Hepatitis B virus (HBV) polymerase (P) gene is translated from the bicistronic pregenomic RNA with the core (C) gene in the first cistron. The P ORF is preceded by the C AUG and three AUG codons within the C region, where a minicistron of 7 amino acids can potentially be translated. Our results indicate that the efficiency of the P gene translation initiation was about 10 % of that of the C gene when both genes were fused in-frame to a lacZ reporter in an mRNA similar in structure to the pregenomic RNA. By mutational analysis, about 74 % of the translation initiation of HBV P gene was shown to be by ribosomes that reinitiated after terminating translation of this minicistron, while the rest was by two mechanisms : one by ribosomes leaky scanning through every upstream AUG and the other by
A hepatitis B virus (HBV) integrant was cloned from the genomic DNA library of human hepatocellular carcinoma cell line, Hep3B. Sequence analysis of the restriction fragment bearing the virus-host junction revealed that its integration pattern was the common type, with the right junction located at the cohesive region. The open reading frame of the major viral surface antigen was intact with rearranged preS1 and core sequences. The X protein, although truncated, maintained the trans-activating activity to simian virus 40 enhancer/promoter. S1 nuclease mapping showed that 4.0-, 2.9-, and 2.2-kb HBV RNAs detected in Hep3B cells were transcribed from this integrant using preS2/S promoter. By somatic-cell hybrid mapping, the left and right cellular flanking sequences were assigned to chromosomes 13 and 4, respectively. The results of this study support the notion that integrated hepatitis B virus, resulting in chromosomal rearrangement as well as the production of the carboxy-terminal truncated X protein with trans-activating activity, is important for viral hepatocarcinogenesis.
Hepatitis B virus (HBV) DNA polymerase (P) is translated from a bicistronic pregenomic RNA via a ribosomal leaky scanning mechanism. Another viral transcript, the preC RNA, differs from pregenomic RNA by the presence of some 30 nt at the 5h end that encompass the preC initiation codon. This RNA is used exclusively for expression of the precore protein which is a precursor of secreted HBeAg. Factors leading to inefficient translation of the P and C proteins from the preC RNA were explored using a genetic approach in transient transfection assays. Our data indicate that when translating the precore protein, the elongation arrest that occurs during targeting of nascent polypeptide chains to the endoplasmic reticulum interferes with the scanning of the 40S ribosomal subunits. Such interference seems to hinder initiation of the ribosomes at the downstream genes. Furthermore, the presence of the preC initiator codon in the preC mRNA has resulted in a reduction in the number of scanning ribosomes reaching the C and P initiator codons compared with the case of pregenomic RNA. Finally, although the preC initiator codon is in a suboptimal context for translation initiation, an RNA secondary structure, the encapsidation signal, located downstream to the initiator codon is shown to enhance codon recognition, resulting in a depletion of the number of 40S ribosomal subunits available for scanning of the downstream AUG codons. This study demonstrates that the HBV encapsidation signal plays an additional role in facilitating recognition of the preC initiator codon.
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