Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During the past year, genetic studies of picornaviruses, vastly facilitated by the application of infectious picornaviral cDNAs and RNAs, have contributed to our understanding of the function of individual picornavirus polypeptides and to the genetic processes that operate in these small RNA viruses. Especially notable were the demonstrations that the RNA-dependent RNA polymerase may have a function in RNA synthesis as an uncleaved precursor polypeptide, and that a mutation in the polymerase can be complemented in trans, in contrast to data obtained from previously studied polymerase mutants. A new in vitro system, in which positive-strand synthesis, negative-strand synthesis and RNA packaging were all observed, will facilitate further studies into the mechanism of these processes.
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PMID:Genetic analysis of picornaviruses. 132 79

The poliovirus genome is replicated by a virus-encoded RNA-dependent RNA polymerase (RNA polymerase). The RNA polymerase is first synthesized as a larger precursor polypeptide, which is subsequently processed by a viral proteinase, 3Cpro, to give the mature polymerase molecule, 3Dpol. To further characterize the poliovirus RNA polymerase, we have constructed plasmids that expressed this protein in Escherichia coli. The plasmids consisted of fusions between the E. coli DNA encoding the first 13 amino acids of the trp operon leader protein and viral genes encoding the 3Cpro and 3Dpol polypeptides. E. coli harboring such plasmids gave significant, inducible levels of enzymatically active RNA polymerase as determined by the poly(A).oligo(U) poly(U) polymerase assay. The purified RNA polymerase activity from E. coli corresponded to a protein with the approximate molecular weight of the mature 3Dpol protein. The availability of a recombinant, enzymatically active poliovirus RNA polymerase provides a system in which we can precisely delineate the role this enzyme plays in the regulation of poliovirus replication.
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PMID:Expression of enzymatically active poliovirus RNA-dependent RNA polymerase in Escherichia coli. 281 63

The viral RNA-dependent RNA polymerase (3D(pol)) is highly conserved between the closely related enteroviruses poliovirus type 1 (PV1) and coxsackievirus B3 (CVB3). In this study, we generated PV1/CVB3 chimeric polymerase sequences in the context of full-length poliovirus transcripts to determine the role of different subdomains within the RNA-dependent RNA polymerase of PV1 that are required for functions critical for RNA replication in vitro and in cell culture. The substitution of CVB3 sequences in the carboxy-terminal portion (thumb subdomain) of the polymerase resulted in transcripts incapable of RNA replication. In contrast, three of the seven chimeras were capable of synthesizing RNA, albeit to reduced levels compared to that of wild-type PV1 RNA. Interestingly, one of the replication-competent chimeras (CPP) displayed an inability to generate positive strands, indicating the presence of amino-terminal sequences within the 3D polymerase and/or the 3D domain of the 3CD precursor polypeptide that are necessary for the assembly of strand-specific RNA synthesis complexes. In some constructs, the partial reestablishment of PV1 amino acid sequences in this region was capable of rescuing RNA replication in vitro and in cell culture.
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PMID:Strand-specific RNA synthesis determinants in the RNA-dependent RNA polymerase of poliovirus. 1507 21

We have previously described the RNA replication properties of poliovirus transcripts harboring chimeric RNA polymerase sequences representing suballelic exchanges between poliovirus type 1 (PV1) and coxsackievirus B3 (CVB3) utilizing an in vitro translation and RNA replication assay (C. Cornell, R. Perera, J. E. Brunner, and B. L. Semler, J. Virol. 78:4397-4407, 2004). We showed that three of the seven chimeras were capable of RNA replication in vitro, although replication levels were greatly reduced compared to that of wild-type transcripts. Interestingly, one of the replication-competent transcripts displayed a strand-specific RNA synthesis defect suggesting (i) a differential replication complex assembly mechanism involving 3D and/or precursor molecules (i.e., 3CD) required for negative- versus positive-strand RNA synthesis or (ii) effect(s) on the ability of the 3D polymerase to form higher-ordered structures required for positive-strand RNA synthesis. In this study, we have attempted to rescue defective RNA replication in vitro by cotranslating nonstructural proteins from a transcript encoding a large precursor polyprotein (P3) to complement 3D polymerase and/or precursor polypeptide functions altered in each of the chimeric constructs. Utilization of a wild-type P3 construct revealed that all transcripts containing chimeric PV1/CVB3 polymerase sequences can be complemented in trans for both negative- and positive-strand RNA synthesis. Furthermore, data from experiments utilizing genetically modified forms of the P3 polyprotein, containing mutations within 3C or 3D sequences, strongly suggest the existence of different protein-protein and protein-RNA interactions required for positive- versus negative-strand RNA synthesis. These results, combined with data from in vitro RNA elongation assays, indicate that the delivery of active 3D RNA polymerase to replication complexes requires a series of macromolecular interactions that rely on the presence of specific 3D amino acid sequences.
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PMID:Differential rescue of poliovirus RNA replication functions by genetically modified RNA polymerase precursors. 1554 52

The genome region encoding the RNA-dependent RNA polymerase 3CD-like precursor from rabbit hemorrhagic disease virus (RHDV) (isolate AST/89) was cloned and expressed in Escherichia coli using polyhistidine fusion-based vectors. The full-length recombinant 3CD-like precursor polypeptide could not be purified as a consequence of its autoproteolytic processing. A Cys-->Gly substitution of the 3C-like catalytic cysteine (C1212) impeded the cleavage and allowed the purification of the precursor at high yields using a polyhistidine fusion expression vector. Equimolar amounts of purified recombinant precursor (C1212G mutant) and mature 3D-like polymerase showed significant activity differences in genome-linked protein (VPg) uridylylation and RNA polymerization using in vitro assays. The data indicated that the precursor was more active than the mature polymerase in catalysing RHDV VPg uridylylation, whereas the latter enzyme form had higher activity than its precursor in RNA polymerization in vitro assays using a heteropolymeric RNA template.
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PMID:Functional differences between precursor and mature forms of the RNA-dependent RNA polymerase from rabbit hemorrhagic disease virus. 1943 53

An undescribed virus with isometric particles and a diameter of ca. 30 nm was identified in diseased samples of wild and cultivated Rubus species and molecularly characterized. Its genome was 6,463 nt, excluding the 3'-terminal poly(A) tail, and contained a single open reading frame coding for a 2,035-amino-acid-long precursor polypeptide (p223). The amino terminal portion of p223, identified as a replication-associated polyprotein, contained conserved motifs of methyltransferase, endopeptidase/protease, helicase and RNA-dependent RNA polymerase. The carboxy terminus of the large polypeptide is involved in the formation of two viral coat protein subunits with deduced molecular masses of 23 and 21 kDa. Pairwise comparisons and phylogenetic analyses showed closest relationships of this virus with oat blue dwarf virus and citrus sudden death-associated virus, sharing levels of genome sequence conservation far below the species demarcation level established for tymovirids. Our data indicate that this virus, for which the name blackberry virus S (BlVS) is proposed, is a hitherto undescribed species of the genus Marafivirus, family Tymoviridae. A survey conducted in Mississippi, USA, has shown that BlVS is also present in cultivated Rubus germplasm. This work represents the first report of a marafivirus infecting small fruits.
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PMID:Identification and molecular characterization of a marafivirus in Rubus spp. 1978 56