serves as the template for the formation of the viral DNA by the reverse transcriptase activity of the viral P gene product. The P gene product is believed to be a multifunctional enzyme with DNA-dependent DNA polymerase, RNA-dependent DNA polymerase, and RNase H activities. Detailed biochemical studies of this protein have not been performed because of the inability to obtain sufficient amounts of the enzyme from the virus and by the inability to produce the enzyme in heterologous expression systems. The RNase H activity is essential for viral replication and is believed to be responsible for the degradation of the RNA pregenomic intermediate as well as for generating the short RNA primer that is required for DNA second strand synthesis. We have assembled an expression vector which directs the synthesis of a protein that corresponds to the putative RNase H domain of the P gene product and having a carboxyl-terminal polyhistidine tag to facilitate purification. The protein has been expressed in Escherichia coli and purified to yield 1-2 mg of protein/liter of culture. This protein has RNase H activity as defined by its ability to degrade the RNA component of RNA-DNA hybrids but not the DNA component. The RNase H has a basic optimum pH, is active only in the presence of reducing agents, and is dependent on the presence of divalent cations, with magnesium being preferred over manganese.

Highlights

IntroductionHepatitis B virus (HBV) is a member of the hepadnaviridae, a family of small, partially double stranded (mammalian) or fully double stranded (avian) DNA viruses [1]
Hepatitis B virus (HBV)1 is a member of the hepadnaviridae, a family of small, partially double stranded or fully double stranded DNA viruses [1]
In this article we demonstrate that this is, the case for the RNase H activity of the HBV multifunctional polymerase protein

Summary

Introduction

Hepatitis B virus (HBV) is a member of the hepadnaviridae, a family of small, partially double stranded (mammalian) or fully double stranded (avian) DNA viruses [1]. The HBV polymerase is predicted to be a multifunctional protein, having DNA-dependent DNA polymerase, reverse transcriptase, and RNase H activities [3, 6] The replication of these viruses has been most extensively studied using the duck hepatitis B virus as a model. Summers and Mason [7] demonstrated that replication proceeds through an RNA intermediate, the pregenomic RNA, which is produced by transcription of the closed circular viral DNA by cellular RNA polymerase (for review, see Ref. 3) This RNA intermediate serves as a template for minus strand DNA synthesis, which is primed by a protein product of the P gene and is catalyzed by the reverse transcriptase activity of the polymerase. We describe here the production of an active HBV RNase H in Escherichia coli, its purification, and some of the basic properties of this domain of the HBV viral polymerase

Methods

Results

Conclusion