EC:2.7.7.6 - FACTA Search

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)

Rifampin-resistant (Rifr) mutants were isolated spontaneously from Bacillus subtilis strain 168. A fraction of the mutants did not grow on a minimal medium. A high concentration of one of the L-amino acids (glutamic acid, glutamine, arginine, proline, aspartic acid, or asparagine) was required to restore their growth on the medium. Further analysis of one of the mutants (strain RF 161) suggested that the mutant is unable to use ammonia as a nitrogen source and requires amino acids instead. Activity of glutamate synthase was not detected in the crude extract of the mutant. The Rifr mutation was closely located to cysA and the drug resistance was cotransformed with the property of amino acid requirement at 100% frequency. All revertants to prototrophy tested showed the rifampin-sensitive (Rifs) property. The activity of the DNA-dependent RNA polymerase of the mutant was resistant to rifampin. It is concluded that some alteration of RNA polymerase may cause absence of the activity of an enzyme involved in the nitrogen metabolism.
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PMID:Pleiotropic effect of a rifampin-resistant mutation in Bacillus subtilis. 9 17

Antibiotics are very commonly used substances to eradicate bacterial infections by bacteriostatic or even bactericid effect. They act at a very specific stage (target), although other less important or secondary interactions can occur. We studied the interaction of three antibiotic families (beta-lactamins, aminosides, rifampicin) with bacterial cell. Penicillin disturbs the cell wall synthesis and more accurately the glycopeptide (or murein) formation, a substance giving rigidity or shape to bacteria. It acts in the late phase of murein-biosynthesis, when N-acetyl glucosamin -- N-acetyl muramic acid L ala -D glu M-DAP (L lys) -D ala -D ala are linked together by the peptide part, under the effect of several enzymes, particularly transpeptidase and DD-carboxy-peptidase. It would appear that beta-lactame-thiazolidine rings have a steric analogy with dipeptide D-alanyl D-alanine. The result would be that the enzyme would act on the antibiotic instead of peptide: the consequence would be inhibition of the peptidic link, giving an abnormal murein, and an incomplete cell wall i.e. fragile bacteria. Aminosides, particularly Streptomycin, link themselves to 30 S subunit of bacterial ribosome. In this case, it seems that it is a 3''OH function which reacts with lysine (from S 12 protein part of 30 S subunit). The consequence is an alteration in the RNA messager lecture, and a false traduction and consequently protein biosynthesis stops with a decrease of polyribosomes and of the formation of inert 70 S ribosome. Rifamycins, and particularly Rifampicin act by inhibition of RNA messager synthesis. One molecule of antibiotic links itself to one molecule of RNA messager : hydroxyl and cetone function in C1 Cs C21 C23 and "ansa" bridge link to beta subunit of RNA polymerase. This linkage gives a conformational change to the RNA polymerase-DNA complex, inhibiting the catalytic action of this enzyme, and consequently stopping RNA messager and protein synthesis. The study of the action mechanism of these antibiotics enables us to show the action specificity of these products in the bacteria. This specificity is more accurate when the target is not to be found in the eucaryotic cells : in this case the antibiotic may be considered as entirely atoxic. If the study of the action mechanism of antibiotics gives a better understanding of the use of these drugs, their action at a definite stage in bacterial metabolism is a valuable tool for scientists in their approach to cell functioning.
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PMID:[Mechanism of action of antibiotics:some examples]. 15 42

The RNA-dependent RNA polymerase associated with vesicular stomatitis virus has been found to be markedly inhibited at high concentrations of virus. This endogenous inhibitor of the virion transcriptase was completely reversed by the action of two negatively charged polyamino acids: poly(L-glutamic acid) and pepsin (EC 3.4.23.1). Two other polyanions, heparin and polyethylene sulfonate, strongly inhibited the activity of the virion transcriptase even at low virus concentrations. Poly (L-glutamic acid) rapidly released the block in transcription of concentrated vesicular stomatitis virus, possibly owing to competition for binding sites of the inhibitor on the virion nucleocapsid transcription complex.
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PMID:Reversal by certain polyanions of an endogenous inhibitor of the vesicular stomatitis virus-associated transcriptase. 20 38

An endogenous transcriptase inhibitor active at high concentrations of vesicular stomatitis (VS) virus was present in trypsinized whole virions but was absent from ribonucleoprotein cores containing only the L, N, and NS proteins. Poly(L-glutamic acid) effectively reversed the transcriptase inhibition. Transcription under noninhibited, inhibited, and poly(L-glutamic acid)-reversed conditions did not appear to greatly affect the nature of the RNA transcription product. The VS virion matrix (M) protein was purified to greater than 98% homogeneity and was found to have an isoelectric point of approximately 9.0. Purified M protein inhibited transcription by ribonucleoprotein cores, an effect that was partially reversed by poly(L-glutamic acid). Two group III temperature-sensitive (ts) mutants of VS virus (tsO23 and ts G31) with lesions in the M protein exhibited little or no endogenous inhibitor activity compared with two wild-type strains and a group V mutant (tsO45) with a lesion in the G protein. The data presented strongly suggest that the virion M protein is responsible for the endogenous inhibition of in vitro RNA synthesis seen at high concentrations of VS virus.
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PMID:Role of the membrane (M) protein in endogenous inhibition of in vitro transcription by vesicular stomatitis virus. 21 13

Cloned cDNA encoding the Sendai virus (SV) hemagglutinin-neuraminidase (HN) envelope glycoprotein was expressed in cultured cells in two ways: (I) infection with HN-expressing recombinant vaccinia virus, or (II) transfection with a plasmid with T7 promoter and termination sequences flanking the HN gene, with intracellular T7 RNA polymerase supplied by coinfection with recombinant vaccinia virus that expresses the enzyme. The HN expressed was indistinguishable from the authentic SV protein in antigenicity, cell surface location, and formation of oligomeric structures. In addition, HN expressed from cDNA functioned normally in both hemadsorption and neuraminidase activities. The usefulness of cDNA expression for analyzing HN structure and function was evaluated by mutating the HN cDNA and observing the consequences for HN protein activity. Since previous work indicated that the lysine residue at position 461 is important for the neuraminidase activity of HN, we used site-directed mutation to produce HN protein with this lysine residue changed to glutamic acid. The mutated HN had neuraminidase activity with significantly increased thermal stability, indicating that residue 461 may be essential to the protein's conformation.
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PMID:Expression of cDNA encoding the Sendai virus hemagglutinin-neuraminidase gene: characterization of wild-type and mutant gene products. 131 81

The importance of certain amino acid residues in mammalian ornithine decarboxylase activity and degradation was studied by site-specific mutagenesis. Changes were made to the mouse ornithine decarboxylase cDNA in a plasmid containing a T7 RNA polymerase promoter. The plasmid was then used for the synthesis of RNA, which was translated in a reticulocyte lysate system. The activity of the ornithine decarboxylase formed and the stability of the protein to degradation in a reticulocyte lysate system were determined. Changes of lysine-169 or of histidine-197 to alanine completely abolished enzyme activity, indicating that these residues are essential for enzyme activity. The removal of the C-terminal 36 residues, the mutation of lysine-349 to alanine, of lysine-298 to alanine or the double change of serine-303 and glutamic acid-308 to alanine residues still resulted in an active enzyme. The last-mentioned finding indicates that the phosphorylation of serine-303 does not play an essential role in the catalytic activity of ornithine decarboxylase. The control ornithine decarboxylase protein was degraded rapidly in a reticulocyte lysate provided that ATP was added. The truncated protein missing the 36 residues from the C-terminus was much more stable in this system, and the protein containing the double change of serine-303 and glutamic acid-308 to alanine residues was slightly more stable than control ornithine decarboxylase protein. These results indicate that the altered residues may play a role in interaction with factors responsible for the rapid turnover of ornithine decarboxylase.
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PMID:Identification of residues in ornithine decarboxylase essential for enzymic activity and for rapid protein turnover. 187 2

Mini-F plasmids cannot replicate in Escherichia coli strains (delta rpoH) lacking sigma 32, presumably because transcription of the repE gene encoding the replication initiator protein (RepE protein) depends mostly on RNA polymerase containing sigma 32. We have isolated and characterized mini-F mutants able to replicate in delta rpoH cells. Contrary to the initial expectation, five mutants with mutations in the repE coding region that produce altered RepE proteins were obtained. The mutations caused replacement of a single amino acid: the 92nd glutamic acid was replaced by lysine (repE10, repE16, and repE25) or glycine (repE22) or the 109th glutamic acid was replaced by lysine (repE26). These plasmids overproduced RepE protein and exhibited very high copy numbers. Two major activities of mutated RepE proteins have been determined in vivo; the autogenous repressor activity was significantly reduced, whereas the initiator activity was much enhanced in all mutants. These results indicate the importance of a small central region of RepE protein for both initiator and repressor activities. Thus the decreased repE transcription in delta rpoH cells can be compensated for by an increased initiator activity and a decreased repressor activity of RepE, resulting in the increased synthesis of hyperactive RepE protein.
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PMID:Mini-F plasmid mutants able to replicate in the absence of sigma 32: mutations in the repE coding region producing hyperactive initiator protein. 199 8

L-Glutamic acid (gamma-4'-hydroxyanilide) (GHB) is oxidized by tyrosinase to a quinone which inhibits DNA polymerase, RNA polymerase, and mitochondrial energy production within mushrooms. It was previously shown that GHB can kill B16 melanoma cells in culture, but lacks cytotoxicity for nontyrosinase-containing cells. We have conjugated this drug to a superpotent melanotropic peptide and examined the bioactivity of this conjugate to melanoma cells. 4'-Hydroxyaniline was attached to glutamic acid at position 5 in the superpotent melanotropin fragment analogue, Ac-[Nle4, D-Phe7]alpha-MSH4-10-NH2. The melanotropin:anilide conjugate, Ac-[Nle4, Glu(gamma-4'-hydroxyanilide)5, D-Phe7]alpha-MSH4-10-NH2, was not cytotoxic to B16 or Cloudman S91 mouse melanoma cells in culture, as determined by cell counts and protein assays. Interestingly, we also found that GHB stimulated melanoma cell tyrosinase above control levels in both melanoma cell lines. In our study, GHB itself also was found not to be cytotoxic to B16 or S91 melanoma cells in culture. In the frog skin bioassay, the melanotropin conjugate was more potent than alpha-MSH or Ac-[Nle4, D-Phe7]alpha-MSH4-10 in stimulating melanosome dispersion. These results demonstrate that putative chemotherapeutic ligands can be incorporated into active-site fragment analogues of MSH without loss of biological activity.
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PMID:Synthesis and actions of a melanotropin conjugate, Ac-[Nle4, Glu(gamma-4'-hydroxyanilide)5, D-Phe7]alpha-MSH4-10-NH2, on melanocytes and melanoma cells in vitro. 216 79

The genes (rpo B/C1/C2) coding for the beta, beta', beta" subunits of maize (Zea mays) chloroplast RNA polymerase have been located on the plastome and their nucleotide sequences established. The operon is part of a large inversion with respect to the tobacco and spinach chloroplast genomes and is flanked by the genes trnC and rps2. Notable features of the nucleotide sequence are the loss of an intron in rpoC1 and an insertion of approximately 450 bp in rpoC2 compared to the dicotyledons tobacco, spinach and liverwort. The derived amino acid sequence of this additional monocotyledon specific sequence is characterized by acidic heptameric repeat units containing stretches of glutamic acid, tyrosines and leucines with regular spacing. Other structural motifs, such as a nucleotide binding domain in the beta subunit and a zinc finger in the beta' subunit, are compared at the amino acid level throughout the RNA polymerase subunits with the enzymes from other organisms in order to identify functionally important conserved regions.
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PMID:Nucleotide sequence of the maize chloroplast rpo B/C1/C2 operon: comparison between the derived protein primary structures from various organisms with respect to functional domains. 238 19

Full-length cDNA copies of mRNAs coding for the matrix (M) proteins of vesicular stomatitis virus and its mutant tsO23(III) were cloned in pBSM13- (BlueScribe). The authenticity of these clones was demonstrated by restriction enzyme mapping, DNA sequencing, and in vitro transcription and translation to identify the two M proteins by Western immunoblotting with epitope-specific monoclonal antibodies. Site-directed mutants were constructed by primer extension of synthetic oligodeoxynucleotides with one or two nucleotide changes to alter the glycine at amino acid 21 of the wild-type (wt) M gene to glutamic acid, alanine, or proline. Similarly, a revertant was created in the M gene of mutant tsO23 by a Glu-21----Gly substitution. A series of wt- and mutant-M-gene chimeras was also constructed to create mutant and revertant clones with Leu----Phe and His----Tyr alterations at amino acids 111 and 227, respectively. We then moved the wt and tsO23 M genes and their site-specific mutants and chimeras cloned in pBSM13- into the eucaryotic expression vector pTF7 directed by the T7 bacteriophage RNA polymerase of the vaccinia virus recombinant vTF1-6,2. Western blot analysis of the M proteins transiently expressed in CV-1 cells by plasmids carrying M genes altered at amino acid 21 revealed that the critical antigenic determinant (epitope 1) is expressed only by the Gly-21 M protein and not by Glu-21, Ala-21, or Pro-21 M proteins. Of particular interest is an apparent conformational change, evidenced by slightly but significantly retarded electrophoretic migration, in plasmid-expressed M proteins with amino acids substituted for glycine at position 21. The glutamic acid at position 21 of tsO23 is not responsible for its temperature-sensitive phenotype, because a tsO23 revertant plasmid with glycine substituted at position 21 fails to rescue tsO23 virus in cells infected at the restrictive temperature; conversely, plasmids expressing wt M protein with substitutions of glutamic acid, alanine, or proline at position 21 are just as effective in marker rescue of tsO23 as is the Gly-21 wt M protein. Marker rescue experiments with wt- and mutant-M-gene chimeras support the hypothesis of K. Morita, R. Vanderoef, and J. Lenard (J. Virol. 61:256-263, 1987) that the temperature-sensitive phenotype of tsO23 is due to a phenylalanine substituted for leucine at amino acid 111, rather than the His-227----Tyr substitution or the Gly-21----Glu substitution, which independently accounts for the loss of epitope 1 in the mutant M protein of tsO23.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Site-specific mutations in vectors that express antigenic and temperature-sensitive phenotypes of the M gene of vesicular stomatitis virus. 245 88

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