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)

1. Hydroxyindole-O-methyltransferase and DNA-dependent RNA polymerase activities were determined in the pineal gland removed from the ovariectomised rat and cultured under various experimental conditions. 2. The transferase activity declined very slowly during 24 h of incubation. 17beta-Oestradiol significantly increased the transferase activity within 2h after the addition, and the extent of increase was dose-dependent within the concentration range from 0.1 to 15 nM, being increased by 80% at 15 nM. Enhancement of the transferase activity by oestradiol was abolished not only by inhibitors of protein synthesis (cycloheximide and puromycin), but also by those of RNA synthesis (actinomycin D and alpha-amanitin). It was also blocked by clomiphene citrate, an agent which is known to inhibit the binding of steroid hormones to their respective receptors. 3. RNA polymerase activity (forms A and B) declined rapidly during the initial period of pineal culture. Oestradiol (15 nM) increased the RNA polymerase B activity by 50% within 2 h after the addition. The increase was dose-dependent within the concentration range from 0.1 to 15 nM, and was abolished by clomiphene citrate. 4. The possibility is suggested that the pineal is a target organ of oestradiol, and that the steroid-induced reaction sequence in the pineal conforms to that is known in other target organs.
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PMID:Enhancement of hydroxyindole-O-methyltransferase and DNA-dependent RNA polymerase activities induced by oestradiol in rat pineals in culture. 95 46

On the basis of comparison of the protein sequences of the putative virus-specific replicases, carlaviruses can be placed in the "Sindbis-like" supergroup of plus-stranded RNA viruses. Among these, the amino acid sequences of the replication proteins of potex- and tymoviruses showed the highest similarity to potato virus M. The possible functions of conserved domains are suggested to be methyltransferase, nucleotide-binding domain, and RNA polymerase.
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PMID:The putative RNA replicase of potato virus M: obvious sequence similarity with potex- and tymoviruses. 223 81

The 39,000 Mr Ada protein of Escherichia coli that carries two distinct methyltransferase activities and activity to promote transcription of the ada and the alkA genes is cleaved by a cellular proteinase. As a result, the 20,000 and the 19,000 Mr proteins are formed, which are derived from the N-terminal and the C-terminal halves of the protein, respectively. To elucidate the molecular mechanism of transcriptional control by Ada protein, the N-terminal 20,000 Mr protein was overproduced by manipulating the cloned ada gene. The protein possessed an activity to transfer a methyl group from the methylphosphotriester of the alkylated DNA to its own molecule and retained the potential to promote transcription of the alkA gene. The methylated form of the 20,000 Mr proteins binds to the proper alkA regulatory sequence, as does the intact Ada protein, and facilitates further binding of RNA polymerase to the promoter, thus forming an active transcription initiation complex. The non-methylated 20,000 Mr protein was incapable of binding itself or supporting RNA polymerase binding to the alkA promoter. When the 20,000 Mr protein was produced under the control of the lac promoter in E. coli and then exposed to a methylating agent, a considerable amount of 3-methyladenine-DNA glycosylase II, the product of the alkA gene, was formed. Thus, the results obtained in in vitro experiments were confirmed by the events observed in vivo. The methylated 20,000 Mr protein also binds to the ada promoter; however, it does not facilitate further binding of RNA polymerase to the promoter nor does it promote ada transcription in vitro. These findings indicate that the N-terminal half of Ada protein is mainly responsible for recognition of and binding to alkA and the ada regulatory sequence. The methylated 20,000 Mr protein occupies the same region of the ada promoter to which the intact Ada protein would bind, thereby suggesting that it acts as a repressor for expression of the ada gene. The ada transcription promoted by the Ada protein was greatly inhibited by the methylated, but not the non-methylated, form of the 20,000 Mr protein. In an in vivo system, formation of the 20,000 Mr protein leads to inhibition of transcription from the ada promoter. We suggest that termination of the adaptive response may come about by proteolytic cleavage of the Ada protein, the result being a loss of the activator as well as formation of the repressor for ada transcription.
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PMID:Positive and negative regulation of transcription by a cleavage product of Ada protein. 225 28

U6 small nuclear RNA (snRNA) is a required component in the splicing of eukaryotic pre-mRNAs. Mammalian U6 snRNA was synthesized in vitro by T7 RNA polymerase and purified on polyacrylamide gels. This U6 RNA, with pppG on its 5' end, was accurately capped to CH3-O-pppG, when incubated with HeLa cell extract and this capping was dependent on the capping signal present within the U6 snRNA. When gamma-32P-labeled U6 RNA was used as a substrate, the U6 cap formed in vitro retained this labeled gamma-phosphate, indicating that the cap formation involves the methylation of the gamma-phosphate incorporated during transcription. U6 snRNAs with ppG or pG as their 5' ends, were not capped in this in vitro capping system. Capping of U6 snRNA in vitro requires at least two components, a heat-labile component and S-adenosylmethionine as a methyl group donor. The data presented here show that capping of U6 snRNA can be uncoupled from transcription and that the mechanism of U6 snRNA cap formation differs markedly from the capping mechanism of mRNAs and other U snRNAs where capping is cotranscriptional. While many methyltransferases have been characterized earlier, this is the first report of a methyltransferase that is specific to phosphate residues. This in vitro capping system will be useful for purification and studies on the U6 snRNA sequence-dependent methyltransferase activity.
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PMID:Capping of U6 small nuclear RNA in vitro can be uncoupled from transcription. 234 79

Methylation of cytosine in the DNA inhibits the transcription by RNA polymerase II in higher eukaryotes, but has no influence on RNA polymerase I transcription. The effect on RNA polymerase III was unknown, so far. Two polymerase III genes: a type 1 5S rRNA gene and a type 2 tRNA gene were methylated in vitro with a purified eukaryotic DNA methyltransferase (EC2.1.1.37) and their transcription was analyzed in Xenopus oocytes. The 5S rRNA gene, an oocyte 5S rRNA gene from X. laevis which is subject to developmental inactivation, was not affected by methylation. Conversely, transcription of the tRNA gene was 80% inhibited by methylation with the eukaryotic methyltransferase. HhaI and HpaII methylation left its transcription unaffected.
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PMID:DNA methylation inhibits transcription by RNA polymerase III of a tRNA gene, but not of a 5S rRNA gene. 240 61

The gene for iso-1-cytochrome c from Saccharomyces cerevisiae was recloned into a pSP65 vector containing an active bacteriophage SP promoter. The iso-1-cytochrome c gene was cloned as an 856-base pair XhoI-HindIII fragment. When the resulting plasmid was digested at the HindIII site 279 bases downstream from the termination codon of the gene and transcribed in vitro using SP6 RNA polymerase, full length transcripts were produced. The SP6 iso-1-cytochrome c mRNA was translated using a rabbit reticulocyte lysate system, and the protein products were analyzed on sodium dodecyl sulfate-polyacrylamide gels. One major band with a molecular weight of 12,000 was detected by autofluorography and coincided with the Coomassie staining band of apocytochrome c from S. cerevisiae. The product was also shown to be identical with that of standard yeast apocytochrome c on an isoelectrofocusing gel. The in vitro synthesized iso-1-apocytochrome c was enzymatically methylated by adding partially purified S-adenosyl-L-methionine:cytochrome c-lysine N-methyltransferase (protein methylase III, EC 2.1.1.59) from S. cerevisiae along with S-adenosyl-L-methionine to the in vitro translation mixtures. The methylation was shown to be inhibited by the addition of the methylase inhibitor S-adenosyl-L-homocysteine or the protein synthesis inhibitor puromycin. The principal type of methylated amino acid in the protein was found to be epsilon-N-trimethyllysine which accounted for 77% of the total. Finally, the methylation of in vitro synthesized iso-1-apocytochrome c was found to increase its import into mitochondria isolated from S. cerevisiae 2-4-fold over unmethylated protein, but not into rat liver mitochondria. This suggests that methylation facilitates the import of apocytochrome c into mitochondria by a specific receptor mechanism.
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PMID:Enzymatic methylation of in vitro synthesized apocytochrome c enhances its transport into mitochondria. 282 98

We have previously shown that the vesicular stomatitis virus (VSV) host range mutant, hr 1, is completely defective for the mRNA methyltransferase activities, but can synthesize full-length, unmethylated mRNAs in vitro [S. M. Horikami and S. A. Moyer (1982). Proc. Natl. Acad. Sci. USA 79, 7694-7698] and in vivo [S. M. Horikami, F. De Ferra, and S. A. Moyer (1984). Virology 138, 1-15]. Here we have used the hr 1 mutant to identify the viral protein which possesses the methyltransferase activities. The wild-type VSV L and NS proteins, subunits of the viral RNA polymerase, were separately purified and added to high salt dissociated mutant hr 1 nucleocapsids for in vitro transcription reactions. The results show that the purified wild-type L protein, but not the NS protein, restores methylation and thus possesses the viral mRNA methyltransferase activities.
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PMID:The vesicular stomatitis virus L protein possesses the mRNA methyltransferase activities. 283 58

A high-molecular-weight protein complex that is capable of accurate transcription initiation and termination of vaccinia virus early genes without additional factors was demonstrated. The complex was solubilized by disruption of purified virions, freed of DNA by passage through a DEAE-cellulose column, and isolated by glycerol gradient sedimentation. All detectable RNA polymerase activity was associated with the transcription complex, whereas the majority of enzymes released from virus cores including mRNA (nucleoside-2'-O)methyltransferase, poly(A) polymerase, topoisomerase, nucleoside triphosphate phosphohydrolase II, protein kinase, and single-strand DNase sedimented more slowly. Activities corresponding to two enzymes, mRNA guanylyltransferase (capping enzyme) and nucleoside triphosphate phosphohydrolase I (DNA-dependent ATPase), partially sedimented with the complex. Silver-stained polyacrylamide gels, immunoblots, and autoradiographs confirmed the presence of subunits of vaccinia virus RNA polymerase, mRNA guanylyltransferase, and nucleoside triphosphate phosphohydrolase I, as well as additional unidentified polypeptides, in fractions with transcriptase activity. A possible role for the DNA-dependent ATPase was suggested by studies with ATP analogs with gamma-S or nonhydrolyzable beta-gamma-phosphodiester bonds. These analogs were used by vaccinia virus RNA polymerase to nonspecifically transcribe single-stranded DNA templates but did not support accurate transcription of early genes by the complex. Transcription also was sensitive to high concentrations of novobiocin; however, this effect could be attributed to inhibition of RNA polymerase or ATPase activities rather than topoisomerase.
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PMID:Sedimentation of an RNA polymerase complex from vaccinia virus that specifically initiates and terminates transcription. 303 83

The particles of CPV of silkworm contain double-stranded RNA polymerase and methyltransferase. It was reported in a previous paper that the genome-enzyme complex could be isolated. The genome-enzyme complex shows high enzyme activity of RNA polymerase and methyltransferase in spite of the fact that it consists of only 5 percent of the protein. In order to clarify the protein subunits of the RNA polymerase and methyltransferase, two methods were adopted. The SDS-polyacrylamide gel electrophoretogram showed that the 125I-labeled genome-enzyme complex of CPV contained three protein components in molecular weight of 33 K, 67 K and 142 K daltons respectively and each protein component of them consisted of more than two protein subunits with different isoelectric points in 2-dimensional electrophoretogram. The antibody to the five protein components (P1, P2, P3, P4, P5) was prepared and used to inhibit the enzyme activities of RNA polymerase and methyltransferase. It showed that the RNA polymerase was inhibited by the antibody to proteins P1, P2 and P4, whereas the methyltransferase was mainly inhibited by the antibody to protein P1.
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PMID:The protein subunits of the double-stranded RNA dependent RNA polymerase and methyltransferase of the cytoplasmic polyhedrosis virus of silkworm, Bombyx mori. 329 95

A cloning system for the DNA-(cytosine-5)-methyltransferase MHhaI and high level expression of the enzyme are described. A parent plasmid was constructed from fragments of the MHhaI gene and synthetic oligonucleotides. The construct permits introduction of various restriction sites for cloning at precise positions near the initiation codon, and beyond the termination codon. The entire MHhaI coding sequence was introduced as a 1042 b.p. NdeI-XbaI fragment into the vector pAR3040 which contains the T7 RNA polymerase promoter. The resultant plasmid pTNX3 (MHhaI-pAR3040) was introduced into McrB- E. coli strains HB101 and GM2929, and expression of MHhaI was induced by infection with the lambda phage CE6 carrying the T7 RNA polymerase gene. In induced cells, catalytically active MHhaI was produced at a level that corresponds to about 8% of the total soluble protein; an insoluble form of the protein was also formed, but could be readily removed. The expressed soluble enzyme from HB101/pTNX3 was purified to apparent homogeneity in about 50% yield by a two-step chromatographic procedure involving DEAE-cellulose and Heparin-Sepharose; a one liter culture gave about 2.5 mg of pure enzyme. The molecular weight and kinetic properties of the expressed protein are identical to those reported for the authentic MHhaI, and its amino terminal sequence agrees with that predicted from the DNA sequence.
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PMID:High level expression and purification of HhaI methyltransferase. 334 May 51

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