Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Recently, the genes of cytochrome ba3 from thermus thermophilus [Keightley, J.A., et al. (1995) J. Biol. Chem. 270, 20345-20358], a homolog of the heme-copper oxidase family, have been cloned. We report here expression of a truncated gene, encoding the copper A (CuA) domain of cytochrome ba3, that is regulated by a T7 RNA polymerase promoter in Escherichia coli. The CuA-containing domain is purified in high yields as a water-soluble, thermostable, purple-colored protein. Copper analysis by chemical assay, mass spectrometry, X-ray fluorescence, and EPR spin quantification show that this protein contains two copper ions bound in a mixed-valence state, indicating that the CuA site in cytochrome ba3, is a binuclear center. The absorption spectrum of the CuA site, free of the heme interference in cytochrome ba3, is similar to the spectra of other soluble fragments from the aa3-type oxidase of Parachccus denitrificans [Lappalainen, P., et al. (1993) J. Biol Chem. 268, 26416-26421] and the caa3-type oxidase of Bacillus subtilis [von Wachenfeldt, C. et al. (1994) FEBS Lett. 340, 109-113]. There are intense bands at 480 nm (3100 M(-1) cm(-1)) and 530 nm (3200 M(-1) cm(-1)), a band in the near -IR centered at 790 nm (1900 M(-1) cn(-1)), and a weaker band at 363 nm (1300M(-1) cm(-1)). The visible CD spectrum shows a positive-going band at 460 nm and a negative-going band at 527 nm, the opposite signs of which may result from the binuclear nature of the site. The secondary structure prediction from the far-UV CD spectrum indicates that this domain is predominantly beta-sheet, in agreement with the recent X-ray structure reported for the complete P. denitrificans cytochrome aa3 molecule [Iwata, S., et al. (1995) Nature 376, 660-669] and the engineered, purple CyoA protein [Wilmanns, M., et al. (1996) Proc. Natl Acad. Sci. U.S.A. 92, 11955-11959]. However, the thermostability of the fragment described here (Tm approximately 80 degrees C) and the stable binding of copper over a broad pH range (pH 3-9) suggest this protein may be uniquely suitable for detailed physical-chemical study.
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PMID:Water-soluble, recombinant CuA-domain of the cytochrome ba3 subunit II from Thermus thermophilus. 863 88

The marine Bacillus sp. strain SG-1 forms spores that oxidize manganese(II) as a result of the activities of uncharacterized components of its spore coat. Nucleotide sequence analysis of chromosomal loci previously identified through insertion mutagenesis as being involved in manganese oxidation identified seven possible genes (designated mnxA to mnxG) in what appears to be an operon. A potential recognition site for the sporulation, mother-cell-specific, RNA polymerase sigma factor, sigmaK, was located just upstream of the cluster, and correspondingly, measurement of beta-galactosidase activity from a Tn917-lacZ insertion in mnxD showed expression at mid-sporulation to late sporulation (approximately stage IV to V of sporulation). Spores of nonoxidizing mutants appeared unaffected with respect to their temperature and chemical resistance properties and germination characteristics. However, transmission electron microscopy revealed alterations in the outermost spore coat. This suggests that products of these genes may be involved in the deposition of the spore coat structure and/or are spore coat proteins themselves. Regions of the deduced protein product of mnxG showed amino acid sequence similarity to the family of multicopper oxidases, a diverse group of proteins that use multiple copper ions to oxidize a variety of substrates. Similar regions included those that are involved in binding of copper, and the addition of copper at a low concentration was found to enhance manganese oxidation by the spores. This suggests that the product of this gene may function like a copper oxidase and that it may be directly responsible for the oxidation of manganese by the spores.
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PMID:Identification and characterization of a gene cluster involved in manganese oxidation by spores of the marine Bacillus sp. strain SG-1. 865 49

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

BeWo cells, a human choriocarcinoma cell line, have a high-affinity system for transporting copper ions into the cell (Km = 0.21 microM) but are sluggish in releasing copper back into the medium from preloaded cells. The slow efflux rate has recently been shown to correlate with a failure of BeWo cells to express the Menkes transcript [Y. Qian, E. Tiffany-Castiglioni, and E. D. Harris. Am. J. Physiol. 271 (Cell Physiol. 40). In press]. We have now determined that only when BeWo cells were grown on plastic surfaces such as petri dishes or flasks did they display negligible release and enhanced retention of 67Cu. Reverse transcriptase-polymerase chain reaction with the use of primers selective for the Menkes gene failed to show any evidence of a Menkes transcript in cells cultured on plastic surfaces. In contrast, cells grown on porous filters previously shown to allow apical and basolateral surfaces to develop did display the transcript and showed significant copper release with normal retention. Release of copper from filter-grown cells was blocked with p-chloromercuribenzoate, thus confirming sulfhydryl group involvement. Absorption of the 67Cu, either as a free ion or bound to ceruloplasmin, was unaffected by the different culture conditions. The data link the Menkes gene product with the ability of cells to release copper ions. They also suggest that the expression of the Menkes gene may be regulated by the development of polarized cell membranes.
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PMID:Coincident expression of Menkes gene with copper efflux in human placental cells. 876 73

Transcriptional activation of the Pseudomonas aeruginosa algD gene results in high-level synthesis of the capsular polysaccharide alginate, an important P. aeruginosa virulence factor expressed in cystic fibrosis (CF) patients with chronic pulmonary disease. In this study, electrophoretic mobility-shift assays were used to identify a novel protein (AlgZ), which binds specifically to a sequence located 280 bp upstream of the algD promoter. While AlgZ-binding activity did not require the response regulators AlgB or AlgR, expression of AlgZ was found to be absolutely dependent on the alternative sigma factor AlgT. Electrophoretic mobility-shift assays and copper-phenanthroline footprinting localized AlgZ binding to a 36 bp algD region, which includes several helical repeats. A collection of alginate-producing (mucoid) and non-mucoid P. aeruginosa strains, derived from CF patients, was characterized for AlgZ-binding activity. In all cases, AlgZ binding to algD sequences was observed when extracts derived from mucoid P. aeruginosa CF isolates were examined. However, this binding activity was not present when extracts from non-mucoid P. aeruginosa CF isolates were tested. Oligonucleotide mutagenesis was employed to create an algD allele with a 4 bp mutation in the predicted AlgZ-binding site (algD38) and a heterologous substitution allele (algD40), in which the entire AlgZ-binding site was replaced with a non-specific DNA sequence of identical size. When the algD38 mutation was cloned into an algD-cat transcriptional fusion, this resulted in a 28-fold reduction in algD expression, whereas the algD40 mutation abolished algD transcription, indicating that AlgZ acts as an activator of algD transcription. These results support the hypothesis that activation of algD involves the formation of a high-order looped structure allowing for multivalent contacts between AlgZ, AlgR and RNA polymerase containing the alternative sigma factor AlgT. Characterization of the molecular details of algD activation will provide insights into the control of other prokaryotic and eukaryotic promoters that utilize multiple activators.
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PMID:Identification and characterization of AlgZ, an AlgT-dependent DNA-binding protein required for Pseudomonas aeruginosa algD transcription. 889 12

The pco determinant of Escherichia coli plasmid pRI1004 encodes inducible resistance to the trace element copper. The identification of two copper-dependent transcriptional initiation regions within pco that each contain a similar upstream hyphenated dyad motif is described. Deletion constructs showed that this 'copper box' motif was essential for copper-inducible activity at both pco promoters, PpcoA and PpcoE. The placement of the motif differs in the two promoters, and PpcoA contains an extended -10 nonamer typical of promoters for which RNA polymerase does not bind specifically to -35 sequences. PpcoE does not contain this motif and is the more strongly expressed promoter. The transcript from PpcoA contains the pcoABCDRS genes, while PpcoE expresses only pcoE. The induction profiles for PpcoA- and PpcoE-IacZ fusions were flattened sigmoidal curves with a gradual response to increasing copper concentration. On high-copy-number plasmids, zinc was found also to induce transcription from both promoters in vivo. Both promoters showed inducible activity in the absence of pcoRS, the plasmid-borne two-component regulatory system, indicating that a second trans-acting regulatory system is present on the chromosome. The pcoR product showed repressor action in the absence of pcoS, while still allowing induction, suggesting the chromosome encoded a similar two-component system to pco. TnphoA insertion mutagenesis identified chromosomal genes which affected promoter expression, including ptsH, ptsI (sugar phosphotransferase system) and cya (adenylate cyclase). The results support that idea that pco-encoded copper resistance is an auxiliary mechanism for handling copper, the regulation of which is integrated with the chromosomal regulation of cellular copper metabolism.
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PMID:Copper-inducible transcriptional regulation at two promoters in the Escherichia coli copper resistance determinant pco. 914 82

The copper complexes of furan oxime derivatives were found to be potent cytotoxic agents in both murine and human tissue cultured cell lines which were either suspended or solid tumors. The ED50 values were frequently improved over the clinically useful antineoplastic agents. These copper complexes of 2-furaldehyde oximes were effective inhibitors of L1210 lymphoid leukemia DNA synthesis followed by RNA synthesis. Purine synthesis regulatory enzyme activities were markedly reduced by the compounds with marginal inhibition of t-RNA polymerase, and nucleoside kinases activities. L1210 DNA topoisomerase II activity was markedly reduced with IC50 values better than the standard VP-16, etoposide. Yet, the copper complexes caused no further protein linked breaks than VP-16 did, but did block phosphorylation activation of the topoisomerase II enzyme.
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PMID:Cytotoxicity of copper complexes of 2-furaldehyde oxime derivatives in murine and human tissue cultured cell lines. 925 56

A procedure is described for rapid, high-confidence identification of proteins using matrix-assisted laser desorption/ionization tandem ion trap mass spectrometry in conjunction with a genome database searching strategy. The procedure involves excision of copper-stained bands or spots from electrophoretic gels, in-gel trypsin digestion of the proteins, single-stage mass spectrometric analysis of the resultant mixture of tryptic peptides, followed by tandem ion trap mass spectrometric analysis of selected individual peptides, and database searching of the relevant genomic database using the program PepFrag. The scheme provides sensitive, real-time protein identification as well as facile identification of modifications. A single operator can unambiguously identify 5-10 proteins/day from an organism whose genome is known at a level of > 0.5 pmol of protein loaded on a gel. The utility of the technique was demonstrated by the identification and characterization of a band from a human HTLV-I preparation and 11 different proteins from a yeast RNA polymerase II C-terminal repeat domain-affinity preparation. The technology has great potential for postgenome biological science, where it promises to facilitate the dissection and anatomy of macromolecular assemblages, the definition of disease state markers, and the investigation of protein targets in biological processes such as the cell cycle and signal transduction.
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PMID:A strategy for rapid, high-confidence protein identification. 932 36

Unmodified uridines have been randomly replaced by 4-thiouridines in transfer RNAPhe (tRNAPhe) transcribed in a T7 RNA polymerase system. These 4-thiouridines serve as conjugation sites for attachment of the cleavage reagent 5-iodoacetamido-1,10-o-phenanthroline (IoP). In a reducing environment, when complexed with Cu2+, 1,10-o-phenanthroline causes cleavage of nearby nucleic acids. We show here that tRNA-phenanthroline (tRNA-oP) conjugates, when bound at the P-site of 70S ribosomes and 30S ribosomal subunits, caused cleavage of ribosomal RNA (rRNA) mainly in domains I and II of 16S rRNA. Some positions were cleaved only when tRNA-oP was bound to 70S ribosomes or to 30S ribosomal subunits. In domain I, most cleavage sites occurred in or near the 530 pseudoknot region. In domain II, most nucleotides cleaved were near the 690 region and the 790 region. The only positions cleaved in domain III were near the 1050 region. There were no discernible nucleotides cleaved near the 1400 (decoding) region. Our results corroborated results of others, which have shown these sites to be protected from chemical modification by tRNA binding or to be cross-linked to P-site-bound tRNA. Use of cleavage reagents tethered to tRNA provides evidence for additional regions of rRNA that may be proximal to bound tRNA.
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PMID:Regions of 16S ribosomal RNA proximal to transfer RNA bound at the P-site of Escherichia coli ribosomes. 947 63

The carboxy-terminal domain (CTD) of the largest subunit of RNA polymerase II becomes multiply phosphorylated by protein kinases during early steps in the gene transcription cycle both in vivo and in vitro. In yeast, the major CTD kinase is a subunit of the general transcription factor TFIIH, and is encoded by an essential gene, KIN28. Although the CTD and its phosphorylation are important for transcription, in vitro studies have challenged whether CTD phosphorylation is an absolutely required step. The general importance of CTD phosphorylation by Kin28 for transcription in yeast has been suggested because, for all genes tested, transcription is inhibited at the non-permissive temperature in temperature-sensitive kin28 mutants. However, using such a mutant and a copper-inducible targeted destruction method, we show here that transcription of certain genes can be highly induced even when cells lack Kin28. We also show that transcription of these Kin28-independent genes is independent of Srb4 and Srb6, critical components of the CTD-associated transcriptional mediator complex. These results indicate that there are at least two distinct pathways for transcriptional activation: one is dependent on Kin28 and the mediator complex, and the other is not.
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PMID:Transcriptional activation independent of TFIIH kinase and the RNA polymerase II mediator in vivo. 962 Aug 5


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