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)

Cell extracts from Escherichia coli were used to study both transcription and coupled translation of the argECBH gene cluster. Argininosuccinase (the argH enzyme) and N-acetylornithinase (the argE enzyme) were synthesized for 90 to 120 min, and hybridizable argECBH mRNA was synthesized for 60 min after the addition of a lambda or phi 80 dargECBH DNA template. L-Arginine (2.5 mM) repressed synthesis by argR+ extracts of argECBH mRNA 2-, to 3-fold, argE enzyme 5- to 8-fold, and argH enzyme 20- to 60-fold. Repression was specific for L-arginine, and argR extracts were insensitive to added L-arginine. The argECBH mRNA made under conditions of restricted protein synthesis had reduced ability to function in the formation of the argE and argH enzymes and was found to be predominantly 6 to 8S in sucrose density gradients. When protein synthesis was allowed, the mRNA formed was functional, and large amounts of 14 to 23S argECBH mRNA appeared on sucrose gradients. An S-100 supernatant freed of ribosomes was capable of producing hybridizable arg mRNA, but significant functional message was only produced when ribosomes were present. When purified RNA polymerase was used, the formation of short 6 to 8S argECBH mRNA was dependent upon added rho protein. The data suggest that rho-dependent sites in the argECBH operon allow early termination of mRNA synthesis when transcription is not coupled to active enzyme synthesis.
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PMID:Regulation and coupling of argECBH mRNA and enzyme synthesis in cell extracts of Escherichia coli. 637 85

Rifampicin-resistant mutants of Salmonella typhimurium were isolated and tested for pleiotropic defects in the regulation of pyr gene expression. Seven per cent of all the Rifr mutants were inhibited in growth by addition of uracil (uracil-sensitive). The uracil-sensitive phenotype ( UraS ) was reversed by arginine or citrulline, but not by ornithine, and it was suppressed by mutations in either argR or pyrH , which causes increased expression of pyrA . It was shown that the basal levels of carbamoylphosphate synthase (the pyrA gene product) was reduced to approximately 60% in the mutants, and that addition of arginine and/or uracil to the growth medium caused hyperrepression of pyrA expression. The expression of other genes of the arginine and pyrimidine biosynthetic pathways was not affected significantly in the mutants. The mutations were located in the rpoB gene coding for the beta-subunit of RNA polymerase, suggesting a regulatory function of RNA polymerase in the control of pyrA expression.
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PMID:Salmonella typhimurium mutants with altered expression of the pyrA gene due to changes in RNA polymerase. 676 40

Phenylglyoxal, an arginine-specific reagent, strongly inhibits DNA polymerases isolated from eukaryotic, prokaryotic, and RNA tumor viral sources as well as Escherichia coli RNA polymerase. The inhibitory action of phenylglyoxal appears to be due to interference with the template binding function of these enzymes and implies the presence of an arginine residue at the template binding site of these enzymes from diverse sources and suggests that template dependent DNA, and perhaps RNA polymerases, may be mechanistically similar with respect to their template binding function. In contrast, the activity of terminal deoxynucleotidyl-transferase, a template-independent DNA polymerase isolated from calf thymus, is not inhibited by phenylglyoxal. A detailed analysis of the inhibitory process carried out using avian myeloblastosis virus (AMV) DNA polymerase as a test enzyme revealed that inclusion of template-primer during the preincubation with phenylglyoxal, but not substrate triphosphates or primer alone, protects the enzyme against phenylglyoxal inactivation. Furthermore, phenylglyoxal does not appear to inhibit the elongation of initiated DNA strands, but blocks the reinitiation of DNA synthesis.
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PMID:Phenylglyoxal as a template site-specific reagent for DNA and RNA polymerases. Selective inhibition of initiation. 698 8

Macronuclei of Paramecium aurelia, isolated in 4% gum arabic, contain nearly exclusively heterochromatin which is unaccessible to DNA-dependent, bacterial RNA polymerase. Heterochromatin decondensation under tris-HCl treatment did not change its template accessibility, whereas selective removal of the basic proteins induced profound changes in ultrastructure of heterochromatin and increased its template activity. More intensive incorporation of H3-UMP was found after arginine rich histones removal. The relations between functional and morphological changes after various heterochromatin modification in macronuclei of Paramecium aurelia, a representative of lower eukariotes, are discussed and compared with those in higher eukariotes.
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PMID:Ultrastructure and template accessibility of modified chromatin in isolated macronuclei of Paramecium aurelia. 699 78

When HeLa cells are lysed in solutions containing a non-ionic detergent and 0.75 M-NaCl, structures are released that retain many of the morphological features of nuclei. These nucleoids contain all the nuclear DNA, RNA and the 'core' histones, but few other proteins characteristic of chromatin. Their DNA is intact. The core histones dissociate on raising the salt concentration. We have probed the structure of nucleoid-histone complexes using the intercalating dye, ethidium, or the RNA polymerase of Escherichia coli. Both have a higher affinity for superhelical DNA than they do for relaxed DNA. The binding of ethidium is measured fluorometrically, and using this probe we find that the DNA of nucleoids containing all the core histones behaves as if it were supercoiled slightly positively. As the salt concentration is increased, free energy characteristic of negative supercoiling appears between 0.92 M and 0.95 M-NaCl. This transition, which is reversible in the presence of the arginine-rich histones, occurs without dissociation of these histones from the DNA and so must reflect a conformational change in the complex. In contrast to the results with ethidium, we find that RNA polymerase can detect the presence of some negative free energy of supercoiling in nucleoids containing the core histones. The transformations of the free energy that can assist the binding of ethidium and RNA polymerase are discussed.
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PMID:Conformational changes induced by salt in complexes of histones and superhelical nuclear DNA. 732 66

The alpha subunit of Escherichia coli RNA polymerase plays a key role in assembly of the core enzyme. In previous studies the amino-terminal domain consisting of 215 amino acid residues between positions 21 and 235 was identified to be involved in this assembly, and the sites for beta and beta' association were suggested to be located within or near the two conserved regions in this amino-terminal assembly domain of alpha. For detailed functional mapping, Ala was substituted for 26 highly conserved amino acids around residues 40, 80 and 170 to 210. The alpha-point mutants were analyzed in vitro for their abilities to form dimers and to assemble beta beta' subunits. New types of assembly-deficient mutants were identified: alpha-R45A (having substituted Ala for Arg at residue 45) dimerized but did not assemble beta (and beta') subunits; and alpha-L48A showed a decreased level of alpha 2 beta subassembly formation, indicating that this region (residues 45 to 48) is responsible for beta-binding. Isolation of two mutants, alpha-K86A and alpha-V173A, both forming alpha 2 beta but not alpha 2 beta beta' complex, confirmed our previous conclusion that two separated regions participate in beta'-binding.
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PMID:Functional map of the alpha subunit of Escherichia coli RNA polymerase: amino acid substitution within the amino-terminal assembly domain. 749 Jul 53

To begin to map functional domains of the Sendai P-L RNA polymerase complex we wanted to characterize the P binding site on the Sendai L protein. Analysis of in vitro and in vivo P-L polymerase complex formation with carboxyl-truncations of the L protein showed that the N-terminal half of the protein was required. Site-directed mutagenesis of the Sendai virus L gene was employed to change amino acids within a highly conserved region of the N-terminal domain I from amino acids (aa) 348-379 singly or in pairs from the Sendai to the corresponding measles L sequence or to alanine. The mutant L proteins coexpressed with the viral P and NP proteins in mammalian cells were assayed for their ability to form the P-L complex and to synthesize RNA in vitro and showed a variety of defective phenotypes. While most of the mutant L proteins still formed the P-L polymerase complex, a change from serine to arginine at aa 368 and a three-amino-acid insertion at aa 379 virtually abolished both complex formation and RNA synthesis. Changes of aas 370 and 376-377 in the L protein gave only small decreases in viral RNA synthesis. Substitutions at either aas 349-350 or aas 354-355 and a three-amino-acid insertion at aa 348 in the L protein yielded enzymes that catalyzed significant transcription, but were defective in DI RNA replication, thus differentially affecting the two processes. Since DI leader RNA, but not genome RNA, was still synthesized by this class of mutants, the defect in replication appears to be in the ability of the mutant enzyme to package newly synthesized nascent RNA. Single changes at aas 362, 363, and 366 in the L protein gave enzymes with severely decreased overall RNA synthesis, although some leader RNA was synthesized, suggesting that they cannot transcribe or replicate past the leader gene. These studies have identified a region in conserved domain I critical for multiple functions of the Sendai virus L protein.
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PMID:Mutations in conserved domain I of the Sendai virus L polymerase protein uncouple transcription and replication. 749 60

The outer surface lipoproteins of Borrelia burgdorferi, OspA and OspB, stimulate the production of nitric oxide (NO) by murine bone marrow-derived macrophages from BALB/c, C3H/HeN, and C3H/HeJ mice. Gamma interferon (IFN-gamma) caused a three- to fivefold enhancement of this production of NO, and the L-arginine analog N-guanidino-monomethyl L-arginine inhibited it. Activation of transcription of the inducible NO synthase gene in stimulated macrophages was demonstrated by reverse transcriptase rapid PCR. Although IFN-gamma increased the amount of NO produced in macrophage cultures, it did not cause transcription of the inducible NO synthase gene greater than that seen with the Borrelia proteins. OspA and OspB also induced the production of high levels (40 to 150 ng/ml) of IFN-gamma in cultures of macrophages incubated with interleukin-2 (IL-2)-elicited cells from normal (T and NK cells) and scid (NK cells) mice but not in macrophages or IL-2-elicited cells cultured individually. This suggests that OspA stimulated macrophage production of cytokines, which, in turn, stimulated the production of IFN-gamma by NK and T cells. Reverse transcriptase rapid PCR demonstrated that OspA and sonicated B. burgdorferi stimulated production of several inflammatory cytokines in macrophage cultures, including IL-1, IL-6, IL-12, IFN-beta, and tumor necrosis factor alpha. As tumor necrosis factor alpha, IFN-beta, and IL-12 are potent activators of IFN-gamma production by T and NK cells, their presence in these cocultures could be responsible for the IFN-gamma production. Lymphocytes from infected C3H mice also produced IFN-gamma when stimulated with B. burgdorferi; thus, immune cells may also modulate NO responses. The generation of NO during infection with B. burgdorferi may be important, as NO has potent antimicrobial properties. NO can also be involved in pathological inflammatory processes in which its generation is detrimental to the host. Thus, the colocalization of B. burgdorferi lipoproteins, NO-producing cells, and regulatory cytokines may determine the outcome of infection.
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PMID:Outer surface lipoproteins of Borrelia burgdorferi stimulate nitric oxide production by the cytokine-inducible pathway. 752 Apr 17

Although the third component of complement, C3, has been isolated and its primary structure determined from most living classes of vertebrate, limited information is available on its structure and function for aves, which represent a significant stage in complement evolution. In this study, we present the complete cDNA sequence of chicken C3, the cDNA sequences of the thioester region for two chicken alpha 2-macroglobulin (alpha 2M)-related proteins, a simplified method for purifying chicken C3, and an analysis of the C3 convertase and factor I-mediated cleavages in chicken C3. Using the reverse-transcriptase PCR, with degenerate oligonucleotide primers derived from two conserved C3 sequences (GCGEQN/TM, TWLTAY/FV) and liver mRNA as template, we isolated three distinct 220-bp PCR products, one with a high degree of sequence similarity to C3 and two to alpha 2M and pregnancy zone protein from other species. The complete cDNA sequence of chicken C3 was obtained by screening a chicken liver lambda gt10 library with the C3 PCR product and probes from the 5' end of the partial-length C3 clones. The obtained sequence is in complete agreement with the protein sequence of several tryptic peptides of purified chicken C3. Chicken pro-C3 consists of an 18-residue putative signal peptide, a 640-residue beta-chain (70 kDa), a 989-residue alpha-chain (111 kDa), and an RKRR linker region. It contains an internal thioester and three potential N-glycosylation sites, all in the alpha-chain. The convertase cleavage site, predicted to be Arg-Ser, was confirmed by sequencing the zymosan-bound C3 fragments generated upon complement activation. NH2-terminal sequencing of the purified C3 chains showed that 1) pro-C3 is indeed cleaved at the RKRR linker sequence to generate the mature two-chain molecule, and 2) the beta-chain of chicken C3 is blocked. The deduced amino acid sequence shows 54, 54, 54, 53, 52, 57, and 55% amino acid identities to human, mouse, rat, guinea pig, rabbit, cobra, and Xenopus C3, respectively, and an identity of 44, 31, and 33% to trout, hagfish, and lamprey C3, respectively. The identities to human C4, C5, and alpha 2M are 31, 29 and 23%, respectively. A phylogenetic tree for C3, C4, C5, and alpha 2M-related proteins was constructed based on the sequence data and is discussed.
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PMID:Isolation, primary structure, and evolution of the third component of chicken complement and evidence for a new member of the alpha 2-macroglobulin family. 753 62

Four individuals have been identified, within a single family, who lack phagocyte expression of the high affinity type I IgG receptor (CD64). As a result, their monocytes are unable to support mouse IgG2a anti-CD3-induced T cell mitogenesis (nonresponder individuals). Southern blotting proved all three human Fc gamma receptor I (hFc gamma RI) genes to be present in nonresponders without major structural changes. Nucleotide sequencing showed identical hFc gamma RIA promoter regions in all individuals. At the message level, a distinct difference was noted between monocytes from control (responder) donors and from nonresponders. Both a 1.7- and 1.6-kb message were found in responders, whereas in nonresponders only the 1.6-kb species was detectable. Reverse transcriptase-PCR analyses showed the hFc gamma RIa transcript (encoding a receptor with three extracellular Ig-like domains) to be present at a approximately 15- to 20-fold lower level in nonresponder monocytes. Importantly, we found a single nucleotide difference (C --> T) within the extracellular domain exon 1-encoding region of hFc gamma RIA in nonresponders, resulting in the change of codon 92 (encoding an arginine) into a termination codon. This change likely affects mRNA stability and, thereby, leads to undetectable expression of phagocyte-hFc gamma RIa. Despite this defect, these individuals are apparently healthy, suggesting that hFc gamma RIa is dispensable for phagocyte functioning.
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PMID:Molecular basis for a familial defect in phagocyte expression of IgG receptor I (CD64). 753 86


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