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)

A transcription factor required for synthesis of accurately initiated run-off transcripts by RNA polymerase II has been purified and shown to have an associated DNA-dependent ATPase (dATPase) activity that is strongly stimulated by the TATA region of promoters. This transcription factor, designated delta, was purified more than 3000-fold from extracts of crude rat liver nuclei and has a native molecular mass of approximately 230 kDa. DNA-dependent ATPase (dATPase) and transcription activities copurify when delta is analyzed by hydrophobic interaction and ion-exchange HPLC, arguing that transcription factor delta possesses an ATPase (dATPase) activity. ATPase (dATPase) is specific for adenine nucleotides; ATP and dATP, but not CTP, UTP, or GTP, are hydrolyzed. ATPase (dATPase) is stimulated by both double-stranded and single-stranded DNAs, including pUC18, ssM13, and poly(dT); however, DNA fragments containing the TATA region of either the adenovirus 2 major late or mouse interleukin 3 promoters stimulate ATPase as much as 10-fold more effectively than DNA fragments containing nonpromoter sequences. These data suggest the intriguing possibility that delta plays a critical role in the ATP (dATP)-dependent activation of run-off transcription through a direct interaction with the TATA region of promoters.
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PMID:An RNA polymerase II transcription factor has an associated DNA-dependent ATPase (dATPase) activity strongly stimulated by the TATA region of promoters. 255 40

Erwinia carotovora RNA polymerase consists of the holoenzyme structure sigma 2 beta beta' sigma as found in Escherichia coli and other bacteria. E. carotovora RNA polymerase can synthesize RNA using lambda, T7 of T4 DNA as templates; however, it is two times less active on these templates and is more temperature-sensitive than the E. coli enzyme. The alpha subunit of the E.. carotovora enzyme is lower in molecular mass than its E. coli counterpart. The sigma factors from E. coli and E. carotovora are similar in size and in their ability to stimulate RNA synthesis by core enzyme on DNA templates such as T7 DNA. An additional protein of 115 000 Da molecular mass, termed gamma, is found associated with E. carotovora RNA polymerase. The gamma protein is tightly associated with the polymerase subunits as it is not dissociated by gel filtration in buffer containing 0.5 M NaCl. It can be purified by passing the Agarose 1.5 m enzyme through coupled Bio-Rex 70 and DEAE-cellulose columns. The gamma-protein, when present in excess over the sigma subunit, inhibits holoenzyme activity on T7 DNA but not on poly[d(A-T)]and may thus interfere with sigma activity. The gamma protein by itself cannot transcribe T7 DNA or poly[d(A-T)], nor does it stimulate core enzyme activity on T7 DNA. E. carotovora rho has a subunit molecular mass of 48 000 Da and exhibits RNA-dependent phosphohydrolysis of adenosine ribonucleoside triphosphate. E. coli and E. carotovora rho are indistinguishable immunologically, as total fusion of precipitin bands is observed. E. carotovora rho elutes from a phosphocellulose column at a salt concentration of about 0.21 M KCl, compared to that of 0.29 M KCl for E. coli rho. The poly(C)-dependent ATPase activity of E. carotovora rho is more-temperature sensitive and is six to ten times less active than that of E. coli rho. E. carotovora rho is capable of terminating RNA transcripts, as indicated by a decrease in RNA synthesis using lambda or T7 DNA as template and E. carotovora or E. coli polymerase as the transcribing-enzyme.
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PMID:Purification of RNA polymerase and transcription-termination factor Rho from Erwinia carotovora. 257 93

We have developed an homologous in vitro system from spinach chloroplasts that correctly initiates transcription of the plastid genes for the large subunit of ribulose-1,5-bisphosphate carboxylase (rbcL) and the beta subunit of the plastid ATPase (atpB). The transcriptionally active extracts from spinach chloroplasts require circular DNA templates for specific initiation. The RNA polymerase activity is insensitive to rifampicin. The extent of transcription in vitro is a function of the extract:template ratio. The efficiency of the rbcL transcription in vitro is more than one transcript per one hundred templates per hour.
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PMID:An in vitro system for accurate transcription initiation of chloroplast protein genes. 286 Jun 36

DNA-dependent ATPase IV has been purified to near homogeneity from the Novikoff rat hepatoma. The enzyme is devoid of DNA polymerase, RNA polymerase, exonuclease, endonuclease, phosphomonoesterase, 3'- or 5'-phosphodiesterase, polynucleotide kinase, protein kinase, topoisomerase, helicase or DNA reannealing activities at a detection level of 10(-5) to 10(-7) relative to the ATPase activity. The enzyme is a monomer of Mr 110,000, has a sedimentation coefficient of 5.9 S, a Stokes radius of 40 A and a frictional coefficient of 1.32. In the presence of Mg2+ ion and a polynucleotide effector, ATPase IV hydrolyzes either ATP or dATP to the nucleoside diphosphate plus Pi. Other ribo- or deoxyribonucleoside triphosphates are not substrates. ATPase IV utilizes double-stranded DNA and single-stranded DNA as effector; however, it does not utilize poly(dT). The Km for dsDNA or ssDNA is 2.2 microM (nucleotide). A variety of ATP analogues were found to be competitive inhibitors of ATPase IV.
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PMID:Purification and enzymological characterization of DNA-dependent ATPase IV from the Novikoff hepatoma. 296 5

The nucleotide sequence (56,410 base-pairs) of the large single-copy region of chloroplast DNA from the liverwort Marchantia polymorpha has been determined. The sequence starts from one end (JLA) of the large single-copy region and encompasses genes for 21 tRNAs, six ATPase subunits (atpA, atpB, atpE, atpF, atpH and atpI), two photosystem I polypeptides (psaA and psaB), four photosystem II polypeptides (psbA, psbC, psbD and psbG), five ribosomal proteins (rps2, rps4, rps7, rps'12 and rps14), and three RNA polymerase subunits (rpoB, rpoC1 and rpoC2). In addition, we detected 18 open reading frames ranging from 29 to 2136 amino acid residues long, four of which share significant amino acid sequence homology to those of an Escherichia coli malK protein (designated mbpX), human mitochondrial ND2 (ndh2) and ND3 (ndh3) of a respiratory chain NADH dehydrogenase, or a bacterial antenna protein of a light-harvesting complex (lhcA). Sequence analysis suggests that four tRNA genes and six protein genes might be split by introns; they are trnG(UCC), trnK(UUU), trnL(UAA), trnV(UAC), atpF, ndh2, rpoC1, rps'12, ORF135 and ORF167. In the large single-copy region described here, the gene organization deduced is highly conserved with respect to that of higher plants, but an inversion of some 30,000 base-pairs flanked by trnL(CAA) and trnD(GUC) was seen between the liverwort and tobacco chloroplast genomes.
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PMID:Structure and organization of Marchantia polymorpha chloroplast genome. II. Gene organization of the large single copy region from rps'12 to atpB. 297 85

The CapR protein is an ATP hydrolysis-dependent protease as well as a DNA-stimulated ATPase and a nucleic acid-binding protein. The sequences of the 5' end of the capR (lon) gene DNA and N-terminal end of the CapR protein were determined. The sequence of DNA that specifies the N-terminal portion of the CapR protein was identified by comparing the amino acid sequence of the CapR protein with the sequence predicted from the DNA. The DNA and protein sequences established that the mature protein is not processed from a precursor form. No sequence corresponding to an SOS box was found in the 5' sequence of DNA. There were sequences that corresponded to a putative -35 and -10 region for RNA polymerase binding. The capR (lon) gene was recently identified as one of 17 heat shock genes in Escherichia coli that are positively regulated by the product of the htpR gene. A comparison of the 5' DNA region of the capR gene with that of several other heat shock genes revealed possible consensus sequences.
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PMID:Regulatory region of the heat shock-inducible capR (lon) gene: DNA and protein sequences. 298 74

This paper describes the use of Escherichia coli to isolate Bal31 deletion mutants and single-base substitution mutants that functionally define the promoter of the maize chloroplast beta-ATPase gene (atpB). Promoter function in E. coli and in a chloroplast in vitro transcription system was determined by S1 nuclease protection experiments using RNA products from each mutant. The results show that in vitro the chloroplast RNA polymerase responds to the promoter point mutations in a quantitatively similar fashion to the E. coli RNA polymerase. Deletion analysis demonstrates that sequences 5' of the -35 region are not necessary for chloroplast promoter function in vitro and that the presence of an adjacent promoter drastically decreases the transcriptional activity of the atpB promoter in E. coli.
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PMID:Mutational analysis of the maize chloroplast ATPase-beta subunit gene promoter: the isolation of promoter mutants in E. coli and their characterization in a chloroplast in vitro transcription system. 300 65

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

Partially purified DNA-dependent RNA polymerase from infectious vaccinia virus particles exhibits the following two activities: 1) specific transcription of double-stranded DNA templates containing vaccinia early promoters and 2) nonspecific transcription of single-stranded DNA templates. After further purification of the RNA polymerase, specific transcriptase activity was selectively diminished suggesting the loss of a transcription factor. In agreement with the latter hypothesis, transcriptase activity could be reconstituted by mixing the purified RNA polymerase with certain column fractions. A quantitative complementation assay was developed and used to locate the transcription factor during successive column chromatography steps. The factor eluted as a single peak of activity from single strand DNA-cellulose and phosphocellulose columns. An observation that the transcription factor binds specifically to vaccinia early promoter sequences was exploited in the final affinity chromatography steps. The purified factor was separated from all previously identified vaccinia enzymes and contained two polypeptides of Mr 77,000 and 82,000. A DNA-dependent ATPase activity also copurified with the transcription factor. Although a single template was used for assays during isolation, the purified factor stimulated transcription of three other early genes by 20-30-fold suggesting that it has a general role in conferring promoter specificity for initiation of early transcription.
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PMID:Purification of a factor required for transcription of vaccinia virus early genes. 339 40

The T4 bacteriophage dda protein is a DNA-dependent ATPase and DNA helicase that is the product of an apparently nonessential T4 gene. We have examined its effects on in vitro DNA synthesis catalyzed by a purified, multienzyme T4 DNA replication system. When DNA synthesis is catalyzed by the T4 DNA polymerase on a single-stranded DNA template, the addition of the dda protein is without effect whether or not other replication proteins are present. In contrast, on a double-stranded DNA template, where a mixture of the DNA polymerase, its accessory proteins, and the gene 32 protein is required, the dda protein greatly stimulates DNA synthesis. The dda protein exerts this effect by speeding up the rate of replication fork movement; in this respect, it acts identically with the other DNA helicase in the T4 replication system, the T4 gene 41 protein. However, whereas a 41 protein molecule remains bound to the same replication fork for a prolonged period, the dda protein seems to be continually dissociating from the replication fork and rebinding to it as the fork moves. Some gene 32 protein is required to observe DNA synthesis on a double-stranded DNA template, even in the presence of the dda protein. However, there is a direct competition between this helix-destabilizing protein and the dda protein for binding to single-stranded DNA, causing the rate of replication fork movement to decrease at a high ratio of gene 32 protein to dda protein. As shown elsewhere, the dda protein becomes absolutely required for in vitro DNA synthesis when E. coli RNA polymerase molecules are bound to the DNA template, because these molecules otherwise stop fork movement (Bedinger, P., Hochstrasser, M., Jongeneel, C.V., and Alberts, B. M. (1983) Cell 34, 115-123).
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PMID:Effects of the bacteriophage T4 dda protein on DNA synthesis catalyzed by purified T4 replication proteins. 609 52

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