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)

The poliovirus replication complex was isolated and purified from infected HeLa S3 cells. Preparations with RNA-dependent RNA polymerase activity were concentrated 200- and 1000-fold with respect to the original virus and total protein content. The enzyme activity was found to be associated with the proteins NCVPI, 2, 3, 4, (5), 6 and VPl/NCVPx. The structural proteins VP2, 3 and 4 were not present. Addition of cycloheximide to infected cells resulted in a decrease in the in vitro polymerase activity and a loss in NCVPI content. Treatment of the infected cells with toloylsulphonyl-phenylalanine chloromethyl ketone (TPCK) and iodoacetamide (IAA) led to an inhibition of in vivo RNA synthesis. The 750 g supernatant fluids obtained from extracts of these cells were able to block RNA synthesis in vitro. Electrophoretic profiles of the respective protein compositions indicate that large virus precursor proteins are responsible for the inhibition of poliovirus RNA synthesis in vivo and in vitro.
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PMID:Virus-specific proteins associated with the replication complex of poliovirus RNA. 16 19

Ten aminoacyl transfer RNA's prepared from human malignant trophoblastic cells (BeWo line) were compared with the corresponding aminoacyl transfer RNA's from normal human chorionic tissue by cochromatography on a RPC-5 column. Phenylalanyl transfer RNA (Phe-tRNA) of BeWo cells had, in addition to the single species of Phe-tRNA found in normal chorionic tissues, an early eluting component. When Phe-tRNA from the chorion was exposed to mild acid, which selectively excises the Y base, it eluted in the same position as the early eluting Phe-tRNA of BeWo cells. Therefore, the BeWo Phe-tRNA is partially undermodified. Tyrosyl transfer RNA of BeWo cells exhibited a broad-based peak which eluted later than the normal and probably consists of two or more tyrosyl transfer RNA's. Seryl transfer RNA of BeWo cells showed two peaks of acceptor activity, while seryl transfer RNA of normal chorion had a third peak that eluted at a higher salt concentration. In addition, in an early eluting methionyl and lysyl transfer RNA and in a late eluting arginyl transfer RNA from BeWo cells and normal charion, quantitative alterations were detected. The remaining four transfer RNA's, leucyl, aspartyl, valyl, and histidyl, from the two sources did not show any significant differences in elution profiles. These alterations of the chromatographic profile appeared to be due to new or altered species of transfer RNA. They were not due to differences in the aminoacyl transfer RNA synthetase. The transfer RNA methyltransferase capacity of the enzymes from BeWo cells was 2-fold higher than that of the enzymes extracted from the chorion.
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PMID:Changes in transfer RNA's in human malignant trophoblastic cells (BeWo line). 17 10

Formation of complexes between yeast phenylalanine transfer RNA and phenylalanyl aminoacyl-transfer RNA synthetase is shown to occur under equilibrium conditions in the analytical ultracentrifuge. The technique of equilibrium sedimentation should be useful for the detection of transient associations between proteins and nucleic acids when only small amounts of unlabeled, but highly purified, materials are available.
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PMID:Detection of nucleic acid-protein complexes by equilibrium ultracentrifugation. 98 95

We have identified a T7 RNA polymerase (RNAP) mutant that efficiently utilizes deoxyribonucleoside triphosphates. In vitro this mutant will synthesize RNA, DNA or 'transcripts' of mixed dNMP/rNMP composition depending on the mix of NTPs present in the synthesis reaction. The mutation is conservative, changes Tyr639 within the active site to phenylalanine and does not affect promoter specificity or overall activity. Non-conservative mutations of this tyrosine also reduce discrimination between deoxyribo- and ribonucleoside triphosphates, but these mutations also cause large activity reductions. Of 26 mutations of other residues in and around the active site examined none showed marked effects on rNTP/dNTP discrimination. Mutations of the corresponding tyrosine in DNA polymerase (DNAP) I increase miscoding, though effects on dNTP/rNTP discrimination for the DNAP I mutations have not been reported. This conserved tyrosine may therefore play a similar role in many polymerases by sensing incorrect geometry in the structure of the substrate/template/product due to inappropriate substrate structure or mismatches. T7 RNAP can use RNA templates as well as DNA templates and is capable of both primer extension and de novo initiation. The Y639F mutant retains the ability to use RNA or DNA templates. Thus this mutant can display de novo initiated or primed DNA-directed DNA polymerase, reverse transcriptase, RNA-directed RNA polymerase or DNA-directed RNA polymerase activities depending simply on the templates and substrates presented to it in the synthesis reaction.
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PMID:A mutant T7 RNA polymerase as a DNA polymerase. 755 4

Reverse transcriptase and polymerase chain reaction methods were used to amplify and clone actin cDNAs from the chlorophylls a + C-containing unicellular alga, Emiliania huxleyi (Prymnesiophyta). Actins in E. huxleyi are defined by a gene family containing at least six distinct coding regions that were derived from relatively recent gene duplications. Five of the coding regions (types 1, 2, and 4-6) varied only among synonymous codons. A nonsynonomous change in a sixth coding region (type 3 actin) produced a serine-to-phenylalanine replacement. The G + C composition of third positions in E. huxleyi actin genes is 98%, which contrasts with the mean value of 50% G + C content for first and second positions. Distance-matrix and parsimony analyses of actin genes identified the prymnesiophytes as a photosynthetic lineage that is not already related to other eukaryotic algal groups.
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PMID:Isolation and molecular phylogenetic analysis of actin-coding regions from Emiliania huxleyi, a Prymnesiophyte alga, by reverse transcriptase and PCR methods. 768 35

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 tRNA-like structure at the 3' end of turnip yellow mosaic virus (TYMV) RNA was studied in order to determine the role of this structure in the initiation of minus-strand synthesis in vitro. Deletions in the 5'-to-3' direction up to the pseudoknot structure did not result in a decrease of transcription efficiency. However, transcription efficiency was reduced twofold when a fragment of 21 nucleotides, comprising the 3'-terminal hairpin, was used as a template. tRNA(Phe) from yeast, Escherichia coli 5S rRNA, and the 3'-terminal 208 nucleotides of alfalfa mosaic virus RNA 3 could not be transcribed by the RNA-dependent RNA polymerase (RdRp) of TYMV. Various mutations in the sequences of loop regions L1 and L2 or of stem region S1 of the pseudoknot were tested to further investigate the importance of the pseudoknot structure. The results were compared with those obtained in an earlier study on aminoacylation with the same mutants (R. M. W. Mans, M. H. van Steeg, P. W. G. Verlaan, C. W. A. Pleij, and L. Bosch, J. Mol. Biol. 223:221-232; 1992). Mutants which still harbor a stable pseudoknot, as proven by probing its structure, have a transcription efficiency very close to that of the wild-type virus. Disruption of the pseudoknot structure, however, gives rise to a drop in transcription efficiency to about 50%. No indications of base-specific interactions between L1, L2, or S1 of the pseudoknot and the RdRp were found.
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PMID:The role of the pseudoknot at the 3' end of turnip yellow mosaic virus RNA in minus-strand synthesis by the viral RNA-dependent RNA polymerase. 922 89

Phosphorylation by casein kinase II at three specific residues (S-60, T-62, and S-64) within the acidic domain I of the P protein of Indiana serotype vesicular stomatitis virus has been shown to be critical for in vitro transcription activity of the viral RNA polymerase (P-L) complex. To examine the role of phosphorylation of P protein in transcription as well as replication in vivo, we used a panel of mutant P proteins in which the phosphate acceptor sites in domain I were substituted with alanines or other amino acids. Analyses of the alanine-substituted mutant P proteins for the ability to support defective interfering RNA replication in vivo suggest that phosphorylation of these residues does not play a significant role in the replicative function of the P protein since these mutant P proteins supported replication at levels > or = 70% of the wild-type P-protein level. However, the transcription function of most of the mutant proteins in vivo was severely impaired (2 to 10% of the wild-type P-protein level). The level of transcription supported by the mutant P protein (P(60/62/64)) in which all phosphate acceptor sites have been mutated to alanines was at best 2 to 3% of that of the wild-type P protein. Increasing the amount of P(60/62/64) expression in transfected cells did not rescue significant levels of transcription. Substitution with other amino acids at these sites had various effects on replication and transcription. While substitution with threonine residues (P(TTT)) had no apparent effect on transcription (113% of the wild-type level) or replication (81% of the wild-type level), substitution with phenylalanine (P(FFF)) rendered the protein much less active in transcription (< 5%). Substitution with arginine residues led to significantly reduced activity in replication (6%), whereas glutamic acid substituted P protein (P(EEE)) supported replication (42%) and transcription (86%) well. In addition, the mutant P proteins that were defective in replication (P(RRR)) or transcription (P(60/62/64)) did not behave as transdominant repressors of replication or transcription when coexpressed with wild-type P protein. From these results, we conclude that phosphorylation of domain I residues plays a major role in in vivo transcription activity of the P protein, whereas in vivo replicative function of the protein does not require phosphorylation. These findings support the contention that different phosphorylated states of the P protein regulate the transcriptase and replicase functions of the polymerase protein, L.
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PMID:Phosphorylation within the amino-terminal acidic domain I of the phosphoprotein of vesicular stomatitis virus is required for transcription but not for replication. 934 67

Hepatitis B virus (HBV) variant strains may develop during therapy for chronic infection with the nucleoside analog 2',3'-dideoxy-3'-thiacytidine (3TC). HBV mutants result from isoleucine (I) or valine (V) substitutions in the methionine (M) of the YMDD motif in the viral reverse-transcriptase catalytic domain. In addition, other mutations in the reverse-transcriptase "B domain" involving either a phenylalanine (F)-to-leucine (L) at amino acid 501 (F501L) or an L-to-M substitution at amino acid 515 (L515M) have been observed during 3TC and Famciclovir therapy as well. To determine the biologic consequences of these mutations on viral replication, variant viral genomes were constructed and transiently transfected into hepatocellular carcinoma (HCC) and HEK 293 human embryo kidney-derived cell lines. In transiently transfected HCC cells, the viruses bearing the YI/VDD or F501L mutations had greatly impaired replication as compared to wild-type virus, whereas the virus carrying the L515M substitution showed the least defect. Double mutants with the L515M substitution showed intermediate defect between the YI/VDD or F501L and the L515M single-mutant strains. In contrast, when transfected into HEK 293 cells, the viruses bearing the YI/VDD or L515M mutation replicated as wild-type. However, under conditions of deoxynucleotide depletion produced by hydroxyurea treatment of HEK 293 cells, all mutants but not the wild-type virus exhibited a reduced replication phenotype similar to that observed in HCC cells. In both HCC and HEK 293 cells, the mutant viruses carrying the F501L substitution showed a decreased pregenomic RNA encapsidation level, suggesting that the defect in HBV DNA synthesis occurs at the RNA packaging level. These findings show that 3TC and Famciclovir selected mutations alter the properties of the HBV reverse transcriptase, resulting in impaired viral replication within the cell.
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PMID:Hepatitis B virus mutants associated with 3TC and famciclovir administration are replication defective. 946 67

Reverse transcriptase (RT) plays a critical role in retrovirus replication, directing the synthesis of a double- stranded DNA copy of the viral RNA genome. We have previously described a mutant RT of the Moloney murine leukemia virus in which F155 was replaced by valine, and we demonstrated that this substitution allowed the enzyme to incorporate ribonucleotides to form RNA while still retaining its normal ability to incorporate deoxyribonucleotides to form DNA. When introduced into the viral genome, this mutation rendered the virus incapable of replication. Characterization of the mutant virus revealed that the enzyme was still active and able to synthesize minus-strand strong stop DNA and some longer products but failed to make full-length minus-strand DNA. We propose that the failure of the enzyme to complete DNA synthesis in vivo resulted from its ability to incorporate ribonucleotides into the products, which served as inhibitors for DNA synthesis. We also tested seven other amino acid residues for their abilities to substitute for F155 in virus replication; of these, only tyrosine could support virus replication. In an attempt to select for second-site suppressor mutations, the F155V mutant was subjected to random mutagenesis and was used as a parent for the isolation of revertant viruses. Two independent revertants were found to have changed the valine residue at position 155 back to the wild- type phenylalanine. These results suggest that an aromatic ring at this position is important for virus replication.
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PMID:Replication defect of moloney murine leukemia virus with a mutant reverse transcriptase that can incorporate ribonucleotides and deoxyribonucleotides. 962 Oct 52


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