EC:2.7.7.6 - FACTA Search

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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)

Termination of mouse ribosomal gene transcription by RNA polymerase I (Pol I) requires the specific interaction of a DNA binding protein, mTTF-I, with an 18 bp sequence element located downstream of the rRNA coding region. Here we describe the molecular cloning and functional characterization of the cDNA encoding this transcription termination factor. Recombinant mTTF-I binds specifically to the murine terminator elements and terminates Pol I transcription in a reconstituted in vitro system. Deletion analysis has defined a modular structure of mTTF-I comprising a dispensable N-terminal half, a large C-terminal DNA binding region and an internal domain which is required for transcription termination. Significantly, the C-terminal region of mTTF-I reveals striking homology to the DNA binding domains of the proto-oncogene c-Myb and the yeast transcription factor Reb1p. Site-directed mutagenesis of one of the tryptophan residues that is conserved in the homology region of c-Myb, Reb1p and mTTF-I abolishes specific DNA binding, a finding which underscores the functional relevance of these residues in DNA-protein interactions.
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PMID:Different domains of the murine RNA polymerase I-specific termination factor mTTF-I serve distinct functions in transcription termination. 772 Jul 15

On amino acid starvation, Escherichia coli cells exhibit an adaptive facility termed the stringent response. This is characterized by the production of high levels of a regulatory nucleotide, ppGpp, and concomitant curtailment in rRNA synthesis. Various studies reported earlier indicated that RNA polymerase is the site of action of ppGpp although a direct demonstration of the interaction of ppGpp with E. coli RNA polymerase is still lacking. Here we report the labelling of ppGpp with a fluorescent probe, 1-aminonapthalene-5-sulphonate (AmNS), at the terminal phosphates. AmNS-ppGpp responded much like a ppGpp molecule in an in vitro total transcription assay at selective promoters. Fluorescence titration of the tryptophan emission of RNA polymerase by AmNS-ppGpp indicated a unique binding site in the absence of template DNA. Competition experiments showed that unlabelled ppGpp binds to the enzyme at the same site. Sigma factor seems to have no effect on this binding. The titration profile is also characterized by a single slope in the Scatchard analysis. The presence of GTP or GDP does not influence the binding of AmNS-ppGpp with RNA polymerase. Forster's distance measurement was carried out which placed AmNS-ppGpp 27 A away from the rifampicin-binding domain of RNA polymerase.
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PMID:Evidence for a ppGpp-binding site on Escherichia coli RNA polymerase: proximity relationship with the rifampicin-binding domain. 774 47

To study the contributions of the hemagglutinin-neuraminidase (HN) and the fusion (F) glycoproteins in virus-induced membrane fusion, the HN and F proteins of human parainfluenza virus type-1 (hPIV-1) and Sendai virus (SV) were expressed in HeLa T4+ cells using the vaccinia virus-T7 RNA polymerase transient expression system. Expression of F protein alone did not induce cell fusion. However, coexpression of homologous F and HN proteins resulted in extensive syncytium formation by hPIV-1 or SV glycoproteins, which supports the proposal that both the F and HN glycoproteins are necessary for membrane fusion. To investigate the function of HN in membrane fusion, we coexpressed heterologous combinations of the HN and F proteins of hPIV-1 and SV. No fusion was observed when SV HN and hPIV-1 F proteins were coexpressed. In contrast, the coexpression of hPIV-1 HN and SV F induced extensive cell fusion. These results suggest that specific interaction between HN and F is required to induce membrane fusion. To locate regions that are essential to the fusion promoting activity, chimeric HN proteins of SV and hPIV-1 were constructed. The chimeric proteins coexpressed with the SV or hPIV-1 F proteins indicated that some regions in the middle 62% of HN contribute to the fusion-promoting activity. To determine the role of the transmembrane region of HN on fusion-promoting activity, mutant HN proteins were expressed and their biological activities examined. Mutation of hPIV-1 HN at residue 55 from cysteine to tryptophan did not affect cell binding, neuraminidase activities, or homooligomer formation, but did result in the loss of cell fusion activity. The mutation of the same cysteine residue to glycine retained the fusion-promoting activity, suggesting that a sulfhydryl moiety is not specifically required at position 55, but the structure of the residue that occupies the position is important in fusion-promoting activity.
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PMID:Regions on the hemagglutinin-neuraminidase proteins of human parainfluenza virus type-1 and Sendai virus important for membrane fusion. 794 17

A simple fluorimetric assay based on internal fluorescence of tryptophan residues of E. Coli RNA polymerase has been developed to ascertain the number of steps during conversion of closed complex of the polymerase-promoter (trp promoter cloned in plasmid pDR720) to open complex. Our results from measurement on relative ratio of fluorescence at 340 nm (lambda ex = 295 nm) for free and promoter-bound RNA polymerase as a function of temperature, within the range 4 degrees C to 37 degrees C, indicate following equilibria for the above conversion: R+P<-->RPc<-->RPi1<-->RPi2<-->RPo. Apart from detection of one more intermediate in terms of conformational states of the bound RNA polymerase, second feature of our studies is the examination of conformational state of the polymerase using accessibility of fluorophor, tryptophan residues, to a neutral quencher, acrylamide, as the probe. We observe that in terms of accessibility of tryptophan residues in protein, intermediate complex, RPi2, is conformationally most perturbed in comparison to free polymerase. Implications of these results are discussed and compared with the available reports from footprinting and gel retardation assays of RNA polymerase-promoter interactions.
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PMID:Intrinsic fluorescence of E. coli RNA polymerase as a probe for its conformational changes during transcription initiation. 800 19

Region 2 of eubacterial sigma factors is highly conserved and the subdomain 2.4 is involved in -10 promoter recognition. An evolutionary conserved "RpoD box" has been identified at the junction of subdomain 2.3/2.4 in class I and class II sigma factors and there are two tryptophan residues at position 433 and 434 which can be used as intrinsic fluorescent markers to study their structure-function relationship. Site-directed mutagenesis of these two tryptophan residues has been carried out to generate three variants of sigma 70 of Escherichia coli RNA polymerase. These are W433F, W433G and W434G. sigma 70-W433F is found to be indistinguishable from the native sigma factor by both structural and functional analysis. sigma 70-W433G shows anomalous mobility on SDS-PAGE like the native sigma factor, is alpha-helical in conformation (50% helicity) although found to be less active in total transcription when reconstituted with core RNA polymerase. Free sigma 70-W434G, unlike the native sigma factor, shows the expected mobility of a 70 kDa protein on SDS-PAGE and has 20% helicity. Time-resolved fluorescence analysis indicates that free sigma 70-W434G has DNA binding ability, and displays a normal abortive initiation reaction but a decreased level of productive transcription after reconstitution with core RNA polymerase. A model is proposed in which tryptophan at position 434 interacts with the hydrophobic 1.1 domain of sigma 70 giving rise to the stability of the protein under denaturing conditions.
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PMID:A point mutation at the junction of domain 2.3/2.4 of transcription factor sigma 70 abrogates productive transcription and restores its expected mobility on a denaturing gel. 807 73

This study was designed to clarify the important association between eosinophilia-myalgia syndrome (EMS) and the L-tryptophan contaminant, "Peak E." To determine the functional activation of eosinophils induced by Peak E, eosinophil cationic protein (ECP) release was examined. Peak E augumented the release of ECP from peripheral blood normodense eosinophils by degranulation. Proliferative analysis using the human eosinophilic leukemia cell line EoL-3 showed prominent cellular replication in the presence of Peak E. Moreover, Peak E upregulated interleukin 5 (IL-5) receptor levels on normodense eosinophils. Of particular interest, Peak E-stimulated human splenic T cells produced bioactive and immunoreactive IL-5. Marked induction of IL-5 mRNA in Peak E-stimulated T cells was also shown by reverse-transcriptase polymerase chain reaction (RT-PCR). In contrast, L-tryptophan without the contaminant showed none of these effects. Thus, these data suggest that Peak E might be involved in the pathogenesis of EMS through bimodal mechanism including IL-5 generation by T cells and potentiation of eosinophil functional activation.
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PMID:1,1'-Ethylidenebis(tryptophan) (Peak E) induces functional activation of human eosinophils and interleukin 5 production from T lymphocytes: association of eosinophilia-myalgia syndrome with a L-tryptophan contaminant. 813 37

Protein-protein interactions between cAMP receptor protein (CRP) and RNA polymerase (RNAP) have been proposed to be essential in RNAP activation by CRP in type I promoters. These two proteins were shown to interact in solution in the absence of promoter DNA (Heyduk et al., 1993). In this report we describe the preparation of fluorescent derivatives of CRP (fluorescent probes at position 13 and 85); and of the alpha-subunit of RNAP (at position 321). The specific incorporation of fluorescence probes was achieved by expressing protein in a bacteria strain, auxotrophic for tryptophan, in media containing 5-hydroxytryptophan (5-OH-Trp). The absorbance spectrum of a protein containing 5-OH-Trp is shifted towards longer wavelengths as compared to the native protein. This allows selective monitoring of the fluorescence signal of 5-OH-Trp derivative of a protein even in the presence of high concentration of tryptophan containing protein(s). The CRP derivative is shown to retain 100% of the native protein cAMP binding and specific DNA binding activity. Using a fluorescence polarization assay, it is also shown that 5-OH-Trp derivative of CRP interacts with RNAP as well as the native protein. The RNAP reconstituted with 5-OH-Trp derivative of the alpha-subunit retained the enzymatic activity. Fluorescence quenching studies show that Trp 321 of alpha-subunit is located in the region of the protein which is exposed to a solvent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Physical studies on interaction of transcription activator and RNA-polymerase: fluorescent derivatives of CRP and RNA polymerase. 831 76

Interaction of ribonucleotides (NTP where N = G, A, C or U) with bacteriophage T7 RNA polymerase (T7 RNAP) was studied by fluorescence emission spectroscopy of the enzyme. From the NTP-concentration-dependent quenching of fluorescence of the enzyme, apparent dissociation constants for NTP-T7 RNAP was found to be in following order: UTP>CTP>>ATP>GTP. Acrylamide quenching of tryptophan fluorescence of free and bound enzyme suggests a conformational change, particularly in the case of GTP (and ATP). This is the first report of high affinity binding of the enzyme with purine ribonucleotides in the absence of promoter. These results also suggest that GTP may induce a promoter-specific conformation of the enzyme. The observation could account for specific requirement of GTP in transcription initiation reported earlier (1-4).
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PMID:Interaction of ribonucleotides with T7 RNA polymerase: probable role of GTP in transcription initiation. 837 1

A human thioredoxin cDNA was modified to optimize Escherichia coli expression and subcloned into the plasmid pACA, a vector for T7 RNA polymerase-directed expression. The substitution of structural (noncatalytic) half-cystines in human thioredoxin (hTrx) was made by site-directed mutagenesis. The recombinant wild-type (wt) hTrx and its mutant C61S, C72S, and C61S/C72S were expressed and purified to homogeneity. Characterization of the wt and mutant hTrx was done with respect to redox activity with thioredoxin reductase (TR), tryptophan fluorescence, and effects of incubation with GS-Se-SG, which is believed to be the major metabolite of inorganic selenium compounds in mammalian tissues. The Km and kcat of wild-type hTrx for human placenta thioredoxin reductase (HP-TR) at pH 7.0 were 2.0 microM and 2800 min-1, respectively. The mutant proteins C61S, C72S, and C61S/C72S had Km and kcat values similar to those of the wt thioredoxin. Tryptophan fluorescence measurements showed that the wt and mutant proteins had similar stability to a denaturing agent. Incubation of fully reduced thioredoxin with 0.1 molar equivalent of GS-Se-SG resulted in continued oxidation of SH groups. After 3.5 h only 0.5 of initially 4.6 SH groups/thioredoxin remained. With the oxidized protein, a pronounced lag phase in thioredoxin reductase-dependent insulin disulfide reduction was present. Disulfide-linked dimers of the protein were present. The results clearly showed that noncatalytic cysteine residues in hTrx were oxidized accompanied by dimerization and inactivation. The activities of the mutant proteins C72S and C61S/C72S were unchanged after 3 h of incubation with GS-Se-SG. No dimer appeared of the C72S thioredoxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mutagenesis of structural half-cystine residues in human thioredoxin and effects on the regulation of activity by selenodiglutathione. 837 74

The DNA binding affinities of several gene-regulatory proteins, restriction endonucleases and the Escherichia coli RNA polymerase have previously been found to be dependent on the nature of the dominant buffer anion. To discover whether the E. coli cAMP receptor protein (CAP) exhibits a similar dependency, we measured its affinity for its primary lactose promoter binding site (lac site 1) in buffers in which the principal anion was chloride, phosphate, sulfate, acetate, or glutamate. We found that the affinity of CAP for lac site 1 is affected only slightly by changes in the dominant buffer anion. The binding of cAMP is similarly insensitive to buffer anion type, indicating that specific protein-anion interactions, if they occur, must be similar for the free and cAMP-bound forms of the protein. The effect of anion substitution on the ability of acrylamide to quench the intrinsic fluorescence of tryptophanyl residues of CAP is also small, suggesting that changes in buffer anion composition have minimal effect on the conformation of tryptophan-proximal regions of CAP. This conclusion is extended by the finding that anion substitution has a relatively small effect on the urea-concentration dependence of CAP denaturation. Taken together, these results support the notion that neither CAP nor CAP.cAMP nor the CAP.cAMP complex with lac promoter DNA interact selectively with anions present in the surrounding buffer. A possible role for this anion-insensitivity in the in vivo function of CAP is suggested.
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PMID:Effects of anions on the binding of the cAMP receptor protein to the lactose promoter. 838 49

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