EC:2.7.7.48 - FACTA Search

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Query: EC:2.7.7.48 (transcriptase)
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One of the four subunits of bacteriophage Q beta RNA replicase is elongation factor Tu (EF-Tu), the host aminoacyl-tRNA (AA-tRNA) binding protein. To determine whether the RNA polymerase activity requires the tRNA binding site of EF-Tu, we reconstituted replicase with EF-Tu . GTP covalently bound to AA-tRNA. This cross-linked ternary complex (XLTC) was formed by the reaction of N epsilon-bromoacetyl-Lys-tRNA with EF-Tu-GTP. In an EF-Tu-dependent system for the reconstitution of replicase, XLTC restored polymerase activity at least as well as an equivalent amount of EF-Tu. Replicase reconstituted with XLTC was resolved from replicase containing EF-Tu by chromatography on phosphocellulose, a result which confirmed that the tRNA moiety was incorporated into the enzyme. Chromatographic analysis of reconstitution mixtures revealed that XLTC was incorporated into replicase as extensively as EF-Tu. From these results, it appears that the AA-tRNA binding site on EF-Tu is not required for the assembly or activity of Q beta RNA replicase. Furthermore, because the tRNA macromolecule is cross-linked to His-66 of the EF-Tu, the region surrounding His-66 must normally be exposed on the surface of the replicase.
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PMID:Transfer RNA cross-linked to the elongation factor Tu subunit of Q beta replicase does not inhibit Q beta RNA replication. 701 63

The temperature-sensitive and attenuated phenotypes of the Sabin type 1 vaccine strain of poliovirus result from numerous point mutations which occurred in the virulent Mahoney virus parent. One of these mutations is located in a 3D polymerase (3Dpol) codon (U-6203-->C, Tyr-73-->His) and is involved in attenuation in common mice (M. Tardy-Panit, B. Blondel, A. Martin, F. Tekaia, F. Horaud, and F. Delpeyroux, J. Virol. 67:4630-4638, 1993). This mutation also appears to contribute to temperature sensitivity, in association with at least 1 other of the 10 mutations of the 3'-terminal part of the genome including the 3Dpol coding and 3' noncoding regions. To map the other mutation(s), we constructed poliovirus mutants by mutagenesis and recombination of Mahoney and Sabin 1 cDNAs. Characterization of these poliovirus mutants showed that a second mutation in a 3Dpol codon (C-7071-->U, Thr-362-->Ile) contributes to temperature sensitivity. A mutation in the 3' noncoding region of the genome (A-7441-->G), alone or linked to another mutation (U-7410-->C), also appeared to be involved in this phenotype. The temperature-sensitive effect associated with the 3'-terminal part of the Sabin 1 genome results from the cumulative and/or synergistic effects of at least three genetic determinants, i.e., the His-73 and Ile-362 codons of 3Dpol and nucleotide G-7441. Sequence analysis of strains isolated from patients with vaccine-associated paralytic poliomyelitis showed that these genetic determinants are selected against in vivo, although the Ile-362 codon appeared to be more stable than either the His-73 codon or G-7441. These genetic determinants may contribute to the safety of Sabin 1 in vaccines.
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PMID:Mapping of mutations contributing to the temperature sensitivity of the Sabin 1 vaccine strain of poliovirus. 763 70

The sequence of the entire genome of citrus tristeza virus (CTV), Florida isolate T36, was completed. The 19,296-nt CTV genome encodes 12 open reading frames (ORFs) potentially coding for at least 17 protein products. The 5'-proximal ORF 1a starts at nucleotide 108 and encodes a large polyprotein with calculated MW of 349 kDa containing domains characteristic of (from 5' to 3') two papain-like proteases (P-PRO), a methyltransferase (MT), and a helicase (HEL). Alignment of the putative P-PRO sequences of CTV with the related proteases of beet yellows closterovirus (BYV) and potyviruses allowed the prediction of catalytic cysteine and histidine residues as well as two cleavage sites, namely Val-Gly/Gly for the 5' proximal P-PRO domain and Met-Gly/Gly for the 5' distal P-PRO domain. The autoproteolytic cleavage of the polyprotein at these sites would release two N-terminal leader proteins of 54 and 55 kDa, respectively, and a 240-kDa C-terminal fragment containing MT and HEL domains. The apparent duplication of the leader domain distinguishes CTV from BYV and accounts for most of the size increase in the ORF 1a product of CTV. The downstream ORF 1b encodes a 57-kDa putative RNA-dependent RNA polymerase (RdRp), which is probably expressed via a +1 ribosomal frameshift. Sequence analysis of the frameshift region suggests that this +1 frameshift probably occurs at a rare arginine codon CGG and that elements of the RNA secondary structure are unlikely to be involved in this process. The complete polyprotein resulting from this frameshift event has a calculated MW of 401 kDa and after cleavage of the two N-terminal leaders would yield a 292-kDa protein containing the MT, HEL, and RdRp domains. Phylogenetic analysis of the three replication-associated domains, MT, HEL, and RdRp, indicates that CTV and BYV form a separate closterovirus lineage within the alpha-like supergroup of positive-strand RNA viruses. Two gene blocks or modules can be easily identified in the CTV genome. The first includes the replicative MT, HEL, and RdRp genes and is conserved throughout the entire alpha-like superfamily. The second block consists of five ORFs, 3 to 7, conserved among closteroviruses, including genes for the CTV homolog of HSP70 proteins and a duplicate of the coat protein gene. The 3'-terminal ORFs 8 to 11 encode a putative RNA-binding protein (ORF 11), and three proteins with unknown functions; this gene array is poorly conserved among closteroviruses.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Complete sequence of the citrus tristeza virus RNA genome. 774 24

The poliovirus RNA-dependent RNA polymerase, 3Dpol, is known to share a region of sequence homology with all RNA polymerases centered at the GDD amino acid motif. The two aspartic acids have been postulated to be involved in the catalytic activity and metal ion coordination of the enzyme. To test this hypothesis, we have utilized oligonucleotide site-directed mutagenesis to generate defined mutations in the aspartic acids of the GDD motif of the 3Dpol gene. The codon for the first aspartate (3D-D-328 [D refers to the single amino acid change, and the number refers to its position in the polymerase]) was changed to that for glutamic acid, histidine, asparagine, or glutamine; the codons for both aspartic acids were simultaneously changed to those for glutamic acids; and the codon for the second aspartic acid (3D-D-329) was changed to that for glutamic acid or asparagine. The mutant enzymes were expressed in Escherichia coli, and the in vitro poly(U) polymerase activity was characterized. All of the mutant 3Dpol enzymes were enzymatically inactive in vitro when tested over a range of Mg2+ concentrations. However, when Mn2+ was substituted for Mg2+ in the in vitro assays, the mutant that substituted the second aspartic acid for asparagine (3D-N-329) was active. To further substantiate this finding, a series of different transition metal ions were substituted for Mg2+ in the poly(U) polymerase assay. The wild-type enzyme was active with all metals except Ca2+, while the 3D-N-329 mutant was active only when FeC6H7O5 was used in the reaction. To determine the effects of the mutations on poliovirus replication, the mutant 3Dpol genes were subcloned into an infectious cDNA of poliovirus. The cDNAs containing the mutant 3Dpol genes did not produce infectious virus when transfected into tissue culture cells under standard conditions. Because of the activity of the 3D-N-329 mutant in the presence of Fe2+ and Mn2+, transfections were also performed in the presence of the different metal ions. Surprisingly, the transfection of the cDNA containing the 3D-N-329 mutation resulted in the production of virus at a low frequency in the presence of FeSO4 or CoCl2. The virus derived from transfection in the presence of FeSO4 grew slowly, while the viruses recovered from transfection in CoCl2 grew at a rate which was similar to that of the wild-type poliovirus.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mutation of the aspartic acid residues of the GDD sequence motif of poliovirus RNA-dependent RNA polymerase results in enzymes with altered metal ion requirements for activity. 785 86

The sequence of 8734 nucleotides (nt) from the 5'-end of the beet yellows closterovirus (BYV) RNA was determined to complete the 15,480-nt sequence of the virus genome. The 5'-terminal two-thirds of the sequence are occupied by two overlapping open reading frames (ORFs) 1a and 1b, encoding products with calculated M(r) of 295K and 48K, respectively. The RNA sequence surrounding the stop codon in ORF 1a shows structural elements typical of ribosomal frameshifting signals in a number of animal and plant viruses. It is predicted that the ORF 1b product is expressed via a +1 ribosomal frameshifting as the 348K ORF 1a/1b fusion protein. This putative protein contains the array of methyltransferase, RNA helicase, and RNA-dependent RNA polymerase domains that is conserved in the Sindbis-like supergroup of positive-strand RNA viruses. The 348K protein of BYV is longer than the putative replicases of the most closely related viruses (tobra- and tobamoviruses) by about 1300 amino acids distributed between two unique regions, one at the N-terminus, and the other in the central portion. The N-terminal domain showed sequence similarity to the helper component papain-like protease of potyviruses. By using in vitro translation of the T7 transcripts encoding the N-terminal 92K peptide of the BYV ORF 1a product, we found that the N-terminal fragment of 588 amino acids is released from the translation product by cleavage at the Gly-Gly dipeptide. Site-directed mutagenesis of either of the predicted catalytic residues Cys-509 and His-569 or of the Gly-588 at the cleavage site completely abolished the cleavage. The central unique region of the 348K protein contains a domain distantly resembling the aspartic protease of HIV and other lentiviruses. As shown previously, the 3'-terminal portion of the BYV genome encompasses seven more ORFs, one of which codes for a protein related to the HSP70 cell heat shock proteins, whereas two others encode the capsid protein and its diverged copy. Thus, despite the apparent evolutionary relationship with Sindbis-like viruses, BYV comprises a collection of genomic modules absorbed from different sources and has a unique expression strategy.
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PMID:Beet yellows closterovirus: complete genome structure and identification of a leader papain-like thiol protease. 825 66

The poliovirus RNA-dependent RNA polymerase (3Dpol) shares a region of homology with all RNA polymerases, centered around the amino acid motif YGDD, which has been postulated to be involved in the catalytic activity of the enzyme. Using oligonucleotide site-directed mutagenesis, we substituted the tyrosine at this motif of the poliovirus RNA-dependent RNA polymerase with cysteine, histidine, isoleucine, methionine, phenylalanine, or serine. The enzymes were expressed in Escherichia coli, and in vitro enzyme activity was tested. The phenylalanine and methionine substitutions resulted in enzymes with activity equal to that of the wild-type enzyme. The cysteine substitution resulted in an enzyme with approximately 50% of the wild-type activity, while the serine substitution resulted in an enzyme with approximately 10% of the wild-type activity; the isoleucine and histidine substitutions resulted in background levels of enzyme activity. To assess the effects of the mutants in viral replication, the mutant polymerase genes were subcloned into the infectious cDNA clone of poliovirus. Transfection of poliovirus cDNA containing the phenylalanine mutation in 3Dpol gave rise to virus in all of the transfection trials, while cDNA containing the methionine mutation resulted in virus in only 3 of 40 transfections. Transfection of cDNAs containing the other substitutions at the tyrosine residue did not result in infectious virus. The recovered viruses demonstrated kinetics of replication similar to those of the wild-type virus, as measured by [3H]uridine incorporation at either 37 or 39 degrees C. RNA sequence analysis of the 3Dpol gene of both viruses demonstrated that the tyrosine-to-phenylalanine or tyrosine-to-methionine mutation was still present. No other differences in the 3Dpol gene between the wild-type and phenylalanine-containing virus were found. The virus containing the methionine mutation also contained two other nucleotide changes from the wild-type 3Dpol sequence; one resulted in a glutamic acid-to-aspartic acid change at amino acid 108 of the polymerase, and the other resulted in a C-to-T base change at nucleotide 6724, which did not result in an amino acid change. To confirm that the second amino acid mutation found in the 3Dpol gene of the methionine-substituted virus allowed for replication ability, a mutation corresponding to the glutamic acid-to-aspartic acid change was made in the polymerase containing the methionine substitution, and this double-mutant polymerase was expressed in E. coli. The double-mutant enzyme was as active as the wild-type enzyme under in vitro assay conditions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Enzymatic activity of poliovirus RNA polymerases with mutations at the tyrosine residue of the conserved YGDD motif: isolation and characterization of polioviruses containing RNA polymerases with FGDD and MGDD sequences. 838 83

The attenuated Sabin strain of poliovirus type 1 (PV-1) differs from the neurovirulent PV-1 Mahoney strain by 55 nucleotide mutations. Only one of these mutations (A-480-->G, in the 5' noncoding (5' NC) region of the genome, is well characterized, and it confers a strong attenuating effect. We attempted to identify genetic attenuation determinants in the 3'-terminal part of the Sabin 1 genome including the 3D polymerase (3Dpol) gene and the 3' NC region. Previous studies suggested that some of the 11 mutations in this region of the Sabin 1 genome, and in particular a mutation in the polymerase gene (U-6203-->C, Tyr-73-->His), are involved to some extent in the attenuation of PV-1. We analyzed the attenuating effect in the mouse model by using the mouse-adapted PV-1/PV-2 chimeric strain v510 (a Mahoney strain carrying nine amino acids of the VP1 capsid protein from the Lansing strain of PV-2). Mutagenesis of locus 6203 was performed on the original v510 (U-6203-->C) and also on a hybrid v510/Sabin 1 (C-6203-->U) carrying the downstream 1,840 nucleotides of the Sabin 1 genome including the 3Dpol and 3' NC regions. Statistical analysis of disease incidence and time to disease onset in numerous mice inoculated with these strains strongly suggested that nucleotide C-6203 is involved in the attenuation of the Sabin 1 strain. Results also suggested that, among the mutations located in the 3Dpol and 3' NC regions, nucleotide C-6203 may be the principal or the only one to be involved in attenuation in this mouse model. We also found that the effect of C-6203 was weaker than that of nucleotide G-480; the two nucleotides acted independently and may have a cumulative effect on attenuation. The U-6203-->C substitution also appeared to contribute to the thermosensitivity of the Sabin 1 strain.
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PMID:A mutation in the RNA polymerase of poliovirus type 1 contributes to attenuation in mice. 839 4

A newly identified temperature-sensitive mutant whose defect was mapped to the reovirus M1 gene (minor core protein mu2) was studied to better understand the functions of this virion protein. Sequence determination of the Ml gene of this mutant (tsH11.2) revealed a predicted methionine-to-threonine alteration at amino acid 399 and a change from proline to histidine at amino acid 414. The mutant made normal amounts of single-stranded RNA, both in in vitro transcriptase assays and in infected cells, and normal amounts of progeny viral protein at early times in a restrictive infection. However, tsH11.2 produced neither detectable progeny protein nor double-stranded RNA at late times in a restrictive infection. These studies indicate that mu2 plays a role in the conversion of reovirus mRNA to progeny double-stranded RNA.
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PMID:Identification and characterization of a double-stranded RNA- reovirus temperature-sensitive mutant defective in minor core protein mu2. 867 44

To assess the relationship between melanin production by Cryptococcus neoformans and virulence on a molecular basis, we asked: (a) is CNLAC1, the laccase structural gene of C. neoformans, expressed in vivo?; (b) can mouse virulence be restored to cnlac1 (Mel-) mutants by complementation with CNLAC1?; and (c) will targeted gene deletion of CNLAC1 decrease virulence for mice? Melanin is produced when cryptococcal laccase catalyzes the oxidation of certain aromatic compounds, including L-dopa, to quinones, which then polymerize to melanin. To assess CNLAC1 transcription, RNA was extracted from C. neoformans in cerebrospinal fluid of infected rabbits. Reverse transcriptase-polymerase chain reaction detected CNLAC1 transcript, indicating that laccase may be produced in the infected host. To assess the effect of CNLAC1 deletion on virulence, a Mel- mutant (10S) was obtained by disruption of the 5' end of the gene. After multiple backcrosses with a parental strain to remove unintended genetic defects introduced by the transformation process, a Mel- progeny was tested and found to be much less virulent for mice than a Mel+ progeny. Another Mel- strain (mel2), obtained from J.C. Edman (University of California at San Francisco, CA), produced CNLAC1 transcript but no detectable melanin. Characterization of this mutant revealed a base substitution in CNLAC1 that changed a histidine to tyrosine in a putative copper-binding site. When this base change was introduced into CNLAC1 by site-directed mutagenesis, it no longer transformed mel2 to Mel+, indicating the importance of this histidine in laccase activity. Complementation of a mel2-derived mutant with CNLAC1 restored the Mel+ phenotype and increased virulence. These results support the concept that the CNLAC1 gene product has a role in virulence.
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PMID:Effect of the laccase gene CNLAC1, on virulence of Cryptococcus neoformans. 876 Jul 91

We have selected and plaque purified a mutant of feline immunodeficiency virus (FIV) that is resistant to 2',3'-dideoxycytidine (ddC). This mutant was selected in cultured cells in the continuous presence of 25 microM ddC. The mutant, designated DCR-5c, was fourfold resistant to ddC, threefold resistant to 2',3'-dideoxyinosine, and more than fourfold resistant to phosphonoformic acid. DCR-5c displayed little or no resistance to (-)-beta-2',3'-dideoxy-3'-thiacytidine, 3'-azido-3'-deoxythymidine, or 9-(2-phosphonylmethoxyethyl) adenine. Reverse transcriptase purified from DCR-5c was less susceptible to inhibition by ddCTP, phosphonoformic acid, ddATP, or azido-dTTP than the wild-type FIV reverse transcriptase. Sequence analysis of DCR-5c revealed a single base change (G to C at nucleotide 2342) in the reverse transcriptase-encoding region of FIV. This mutation results in substitution of His for Asp at codon 3 of FIV reverse transcriptase. The role of this mutation in ddC resistance was confirmed by site-directed mutagenesis.
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PMID:Selection and characterization of a mutant of feline immunodeficiency virus resistant to 2',3'-dideoxycytidine. 884 58

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