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)

T3 and T7 phages package homologous DNA more efficiently than heterologous DNA and recombinant plasmids carrying DNA sequences necessary for DNA packaging (pac sequence). The pac sequence contains a promoter for phage RNA polymerase and transcription from the promoter is necessary for DNA packaging. T3 and T7 RNA polymerases are stringently specific for their own promoters. To examine the relationship between DNA packaging and transcription, we constructed a cleared in vitro system for packaging T3 or T7 DNA containing an ammonium sulfate fractionate of a high-speed supernatant of phage-infected cells. In the system, DNA packaging required GTP and was inhibited by the 3'-deoxy analog of GTP, ATP, or CTP. The DNA packaging activity paralleled the transcriptional activity, assayed by incorporation of [32P]UTP into acid-insoluble material. In the system, homologous DNA was packaged more efficiently than heterologous DNA, but heterologous DNA was packaged as efficiently as homologous DNA by the addition of heterologous phage RNA polymerase, demonstrating that the transcriptional specificity determines the DNA packaging specificity of T3 and T7.
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PMID:Transcription dependence of DNA packaging of bacteriophages T3 and T7. 141 5

We have examined the role of ras-related rab proteins in transport from the ER to the Golgi complex in vivo using a vaccinia recombinant T7 RNA polymerase virus to express site-directed rab mutants. These mutations are within highly conserved domains involved in guanine nucleotide binding and hydrolysis found in ras and all members of the ras superfamily. Substitutions in the GTP-binding domains of rab1a and rab1b (equivalent to the ras 17N and 116I mutants) resulted in proteins which were potent trans dominant inhibitors of vesicular stomatitis virus glycoprotein (VSV-G protein) transport between the ER and cis Golgi complex. Immunofluorescence analysis indicated that expression of rab1b121I prevented delivery of VSV-G protein to the Golgi stack, which resulted in VSV-G protein accumulation in pre-Golgi punctate structures. Mutants in guanine nucleotide exchange or hydrolysis of the rab2 protein were also strong trans dominant transport inhibitors. Analogous mutations in rab3a, rab5, rab6, and H-ras did not inhibit processing of VSV-G to the complex, sialic acid containing form diagnostic of transport to the trans Golgi compartment. We suggest that at least three members of the rab family (rab1a, rab1b, and rab2) use GTP hydrolysis to regulate components of the transport machinery involved in vesicle traffic between early compartments of the secretory pathway.
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PMID:GTP-binding mutants of rab1 and rab2 are potent inhibitors of vesicular transport from the endoplasmic reticulum to the Golgi complex. 142 35

We have developed two methods for selective 5' modification of RNAs generated by enzymatic synthesis using T7 RNA polymerase. The first method involves a two-step procedure. Transcription reactions are performed under standard conditions except that GTP is replaced by GTP gamma S. Since the polymerase initiates transcription with GTP, every transcript contains a 5' gamma-thiophosphate group which is modified with the thiol-specific reagent of choice (e.g., iodoacetyl dansyl derivative) in the second step. In an alternative method, transcription and modification reactions are carried out in a single step, using a mixture of dansylated GTP and GTP. Under the appropriate conditions, dansylated GTP effectively competes with GTP in the initiation reaction but does not substantially inhibit the elongation reaction. Yields of fluorescent 64-mer RNA ranging from 30 to 70% of the total transcription product have been obtained using these methods in combination with HPLC purification. This approach is amenable to large scale synthesis reactions and can be used to produce a wide variety of 5'-modified RNAs of virtually any size for structural or functional studies.
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PMID:Selective 5' modification of T7 RNA polymerase transcripts. 144 58

1. A protein kinase type II was purified from calf thymus chromatin using ammonium sulphate fractionation, ion exchange chromatography on DEAE and phosphocellulose and affinity chromatography on phosvitin- and casein-sepharose columns. 2. The enzyme moves as a single band in non-denaturing gel electrophoresis at pH 8.3, which coincides with the enzyme activity assayed on gel slices. 3. Sodium dodecyl sulphate gel electrophoresis shows three separate polypeptide chains having M(r) of 40,000, 38,000 and 25,000, respectively. The native M(r) was about 130,000, as measured by HPLC on Superose 12 column, suggesting a subunit structure of alpha, alpha', beta 2 type. The enzyme incubated with [gamma 32P]ATP or [gamma 32P]GTP as phosphoryl donors undergoes autophosphorylation in the M(r) = 25,000 subunit. 4. The enzyme phosphorylates casein (Km = 7 microM) and phosvitin (Km = 5 microM) but not histones and was strongly deactivated by Zn2+ ions (I50 = 0.05 mM) and heparin (I50 = 0.1 micrograms/ml). 5. The enzyme seems to be the major phosphorylating system present in the 0.35 M NaCl chromatin extract of calf thymus. The RNA polymerase II from calf thymus and RNA polymerase from E. coli are both phosphorylated by protein kinase NII. The effect of phosphorylation, which causes a remarkable increase of DNA transcription rate, was studied in vitro and extensively discussed.
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PMID:Protein kinase NII from calf thymus chromatin. Isolation, characterization and some functional properties. 145 14

We have used DNA templates containing a vaccinia early promoter fused to G-less cassettes of varying length to study the formation of ternary transcription complexes by vaccinia virus RNA polymerase. Elongating polymerases were induced to pause at discrete sites on the DNA template by omission of GTP from transcription reactions. For most of the templates examined, the predominant sites of pausing were at or near the downstream border of the G-less transcription unit, as revealed by the size distribution of labeled RNAs synthesized in pulse-labeling reactions. Stability of ternary complexes containing nascent RNAs of any given length was assessed by the ability of these RNAs to be elongated upon provision of GTP. This criterion of stability could be met by complexes containing nascent RNAs as short as seven, eight, or nine nucleotides. In the presence of 3'-OMeGTP, nearly homogeneous populations of 3'-coterminal elongation complexes were positioned at the first G residue of the template. 3'-OMeG-arrested polymerases resumed elongation upon addition of GTP, apparently via sequential pyrophosphorolysis and nucleotide exchange at the site of elongation block. The ability to fix the 3' end facilitated analysis of initiation site choice based on the sizes of short nascent transcripts. Site choice was flexible and depended on the concentration of both the potential initiating NTP and the donor NTP participating in first phosphodiester bond formation. RNA polymerase could initiate at multiple positions within a nine-nucleotide region of the template. The rate of chain elongation by vaccinia polymerase during a single synchronous round of RNA synthesis was found to be 20-50 nucleotides per second.
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PMID:Stability of ternary transcription complexes of vaccinia virus RNA polymerase at promoter-proximal positions. 155 99

Substitution of Asp for a Tyr residue normally present at position 639 of the bacteriophage T7 RNA polymerase leads to a drastic drop in the enzymatic activity. This mutation does not affect the enzyme-promoter interaction but decreases the ability of the RNA polymerase to discriminate between GTP and ATP molecules, resulting in a decrease in the rate of the incorporation of the nucleotide into the RNA chain.
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PMID:On the functional role of the Tyr-639 residue of bacteriophage T7 RNA polymerase. 163 67

A thorough mutational analysis of U6 RNA in combination with a functional reconstitution assay, revealed that three domains are important for U6 function in pre-mRNA splicing. In order to further analyze why these regions are so critical for splicing, we make use of phosphorothioate substituted U6 RNAs. Wild-type U6 RNA was transcribed in vitro with T7 RNA polymerase in the presence of either phosphorothiate (alpha-S) ATP, GTP, UTP or CTP. The functionality of the transcripts was monitored by in vitro reconstitution. While substitution with alpha-S ATP, GTP or UTP blocked splicing, substitution with alpha-S CTP had little or no effect on splicing. We made use of this alpha-S CTP effect in an attempt to elucidate which phosphates in the U6 RNA molecule play a role in the first or in the second step of splicing. U6 mutants in which a change of an A, G or U to C does not have any significant effect on splicing were transcribed in the presence of alpha-S CTP. Observed effects on splicing thus have to be attributed to the presence of the thio-substituted phosphate group rather than the nucleotide change. The results of in vitro reconstitution give a clear answer for at least three phosphates; two of them play a role in the first step, while one of them is involved in the second step of splicing.
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PMID:Thiophosphates in yeast U6 snRNA specifically affect pre-mRNA splicing in vitro. 164 31

New spin-labeled analogs of nucleoside triphosphates, 8-amino(2,2,6,6-tetramethylpiperidine-N-oxyl)adenosine 5'-triphosphate ((8-AmTEMPO)ATP) and 5-amino(2,2,6,6-tetramethylpiperidine-N-oxyl)uridine 5'-triphosphate ((5-AmTEMPO)UTP), with the probe 4-amino(2,2,6,6-tetramethylpiperidine-N-oxyl) (4-AmTEMPO) attached to C-8 of ATP and C-5 of UTP via a secondary amine bond, were synthesized in 50 and 40% yield, respectively. These analogs showed a single spot by thin layer chromatographic analysis. The absorption spectra of (8-Am-TEMPO)ATP and (5-AmTEMPO)UTP exhibit maxima at 310 and 265 nm, respectively; their X-band EPR spectra have a typical three-line pattern with lines at 3,221, 3,239, and 3,257 Gauss. The intensity ratios for mid to high field lines of the EPR derivative lines were found to be 1.03 +/- 0.02, 1.08 +/- 0.04, and 1.15 +/- 0.07 for 4-AmTEMPO, (8-AmTEMPO)ATP, and (5-AmTEMPO)UTP, respectively. The immobilization of 4-AmTEMPO bound to C-8 of ATP or bound to C-5 of UTP was observed to be 5 and 11%, respectively, as compared with free 4-AmTEMPO. The initial velocity (s-1) of [3H]UMP incorporation into RNA in the presence of [3H]UTP, CTP, GTP, and (8-AmTEMPO)ATP or ATP was measured. The percent incorporation of (8-AmTEMPO)ATP into RNA product by Escherichia coli RNA polymerase using various DNA templates is 68, 66, and 61% for pAR1435 (plasmid containing A1 promoter from T7 DNA), calf thymus DNA, and poly(dA-dT) respectively, as compared with ATP incorporation. The polymerase-catalyzed reaction of (8-AmTEMPO)ATP with (3'-OCH3)UTP yielded 5'-triphosphate delta-amino(2,2,6,6-tetramethylpiperidine-N-oxyl)adenylyl (3'-5')3'-methoxy uridine in the presence of poly(dA-dT). The structure of this spin-labeled dinucleotide was identified by paper chromatographic analysis of the products of phosphodiesterase digestion. These analogs also can be used for the study by EPR spectroscopy of the dynamics of gene transcription catalyzed by RNA polymerases or of other nucleotide-utilizing enzymes.
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PMID:Spin-labeled nucleotide substrates for DNA-dependent RNA polymerase from Escherichia coli. 165 31

The specific limited trypsinolysis of bacteriophage T7 RNA polymerase (T7RP) was performed in the presence of various components of the polymerase reaction and some GTP-analogs--irreversible inhibitors of the enzyme. The differences in the rate and sites of proteolysis were observed. Basing on the data obtained the role of the N-terminal domain of the T7RP in the interaction with promoter-containing template is proposed.
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PMID:T7 RNA polymerase: use of limited proteolysis for the study of enzyme's interaction with substrates and inhibitors. 169 96

Bacteriophage T7 RNA polymerase was covalently modified by 5'-[4-fluorosulfonyl)benzoyl]adenosine (4-FSO2BzAdo). The modified enzyme lacks the ability to catalyze RNA synthesis from the phi 10 promoter of bacteriophage T7; both promoter and GTP binding being markedly decreased. The mild hydrolysis of the ester bond of 4-FSO2BzAdo within the covalent enzyme-inhibitor complex restores the RNA synthesis at a lower rate. Sequence studies show that Lys172 is the target of modification by 4-FSO2BzAdo. This residue, which is situated in the polypeptide region connecting two domains of RNA polymerase, was shown to be the primary site of the limited proteolysis occurring in vivo [Ikeda, R. A. & Richardson, C. C. (1987) J. Biol. Chem. 262, 3790-3799]. We propose that Lys172 is located outside the active site. Once this residue has reacted with 4-FSO2BzAdo, the nucleoside moiety of the analog is fixed in the NTP-binding site of the active centre and prevents binding of the substrates. Here, Lys172 per se is not important for the activity but serves as an 'anchor' for binding of the inhibitor.
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PMID:Inactivation of bacteriophage T7 DNA-dependent RNA polymerase by 5'-p-fluorosulfonylbenzoyladenosine. Identification of the modification site and the effect of the modification on enzyme action. 169 3

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