Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Growth of phase alpha 3a on stationary phase Vibrio cultures requires micro-aerophilic conditions and is inhibited by aeration. Since pre-conditioning of the bacteria by allowing them to stand for 24 h after shaking for 3 d is an important aspect of the stationary phase phage growth system, various physiological and morphological characteristics of the stationary phase cells during the transition from shaking to standing were investigated. Shaken stationary phase cells were less viable and more sensitive to ultraviolet irradiation and heat than standing stationary phase cells. During pre-conditioning the small, non-flagellated cells present in shaken stationary phase cultures underwent morphological changes and became large, flagellated rods which resembled exponential phase cells. The transition of stationary phase cells from shaking to standing was associated with a marked increase in total RNA synthesis but a rapid and large decrease in total protein synthesis. Intracellular concentrations of ATP in shaken stationary phase cells were 53% lower than those in standing stationary phase cells. Studies on leucine uptake indicated that its transport was inhibited by isoleucine and that the major part (90%) of the total leucine uptake was due to a shared system for uptake of both amino acids. Shaken stationary phase cells transported less leucine than standing stationary phase cells. Inhibition of phage growth in aerated stationary phase cultures was not due to the prevention of phase absorption by shaking. It is suggested that the observed differences between shaken and standing stationary phase cells could be due to aeration affecting the template specificity of the Vibrio RNA polymerase.
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PMID:Physiological and morphological characteristics of stationary phase vibrio cells able to support phase growth. 616 43

The inhibition constants (Ki) of DNA-dependent RNA polymerase B (or II) from calf thymus were measured for eight synthetically obtained bicyclic amanitin-like thioethers, two R-sulfoxides, and two S-sulfoxides. These Ki values were compared with those of alpha-amanitin, its 6'-O-methylether Ia (an R-sulfoxide), the S-sulfoxide, the sulfone, the S-deoxo derivative (Id) of Ia, and several previously described amatoxins. The necessity of a beta-methyl side chain in position 3 and a hydroxy group in proline-2 was confirmed. Additionally, the presence of an isoleucine side chain in position 6 and the absence of a side chain in position 5 was recognized as important for binding to the enzyme. In the three sulfoxide samples examined, the R-diastereomer was found to be a stronger inhibitor than the S-form. The contribution of every structural element to biological activity has been discussed.
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PMID:The effect of the chemical nature of the side chains of amatoxins in the inhibition of eukaryotic RNA polymerase B. 726 84

Inophyllums are novel non-nucleoside inhibitors of human immunodeficiency virus (HIV) type 1 reverse transcriptase identified through an enzyme screening program and isolated from the plant Calophyllum inophyllum. The kinetics of reverse transcriptase inhibition by inophyllum B were characterized using recombinant purified enzyme, a heteropolymeric RNA template, and a scintillation proximity assay. Preincubation of inhibitor with the enzyme-template-primer complex for 11 min was required for maximal inhibition of reverse transcriptase to occur, suggesting that inophyllum B had a slow on-rate and that template-primer must bind to reverse transcriptase prior to inhibitor binding. Inhibition of reverse transcriptase by inophyllums was shown to be reversible. When thymidine triphosphate was the variable substrate, inophyllum B inhibited reverse transcriptase noncompetitively with a Ki of 42 nM. Enzyme inhibition with respect to template-primer was uncompetitive with a Ki of 26 nM. Reverse transcriptase enzymes containing point mutations in which tyrosine 181 was changed to either cysteine or isoleucine exhibited marginal resistance to inophyllums but were resistant to (+)-(5S)-4,5,6,7-tetrahydro-9-chloro-5-methyl-6- (3-methyl-2-butenyl)-imidazo[4,5,1-j,k][1,4]benzodiazepin-2-(1H)-t hione (TIBO R82913). A mutant enzyme in which tyrosine 188 was changed to leucine was cross-resistant to both inophyllum B and TIBO R82913, as was HIV type 2 reverse transcriptase. These studies suggest that inophyllum B and TIBO R82913 bind to distinct but overlapping sites. Inhibition of avian myeloblastosis virus reverse transcriptase and Moloney murine leukemia virus reverse transcriptase by inophyllum B was detectible, suggesting that these inhibitors may be more promiscuous than other previously described non-nucleoside inhibitors. Inophyllums were active against HIV type 1 in cell culture with IC50 values of approximately 1.5 microM. These studies imply that the inophyllums have a novel mechanism of interaction with reverse transcriptase and as such could conceivably play a role in combination therapy.
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PMID:Kinetic and mutational analysis of human immunodeficiency virus type 1 reverse transcriptase inhibition by inophyllums, a novel class of non-nucleoside inhibitors. 750

We report the identification of three new alpha-amanitin resistance mutations in the gene encoding the largest subunit of mouse RNA polymerase II (RPII215). These mutations are clustered in a region of the largest subunit that is important for transcription elongation. This same domain has been identified as the site of alpha-amanitin resistance mutations in both Drosophila and Caenarhabditis elegans. The sequences encompassing this cluster of mutations are highly conserved among RNA polymerase II genes from a number of species, including those that are naturally more resistant to alpha-amanitin suggesting that this region of the largest subunit is critical for a conserved catalytic function. The mutations reported here change leucine 745 to phenylalanine, arginine 749 to proline, or isoleucine 779 to phenylalanine. Together with the previously reported asparagine 792 to aspartate substitution these mutations define a potential alpha-amanitin binding pocket in a region of the mouse subunit that could be involved in translocation of polymerase during elongation.
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PMID:Clustered alpha-amanitin resistance mutations in mouse. 789 49

Genetic and molecular analysis in Drosophila melanogaster identifies eight suppressor mutations in the second largest subunit of RNA polymerase II. The suppressor mutations fall into two classes: five are strong, result from the same serine to cysteine amino acid residue substitution and rescue one conditional lethal allele in the largest subunit of RNA polymerase II; three are mild, result from a change in the same methionine residue to either isoleucine or valine, are located seven amino acid residues away from the strong suppressors and rescue two conditional lethal alleles in the largest subunit. Sequence analysis of the three regions around these mutations demonstrates that they are located within highly conserved domains but fails to explain the observed genetic interactions. One of the conditional lethal alleles maps within a region previously reported to share sequence similarity to Escherichia coli DNA polymerase I. As the gross structure of RNA polymerase II and DNA polymerase I is similar, even though their primary sequence is not, we predict that more similarities exist but may be too highly divergent to be detected by normal homology searches. We identify the most similar regions between each of the three conserved domains of RNA polymerase II, identified as functionally important because of the mutations we isolated, and DNA polymerase I. Molecular modeling these regions of RNA polymerase II onto the tertiary structure of DNA polymerase I predicts that all lie adjacent to the DNA binding cleft in positions such that they could interact with the phosphate backbone of DNA. This juxtaposition of mutations in the two largest subunits of RNA polymerase II suggest a mechanism for their genetic interactions.
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PMID:Molecular modeling of RNA polymerase II mutations onto DNA polymerase I. 796 18

Four amatoxin-binding proteins with KD values in the nanomolar range, 3 monoclonal antibodies and RNA polymerase II, were studied with respect to their affinities to 24 alpha-amanitin derivatives with modified side chains. From KD values we estimated the amounts of binding energy that single side chains of the amatoxins contribute to complex formation. Ile6, previously identified by X-ray analysis to be part of a beta-turn (Kostansek EC, Lipscomb WN, Yocum RR, Thiessen WE, 1978, Biochemistry 17:3790-3795) proved to be of outstanding importance in all complexes. Replacement of the isoleucine with alanine reduced the affinity to all binding proteins to < 1%, suggesting a strong hydrophobic interaction. A strong effect was also seen when Gly5 was replaced with alanine, suggesting that the absence of a side chain in proximity to the beta-turn is likewise important. In addition to the beta-turn, each of the proteins showed at least 2 other points of strong contact formed by hydrogen bonds. Donors are the indole NH of 6'-hydroxy-Trp4 and OH of hydroxy-Pro2 and dihydroxy-Ile3. All the antibodies, but not RNA polymerase II, recognized the indole nucleus of 6'-hydroxy-Trp4. The geometric arrangement of the 4 strongest contact points suggests that the amatoxin binding site is different in each of the 4 proteins, except for the 2 antibodies raised in the same animal. Here, most of the contact points were identical but differed in strength of interaction. The method of structural analysis presented in this study is useful for identifying contact sites in complexes of proteins with peptides of rigid conformation. Furthermore, the method complements X-ray data by providing information on the amount of binding energy contributed by single structural elements.
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PMID:A beta-turn in alpha-amanitin is the most important structural feature for binding to RNA polymerase II and three monoclonal antibodies. 806 5

The antimalarial activity of rifampicin, a specific inhibitor of bacterial ribonucleic acid (RNA) polymerase, was confirmed with Plasmodium falciparum in vitro and with P. chabaudi in vivo. The viability of ring forms of P. falciparum, measured by [3H]hypoxanthine and [14C]isoleucine uptake, was significantly reduced within 5 h of exposure to 2.5 microM rifampicin, the 50% inhibitory concentration. Streptolydigin and tagetitoxin, other specific inhibitors of bacterial RNA polymerase, were much less effective as antimalarials. A rifampicin-tolerant sub-line of P. falciparum was selected in vitro. When released from drug pressure, the tolerant line showed appreciably greater rates of incorporation of precursors and growth than the parent line, but over a period of months these characteristics gradually reverted. Rifampicin was effective against a chloroquine-resistant line of P. falciparum and the rifampicin-tolerant line had increased chloroquine sensitivity. Treatment of patent parasitaemias of P. chabaudi in mice with more than 100 mg/kg rifampicin twice daily significantly reduced the parasitaemia within 24 h and parasites were barely detectable on blood films by the fourth day. Recrudescence occurred on release of drug pressure.
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PMID:Antimalarial activity of rifampicin in vitro and in rodent models. 833 32

A collection of influenza virus PB2 mutant genes was prepared, including N-terminal deletions, C-terminal deletions, and single-amino-acid insertions. These mutant genes, driven by a T7 promoter, were expressed by transfection into COS-1 cells infected with a vaccinia virus encoding T7 RNA polymerase. Mutant proteins accumulated to levels similar to that of wild-type PB2. Immunofluorescence analyses showed that the C-terminal region of the protein is essential for nuclear transport and that internal sequences affect nuclear localization, confirming previous results (J. Mukaijawa and D. P. Nayak, J. Virol. 65:245-253, 1991). The biological activity of these mutants was tested by determining their capacity to (i) reconstitute RNA polymerase activity in vivo by cotransfection with proteins NP, PB1, and PA and a virion-like RNA encoding the cat gene into vaccinia virus T7-infected COS-1 cells and (ii) complete with the wild-type PB2 activity. In addition, when tested at different temperatures in vivo, two mutant PB2 proteins showed a temperature-sensitive phenotype. The lack of interference shown by some N-terminal deletion mutants and the complete interference obtained with a C-terminal deletion mutant encoding only 124 amino acids indicated that this protein domain is responsible for interaction with another component of the polymerase, probably PB1. To further characterize the mutants, their ability to induce in vitro synthesis of viral cRNA or mRNA was tested by using ApG or beta-globin mRNA as a primer. One of the mutants, 1299, containing an isoleucine insertion at position 299, was able to induce cRNA and mRNA synthesis in ApG-primed reactions but required a higher beta-globin mRNA concentration than wild-type PB2 for detection of in vitro synthesis. This result suggested that mutant I299 has diminished cap-binding activity.
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PMID:Mutational analysis identifies functional domains in the influenza A virus PB2 polymerase subunit. 862 88

Reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1) has low fidelity compared with RTs of other retroviruses and cellular DNA polymerases. We and others have previously found that the fidelity of DNA-dependent DNA polymerization (DDDP) of M184V-mutated HIV-1 RT is significantly higher than that of wild-type RT. Viruses containing the M184V substitution are highly resistant to (-)-2'-dideoxy-3'-thiacytidine (3TC) in vitro and in patients treated with 3TC monotherapy. It was of interest to determine the fidelity of RNA-dependent DNA polymerization (RDDP) of M184V RT compared with wild-type because this step occurs first in reverse transcription; errors made during this step may be copied in subsequent polymerization steps. Using an in vitro mispaired primer extension assay, M184V-mutated RT exhibited 3-49-fold decreased frequency of mispair extension compared with wild-type RT. Fidelity differences between M184V and wild-type RT were most marked in extension of A:G (49-fold) and A:C (16-fold) mispairs, with only a marginal (3-fold) decrease in the extension of A:A mispairs. RT containing a methionine to isoleucine (M184I) mutation showed only slight increases in RDDP fidelity compared with wild-type, ranging from 1.5- to 6-fold increases. Of the three RTs tested, wild-type RT was the most error-prone, with mispair extension frequencies ranging from 6.674 x 10(-1) to 7.454 x10(-2).
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PMID:Higher fidelity of RNA-dependent DNA mispair extension by M184V drug-resistant than wild-type reverse transcriptase of human immunodeficiency virus type 1. 935 62

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


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