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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)

The RNA polymerase from bacteriophage T4-infected Escherichia coli, which specifically initiates transcription at phage T4 late promoters, is extensively modified by ADP-ribosylation of core subunits and by binding several virus-encoded subunits. We show here that one of these subunits, the phage T4 gene 55 protein, designated gp55, alone endows unmodified RNA polymerase core enzyme from uninfected E. coli with the ability to selectively initiate transcription at the phage T4 late promoters, without participation by E. coli RNA polymerase o- subunit.
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PMID:Defining a bacteriophage T4 late promoter: bacteriophage T4 gene 55 protein suffices for directing late promoter recognition. 638 59

After infection of Escherichia coli with bacteriophage T4, the host RNA polymerase acquires several small phage-induced polypeptides (Stevens, A. (1974) Biochemistry 13, 493-503) and its alpha subunits get ADP-ribosylated by a virus-specific enzyme (Zillig, W., Mailhammer, R., Skorko, R., and Rohrer, H. (1977) Curr. Top. Cell. Regul. 12, 263-271). The modified polymerase displays changed enzymatic properties including sensitivity to increased salt concentration and a higher transition temperature of open promoter complex formation (promoter melting temperature). In order to assess the role of individual modifications in the changed enzyme properties, we isolated RNA polymerase from cells infected with T4 mutant defective in the ADP-ribosylating enzyme. We also purified one of the associated polypeptides, the 15,000-dalton protein which is invariably present in stoichiometric amounts in different RNA polymerase preparations. In an in vitro transcription system using T4 DNA as template, we demonstrate that the 15-kDa protein is the cause of the elevated promoter melting temperature and can induce this property when added to host RNA polymerase. We also show that the increased salt sensitivity of T4-modified polymerase is primarily the result of ADP-ribosylation of its alpha subunits.
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PMID:The effect of a bacteriophage T4-induced polypeptide on host RNA polymerase interaction with promoters. 638 13

Bacteriophage T4 infection rapidly and almost completely inhibits transcription of host and other phage DNAs. Two processes have been implicated to date in this inhibition: (1) ADP ribosylation of the alpha subunits of the RNA polymerase, involving gpalt (which is injected with the phage DNA) and, later, gpmod; and (2) the action of the T4 alc/unf gene product, synthesized immediately after infection. The latter unfolds the host genome and also blocks transcription of cytosine-containing DNA. Here, we describe the identification on two-dimensional polyacrylamide gels of gpalc/unf, the more precise mapping of the gene and the identification and analysis of the appropriate DNA sequence from an Unf+ alc mutant.
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PMID:Identification and characterization of the alc gene product of bacteriophage T4. 638 56

P3-[(2,4-Dinitrophenyl)amino]ethyl (DNPNHEt) and P3-methyl phosphate esters of nucleoside 5'-triphosphates have been synthesized. Their properties as substrates in the initiation and elongation steps of transcription have been examined by using RNA polymerase from Escherichia coli and poly[d(A-T)] or T7 DNA as templates. It is shown that transcription can be initiated by ATP-EtNHDNP and that 2,4-dinitrophenyl residues are incorporated at the 5' end of the RNA molecules. Steady-state kinetic experiments of abortive initation on promoters A1 and A3 of T7 DNA revealed that ATP-EtNHDNP, ADP-EtNHDNP, and ATP-OCH3 have lower Km values and markedly reduced Vmax values compared to those of ATP. The two classes of esters, NTR-EtNHDNP and NTP-OCH3, were found to differ regarding their utilization as substrates for elongation. Both ATP-OCH3 and UTP-OCH3 are substrates for transcription. However, only the pyrimidine derivatives of NTP-EtNHDNP are elongation substrates which release DNPNHEt-PP upon utilization. This dramatic difference between the purine and pyrimidine derivatives of NTP-EtNHDNP reflects a selective process in the transcriptional complex for purines and pyrimidines.
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PMID:Properties of P3 esters of nucleoside triphosphates as substrates for RNA polymerase from Escherichia coli. 702 6

After infection of Escherichia coli cells, bacteriophage T4 induces several changes in the host DNA-dependent RNA polymerase. A well-characterized chemical change is a two-step ADP-ribosylation of the enzyme's alpha subunit (1). In order to investigate the effect of this change on RNA polymerase transcriptional properties in an in vitro system, we have reconstituted the enzyme from separated individual subunits which were obtained from normal or T4-modified RNA polymerases. It is demonstrated that the enzymes containing T4-modified alpha differ from the enzymes with normal alpha in two respects: (i) their overall activity on T4 DNA is reduced and (ii) they fail to utilize certain T4 promotors while efficiently utilizing other promoters. Among the promoters which are switched off by alpha modification are the two promoters of the D region and one of the two promoters of the T4 tRNA gene cluster. The differential effect of alpha modification on the expression of the tRNA and the D regions in vitro correlates with the previously established pattern of their transcription in vivo. It is suggested that the T4-induced ADP-ribosylation of RNA polymerase alpha subunit is involved in the shutoff of the early bacteriophage genes at the late stage of phage development.
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PMID:Control of promoter utilization by bacteriophage T4-induced modification of RNA polymerase alpha subunit. 703 2

The isolation and purification of DNA-dependent RNA polymerase I (EC 2.7.7.6) from parsley (Petroselinum crispum) callus cells grown in suspension culture is described. The enzyme was solubilized from isolated chromatin. Purification was achieved by using DEAE- and phospho-cellulose in batches, followed by column chromatography on DEAE- and phospho-cellulose (two columns) and density-gradient centrifugation. The highly purified enzyme was stable over several months. The properties of purified parsley RNA polymerase I were investigated. Optimum concentration for Mn2+ was 1 mM, and for Mg2+ 4-6 mM, Mn2+ was slightly more stimulatory than Mg2+. The enzyme was most active at low ionic strengths [10-20 mM-(NH4)SO4]. The influence of various phosphates was tested: pyrophosphate inhibited RNA polymerase at low concentrations, whereas orthophosphate had no effect on the enzyme activity. ADP was slightly inhibitory, and AMP had no effect on the enzyme reaction. Nucleoside triphosphates and bivalent cations in equimolar concentrations in the range 4-11 mM did not influence the RNA synthesis in vitro. Free nucleoside triphosphates in excess of this 1:1 ratio inhibited the enzyme activity, unlike free bivalent cations, which stimulated RNA polymerase I.
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PMID:Purification and characterization of chromatin-bound DNA-dependent RNA polymerase I from parsley (Petroselinum crispum). Influence of nucleoside triphosphates. 747 92

Initiation of in vitro ColE2 DNA replication requires the plasmid-specified Rep protein and DNA polymerase I but not RNA polymerase and DnaG primase. The ColE2 Rep protein binds specifically to the origin where replication initiates. Leading-strand synthesis initiates at a unique site in the origin and lagging-strand DNA synthesis terminates at another unique site in the origin. Here we show that the primer RNA for leading-strand synthesis at the origin has a unique structure of 5'-ppApGpA. We reconstituted the initiation reaction of leading-strand DNA synthesis by using purified proteins, the ColE2 Rep protein, Escherichia coli DNA polymerase I and SSB, and we showed that the ColE2 Rep protein is a priming enzyme, primase, which is specific for the ColE2 origin. The ColE2 Rep protein is unique among other primases in that it recognizes the origin region and synthesizes the primer RNA at a fixed site in the origin region. Specific requirement for ADP as a substrate and its direct incorporation into the 5' end of the primer RNA are also unique properties of the ColE2 Rep protein.
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PMID:Primer RNA synthesis by plasmid-specified Rep protein for initiation of ColE2 DNA replication. 758 42

The bacteriophage T4 Alt gene product is a component of the phage head and enters the host cell in the process of infection together with the phage DNA. It immediately ADP-ribosylates host RNA polymerase, presumably at only one of the two alpha-subunits. Transcription from T4 "early" promoters, therefore, might be catalyzed, at least in part, by an altered RNA polymerase. The T4 alt gene was cloned into the expression vector pBluescript. E. coli cells, transformed with this recombinant vector, overexpressed the 76 kDa Alt gene product, which was purified to homogeneity. The purified enzyme not only ADP-ribosylates the alpha-subunit of RNA polymerase, but also subunits beta and beta', as well as the sigma 70-factor. The recombinant enzyme behaved like the native enzyme isolated from mature phage particles. The effect of the ribosylation reaction on the transcription activity of host RNA polymerase was investigated in vivo. It results in a modulation of T4 "early" promoter strengths, presumably, in a number of cases, leading to an overexpression of T4 "early" genes. The degree of overexpression, in some cases, should reach 50%, and seems to be well dosed for each promoter, controlling an individual transcription unit.
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PMID:Overexpression, purification, and characterization of the ADP-ribosyltransferase (gpAlt) of bacteriophage T4: ADP-ribosylation of E. coli RNA polymerase modulates T4 "early" transcription. 778 17

Many activator proteins generate their positive control of transcription through interactions with the COOH-terminal domain of the Escherichia coli RNA polymerase alpha subunit. We have examined the participation of this alpha-domain in transcriptional enhancement and suppression at bacteriophage T4 late promoters. Enhancement is generated by the T4 gene 45 protein, which is the DNA-tracking processivity factor of viral DNA replication; suppression of unenhanced transcription is generated by the RNA polymerase-binding co-activator T4 gene 33 protein. Enhanced and unenhanced transcription by RNA polymerase reconstituted with intact and truncated alpha subunits and by RNA polymerase containing ADP-ribosylated alpha has been compared; the internal structures of transcription complexes formed with these RNA polymerases have also been analyzed by footprinting and photocross-linking. Comparison of these structural and functional analyses suggests that enhancement of T4 late transcription by gp45 is not compatible with any significant role of the COOH-terminal domain of the RNA polymerase core alpha subunit in transcriptional initiation. Suppression of unenhanced T4 late transcription by the gene 33 protein also does not require the COOH-terminal domain of alpha.
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PMID:The COOH-terminal domain of the RNA polymerase alpha subunit in transcriptional enhancement and deactivation at the bacteriophage T4 late promoter. 779 94

In this study, we describe the molecular and antigenic characteristics of a cloned enterotoxin from Salmonella typhimurium strain Q1. The full length Salmonella enterotoxin gene (stn), localized on a 2.8 kb ClaI/PstI DNA fragment, was cloned from a genomic library of Salmonella. Based on nucleotide sequence analysis, the stn gene contained 749 bp that would encode a protein having a molecular size of 29,073. The most unusual feature of the stn gene was the presence of a rare initiation codon (TTG) in lieu of the typical ATG codon, which required site-directed mutagenesis to confirm the precise initiation site. The expression of the stn gene in a bacteriophage T7 RNA polymerase/promoter system was enhanced by introducing a typical ATG start codon and an optimal Shine-Dalgarno sequence upstream of the stn gene by site-directed mutagenesis. The stn gene was located opposite the hydHG operon that regulates labile hydrogenase activity in Salmonella species and Escherichia coli. The overall amino acid sequence of the enterotoxin was quite dissimilar to any other published sequence, including cholera toxin or other adenylate cyclase-activating proteins. However, an intriguing similarity in a small region of the amino acid sequence of Stn was observed with portions of the amino acid sequences from several other protein toxins known to ADP-ribosylate host cell proteins. This region of homology may indicate a conserved motif, within the active site, that is involved in the stimulation of adenylate cyclase activity.
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PMID:Molecular characterization of an enterotoxin from Salmonella typhimurium. 804 4

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