EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
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A series of plasmids containing hepatitis A virus (HAV) cDNA was constructed such that positive-strand HAV RNA could be transcribed with T7 RNA polymerase. The plasmids differed in the number of 5'-terminal nucleotides representing the junctions between vectors and HAV sequences that were present in the transcripts. When these transcripts were used to transfect cultured BS-C-1 cells, it was found that only those transcripts that contained all of the 5'-terminal HAV nucleotides, in addition to one or more nucleotides from the vector, were capable of initiating an infectious cycle leading to production of progeny virus. Transcripts that contained one 5'-terminal nucleotide from the vector sequence but were missing two uridylate residues corresponding to the first two nucleotides of HAV sequences, or were missing U and C residues corresponding to nucleotides 2 and 3 of the HAV sequence, were not infectious. A similar plasmid containing poliovirus cDNA was engineered to produce transcripts similarly lacking the first two uridylate residues of the poliovirus RNA sequence. These transcripts were infectious.
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PMID:The 5'-terminal nucleotides of hepatitis A virus RNA, but not poliovirus RNA, are required for infectivity. 185 50

The genome of hepatitis A virus (HAV) isolated from spontaneously infected African vervet monkey (Cercopithecus aethiops) has been cloned and partially sequenced. Comparison of genome fragments (1248 and 162 bp) from the 3D (RNA polymerase) region with the corresponding parts of human HAV genomes revealed a high degree of heterogeneity: there were altogether 257 nucleotide changes leading to 44 substitutions in predicted amino acid sequence, i.e. 89% amino acid identity. This divergence is considered to be significantly greater than genomic variations usually found among human HAV strains, where amino acid identity in the 3D region is over 98%.
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PMID:Variations in genome fragments coding for RNA polymerase in human and simian hepatitis A viruses. 254 Oct 23

We report here the nucleotide sequence corresponding to two large regions of the hepatitis A virus (HAV) genome. These comprise a sequence of 3274 bases corresponding to the 5' end of the genome, which includes the putative capsid protein region of this picornavirus, and 1590 bases corresponding to the 3' end of the genome, terminating in a 15-base poly(A) tract. These sequences revealed that HAV had the characteristic genomic organization of picornaviruses: an open reading frame beginning approximately 750 bases from the 5' end of the RNA and a termination codon 60 bases from the 3' poly(A) tract. The predicted amino acid sequences of both regions have been compared to analogous regions previously determined for other picornaviruses. There was sufficient homology to conclude that the 5' region of HAV codes for capsid proteins and that the 3' region codes for an RNA polymerase. However, these regions of HAV were not found to be closely related to analogous regions of poliovirus, encephalomyocarditis virus, and foot and mouth disease virus.
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PMID:Sequence analysis of hepatitis A virus cDNA coding for capsid proteins and RNA polymerase. 298 84

A rapid and simple method was developed to detect enteroviruses and hepatitis A virus (HAV) in sewage and ocean water. Sewage samples were concentrated by Centriprep-100 and Centricon-100 at 1,000 x g. Samples collected from estuary and near-shore surf zone ocean water in Southern California were concentrated by vortex flow filtration and microconcentration. Reverse transcriptase-polymerase chain reaction (RT-PCR), with enterovirus primers or HAV capsid-specific primers, was used to detect enteroviruses or HAV in all concentrated samples. A nonradioactive internal probe was used to confirm the amplified products. Results of seeding experiments indicated that at 4 degrees C, HAV was more persistent than poliovirus in seawater and both HAV and poliovirus persisted longer at 4 degrees C than at 25 degrees C. RT-PCR was at least 500-fold more sensitive than cell culture. Results were obtained within 5 h by RT-PCR, in contrast with the 5 days to 3 weeks required for cell culture.
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PMID:Simple method of concentrating enteroviruses and hepatitis A virus from sewage and ocean water for rapid detection by reverse transcriptase-polymerase chain reaction. 750 33

Hepatitis A virus (HAV) exhibits several characteristics which distinguish it from other picornaviruses, including slow growth in cell culture even after adaptation, and lack of host-cell protein synthesis shut-down. Like other picornaviruses, HAV contains a long 5' nontranslated region (NTR) incorporating an internal ribosomal entry site (IRES), which directs cap-independent translation. We compared HAV IRES-initiated translation with translation initiated by the structurally similar encephalomyocarditis virus (EMCV) IRES, using plasmids in which each of the 5'NTRs is linked in-frame with the chloramphenicol acetyltransferase (CAT) gene. Translation was assessed in an HAV-permissive cell line which constitutively expresses T7 RNA polymerase and transcribes high levels of uncapped RNA from these plasmids following transfection. RNAs containing the EMCV IRES were efficiently translated in these cells, while those containing the HAV IRES were translated very poorly. Analysis of translation of these RNAs in the presence of poliovirus protein 2A, which shuts down cap-dependent translation, demonstrated that their translation was cap independent. Our results suggest that the HAV IRES may function poorly in these cells, and that inefficient translation may contribute to the exceptionally slow replication cycle characteristic of cell culture-adapted HAV.
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PMID:Analysis of hepatitis A virus translation in a T7 polymerase-expressing cell line. 803 60

To characterize in vivo the translational control elements present in the 5' nontranslated region (5'NTR) of hepatitis A virus (HAV) RNA, we created an HAV-permissive monkey kidney cell line (BT7-H) that stably expresses T7 RNA polymerase and carries out cytoplasmic transcription of uncapped RNA from transfected DNA containing the T7 promoter. The presence of an internal ribosomal entry site (IRES) within the 5'NTR of HAV was confirmed by using BT7-H cells transcribing bicistronic RNAs in which the 5'NTR was placed within the intercistronic space, controlling translation of a downstream reporter protein (bacterial chloramphenicol acetyltransferase). However, translation directed by the 5'NTR in these bicistronic transcripts and in monocistronic T7 transcripts in which the HAV 5'NTR was placed upstream of the chloramphenicol acetyltransferase coding sequence was very inefficient compared with the translation of monocistronic transcripts containing either the IRES of encephalomyocarditis (EMC) virus or a short nonpicornavirus 5' nontranslated leader sequence. A large deletion within the HAV IRES (delta 355-532) eliminated IRES activity in bicistronic transcripts. In contrast, larger deletions within the IRES in monocistronic transcripts (delta 1-354, delta 1-532, delta 1-633, and delta 158-633) resulted in 4- to 14-fold increases in translation. In the latter case, this was most probably due to a shift from IRES-directed translation to translation initiation by 5'-end-dependent scanning. Translation of RNAs containing either the EMC virus IRES or the nonpicornavirus leader was significantly enhanced by cotransfection of the reporter constructs with pEP2A, which directs transcription of RNA containing the EMC virus IRES fused to the poliovirus 2Apro coding region. This 2Apro enhancement of cap-independent translation suggests a greater availability of limiting cellular translation factors following 2Apro-mediated cleavage of the p220 subunit of the eukaryotic initiation factor eIF-4F and subsequent shutdown of 5' cap-dependent translation. In contrast, pEP2A cotransfection resulted in severe inhibition of translation directed by the HAV IRES in either monocistronic or bicistronic transcripts. This inhibition was due to competition from the EMC virus IRES present in pEP-2A transcripts, as well as the expression of proteolytically active 2Apro. 2Apro-mediated suppression of HAV translation was not seen with transcripts containing large deletions in the HAV IRES (delta 158-633, delta 1-532, or delta 1-633). These data suggest that the HAV IRES may have a unique requirement for intact p220 or that it may be dependent on active expression of another cellular translation factor which is normally present in severely limiting quantities.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Low efficiency of the 5' nontranslated region of hepatitis A virus RNA in directing cap-independent translation in permissive monkey kidney cells. 803 22

Hepatitis A virus (HAV) cDNAs encoding the P3 region proteins were expressed in vivo and in vitro to characterize the HAV 3D protein and to identify the cleavage site between 3C and 3D. Protein coding sequences were placed under control of a T7 promoter and an EMCV translational initiation signal. T7 RNA polymerase was provided by simultaneous infection of transfected BS-C-1 cells with a recombinant vaccinia virus vTF7-3 (T. R. Fuerst et al., Proc. Natl. Acad. Sci. USA 83, 8122-8126, 1986). Efficient synthesis and processing of P3 proteins occurred to yield 3CD (78 kDa), 3D (54 kDa), 3ABC (33 kDa), 3BC (25 kDa), and 3C (23 kDa). Similar products were produced by translation of T7 transcripts in a rabbit reticulocyte lysate in vitro. The 3C/D cleavage site was mapped by comparing the mobility of 3D in SDS-PAGE with 3D proteins engineered to begin at each of the two proposed cleavage sites; in addition, direct N-terminal sequencing of radiolabeled 3D protein from translation in vitro was performed. The results showed that 3D was formed by cleavage at the glutamine-arginine (Q/R) pair at position 1738 and 1739 of the HAV polyprotein. HAV 3D protein produced by autocatalytic cleavage of P3 precursor proteins in BS-C-1 cells is virtually completely insoluble and sediments after low-speed centrifugation. This is in contrast to the poliovirus 3D protein, produced from a similar construct, a significant portion of which remains soluble. Extracts containing the poliovirus 3D protein manifested high levels of RNA-dependent RNA polymerase activity, whereas those containing the HAV 3D protein showed no detectable activity by the same assay.
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PMID:Expression of hepatitis A virus precursor protein P3 in vivo and in vitro: polyprotein processing of the 3CD cleavage site. 829 Dec 34

Mutations in the 5' nontranslated RNA (5'NTR) of an attenuated, cell culture-adapted hepatitis A virus (HAV), HM175/P16, enhance growth in cultured African green monkey kidney (BS-C-1) cells but not in fetal rhesus monkey kidney (FRhK-4) cells (S. P. Day, P. Murphy, E. A. Brown, and S. M. Lemon, J. Virol. 66: 6533-6540, 1992). To determine whether these mutations enhance cap-independent translation directed by the HAV internal ribosomal entry site (IRES), we compared the translational activities of the 5'NTRs of wild-type and HM175/P16 viruses in two stably transformed cell lines (BT7-H and FRhK-T7) which constitutively express cytoplasmic bacteriophage T7 RNA polymerase and which are derived from BS-C-1 and FRhK-4 cells, respectively. Translational activity was assessed by monitoring expression of a reporter protein, chloramphenicol acetyltransferase (CAT), following transfection with plasmid DNAs containing bicistronic T7 transcriptional units of the form luciferase-5'NTR-CAT. In both cell types, transcripts containing the 5'NTR of HM175/P16 expressed CAT at levels that were 50- to 100-fold lower than transcripts containing the IRES elements of Sabin type 1 poliovirus or encephalomyocarditis virus, confirming the low activity of the HAV IRES. However, in BT7-H cells, transcripts containing the 5'NTR of wild-type virus. This translational enhancement was due to additive effects of a UU deletion at nucleotides 203 and 204 and a U-to-G substitution at nucleotide 687 of HM175/P16. These mutations did not enhance translation in FRhK-T7 or Huh-T7 cells (a T7 polymerase-expressing cell line derived from human hepatoblastoma cells) or in vitro in rabbit reticulocyte lysates. These results demonstrate that mutations in the 5'NTR of a cell culture-adapted HAV enhance viral replication by facilitating cap-independent translation in a cell-type-specific fashion and support the concept that picornaviral host range is determined in part by differences in cellular translation initiation factors.
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PMID:Mutations within the 5' nontranslated RNA of cell culture-adapted hepatitis A virus which enhance cap-independent translation in cultured African green monkey kidney cells. 855 62

The RNA genome of hepatitis A virus (HAV) encodes a giant polyprotein that is putatively cleaved proteolytically into four structural and seven non-structural proteins. So far, most of the proposed non-structural proteins and their respective cleavage sites have not been identified. A vaccinia virus recombinant (vRGORF) containing the complete HAV ORF under the control of the bacteriophage T7 promoter was used to express HAV in recombinant animal cells (BT7-H) that constitutively expressed T7 DNA-dependent RNA polymerase. A HAV-specific 27.5 kDa expression product was identified as peptide 2B. The 27.5 kDa 2B antigen was also found in HAV-infected MRC-5 cells. The N-terminal amino acid residues of the new peptide 2B are Ala-Lys-Ile-Ser-Leu-Phe and polyprotein cleavage between 2A and 2B occurred at amino acids 836-837 (Gln-Ala). Furthermore, heterologous expression in the same system of regions P1-P2 and of the protease 3C (3Cpro) gene, showed that P1-P2 polyprotein is not cleaved autocatalytically but by 3Cpro. Hence, 3Cpro is effective in cleaving the polyprotein 2A-2B junction.
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PMID:Identification of hepatitis A virus non-structural protein 2B and its release by the major virus protease 3C. 862 28

The role of the 5' nontranslated region in the replication of hepatitis A virus (HAV) was studied by analyzing the translation and replication of chimeric RNAs containing the encephalomyocarditis virus (EMCV) internal ribosome entry segment (IRES) and various lengths (237, 151, or 98 nucleotides [nt]) of the 5'-terminal HAV sequence. Translation of all chimeric RNAs, truncated to encode only capsid protein sequences, occurred with equal efficiency in rabbit reticulocyte lysates and was much enhanced over that exhibited by the HAV IRES. Transfection of FRhK-4 cells with the parental HAV RNA and with chimeric RNA generated a viable virus which was stable over continuous passage; however, more than 151 nt from the 5' terminus of HAV were required to support virus replication. Single-step growth curves of the recovered viruses from the parental RNA transfection and from transfection of RNA containing the EMCV IRES downstream of the first 237 nt of HAV demonstrated replication with similar kinetics and similar yields. When FRhK-4 cells infected with recombinant vaccinia virus producing SP6 RNA polymerase to amplify HAV RNA were transfected with plasmids coding for these viral RNAs or with subclones containing only HAV capsid coding sequences downstream of the parental or chimeric 5' nontranslated region, viral capsid antigens were synthesized from the HAV IRES with an efficiency equal to or greater than that achieved with the EMCV IRES. These data suggest that the inherent translation efficiency of the HAV IRES may not be the major limiting determinant of the slow-growth phenotype of HAV.
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PMID:Replication of hepatitis A viruses with chimeric 5' nontranslated regions. 862 60

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