EC:2.7.7.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently identified a novel rat cDNA: rab1B, closely related to the rab1A cDNA and to the yeast YPT1 gene. The rab1B cDNA encodes a 202 amino acid protein (22.1 kDa) that was produced in Escherichia coli under the control of the phi 10 promoter for the T7 RNA polymerase. The rab1B protein was purified in large amounts to near homogeneity in a simplified procedure. We studied the biochemical properties of rab1B and rab1A proteins. They both bind specifically GTP and GDP and possess intrinsic GTPase activities. The rab1B Lys21----Met mutant protein does not bind GTP, whereas the Ala65----Thr mutant has a reduced GTPase activity and is competent for autophosphorylation in the presence of GTP.
...
PMID:Biochemical properties of the YPT-related rab1B protein. Comparison with rab1A. 250 43

We have examined the reaction of GTP with RNA polymerase transcripts containing the self-splicing RNA precursors from the Neurospora crassa Cob1 intron, and from introns in the sunY, nrdB and td genes of bacteriophage T4. In each case, we find a low Km for GTP (between 0.8 and 11 microM), accompanied by competitive inhibition of the GTP reaction by L-arginine, as was found for the previously examined Tetrahymena nuclear pre-rRNA intron. Trials with the 20 standard amino acids show that inhibition in all cases is specific to the arginine side-chain. L-arginine binds with similar affinity to all introns studied, the Ki's ranging from 4.3 to 21 mM. Strikingly, the relative binding preference of the RNAs for L- versus D-arginine is highly conserved: the ratio of L-arg Ki/D-arg Ki, the stereoselectivity, is always close to 2. Because of the conservation of GTP and arginine binding constants and particularly because of the conserved stereoselectivity, we conclude that the evolution of an effective group I RNA transesterification catalyst necessarily produces a specific and stereoselective RNA binding site for a single amino acid. This suggests that selection for an ancient group I RNA could have fortuitously initiated the specific association of RNA sequences with amino acids, a first step toward the genetic code.
...
PMID:Stereoselective arginine binding is a phylogenetically conserved property of group I self-splicing RNAs. 253 Oct 82

Bacteriophage T3 RNA polymerase promoters have been classified as class II and class III on the basis of their relative location in T3 DNA as well as on the function of the protein products encoded by the messages transcribed from them. In the present work, the efficiency of utilization of several class II and class III promoters by bacteriophage T3 RNA polymerase was compared with regard to (a) rate of initiation of transcription as determined by [32P]PPi exchange with GTP; (b) complex formation between polymerase and promoters in the presence of GTP; and (c) competition between different promoters for T3 RNA polymerase in a standard transcription assay. The results of these experiments indicated that the class II promoters at 1.05 and 22.8 T3 map units, whose promoter sequences are remarkably similar to the consensus class III promoter sequences, are nearly as strong as typical class III promoters. In contrast, the class II promoter at 14.3 T3 map units, whose promoter sequence differs from the consensus class III promoter sequence by having a C:G base pair instead of a usual A:T base pair at the -1 position, was considerably weaker than the class III promoter. When the C:G base pair at this position was changed to A:T using site-directed mutagenesis, the rate of initiation of RNA synthesis from the mutant promoter was similar to that of a typical class III promoter. In agreement with this observation, it was observed that changing the A:T base pair at the -1 position of a strong class II promoter, at 1.05 T3 map units, to C:G decreased the rate of RNA synthesis from this promoter by about 65%. These observations indicate that the nucleotide residues at the -1 position play a critical role in determining the efficiency of promoter utilization by T3 RNA polymerase. The two termination sites recognized in vitro by bacteriophage T3 RNA polymerase on the T3 genome have been cloned, sequenced, and mapped. Analysis of the DNA nucleotide sequence surrounding the termination site at 59.7 map units indicated that the putative RNA transcript arising from this region can be arranged into a GC-rich stem-loop structure followed by a U-rich 3' tail. However, a major fraction of T3 RNA polymerase molecules read through this terminator in vitro to transcribe regions of T3 DNA beyond this terminator. In contrast to termination at 59.7 map units, termination of transcription at 100 T3 map units does not occur in response to any putative terminator structure or sequence.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Relative efficiency of utilization of promoter and termination sites by bacteriophage T3 RNA polymerase. 254 91

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.
...
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

The nucleotide sequence of gene segment 1, which encodes VP1 of porcine rotavirus strain Gottfried, was determined. VP1 is associated with single-shelled rotavirus particles and has been linked to virus transcriptase and replicase enzymatic activities. Gene segment 1 is 3302 nucleotides long with a single open reading frame capable of coding for a protein of 1088 amino acids (calculated mol wt 125 kDa). The predicted amino acid sequence revealed that VP1 is basic, with a net positive charge of 18 at pH 7.0. It shares five consensus sequences with several well-characterized RNA-dependent RNA polymerases. Gottfried VP1 also shares consensus sequences with certain GTP-binding proteins; however, we could not detect any GTP-binding activity in VP1. Our preliminary experiments suggest that VP3, another polypeptide located in single-shelled rotavirus particles, possesses GTP-binding activity. These results suggest that mRNA synthesis and capping enzyme activities are related to VP1 and VP3, respectively.
...
PMID:Nucleotide sequence of gene segment 1 of a porcine rotavirus strain. 255 53

We describe a direct procedure for screening genomic recombinant DNA libraries or restriction fragments of cloned DNA regions for RNA polymerase II promoters. Cellular polyadenylated mRNA is chemically de-capped by beta-elimination reaction and enzymatically re-capped with [alpha-32P]GTP by vaccinia guanylyl transferase. Since this enzyme only accepts di- or triphosphorylated 5' termini as a substrate, the mRNAs are labeled exclusively at the first nucleotide, irrespective of whether the mRNA was intact or fragmented before in vitro capping. By using in vitro-capped mRNA as a hybridization probe, recombinant DNA molecules or restriction fragments that carry a cap site (and thus likely an RNA polymerase II promoter) can directly be identified. Here, we demonstrate the applicability of this procedure by the isolation and characterization of several genomic DNA clones containing RNA polymerase II promoter sequences, that are highly active in liver.
...
PMID:Rapid identification of DNA fragments containing promoters for RNA polymerase II. 255 70

Isolated rat liver nuclei were incubated under conditions when RNA polymerase I or RNA polymerase II was preferentially active. It was shown that [gamma-32P] ATP and [gamma-32P] GTP were incorporated into phenol extractable, TCA-precipitable material. RNase, actinomycin D, heparin and, in the case of RNA-polymerase II, alpha-amanitine inhibited precursor incorporation. These data are interpreted as evidence in favour of the initiation of RNA synthesis in isolated rat liver nuclei.
...
PMID:[Initiation of RNA synthesis in isolated rat liver nuclei]. 258 May 66

Nuclei from sea urchin blastula embryos synthesize a variety of small RNAs, one of which has identical mobility with sea urchin U1 RNA. This RNA is synthesized by RNA polymerase II and, in a hybridization-selection experiment, was selected by the cloned sea urchin U1 gene. The U1 RNA was initiated with ATP, but not GTP, in isolated nuclei with beta-S- and gamma-S-ribonucleotide triphosphates as substrates. The U1 RNA containing thiophosphate at the 5' end was not capped but accumulated as an uncapped transcript from which the thiophosphate could be removed with calf intestinal phosphatase.
...
PMID:Synthesis of U1 RNA in isolated nuclei from sea urchin embryos: U1 RNA is initiated at the first nucleotide of the RNA. 258 39

Mammalian cells contain two forms of RNA polymerase II, designated IIO and IIA, that differ in the extent of phosphorylation within the C-terminal domain of their largest subunit. Phosphorylation of this domain, which results in the conversion of RNA polymerase IIA to IIO, may play an important role in the transition from the initiation to the elongation phase of transcription. A third form of the enzyme, RNA polymerase IIB, is found in vitro and lacks the repetitive C-terminal domain. Purified calf thymus RNA polymerase IIA was labeled selectively with casein kinase II in the presence of [gamma-32P]ATP and used as substrate for the identification and partial purification of factors that catalyze the conversion of RNA polymerase IIA to IIO. HeLa cell S-100 transcription extracts contain such an activity that cofractionates with factors essential for promoter-dependent transcription through heparin-Sepharose, DEAE-5PW, and DE52 chromatography. The activity is dependent on either ATP, GTP, or dATP, requires a hydrolyzable beta,gamma-phosphoanhydride bond, and cannot utilize pyrimidine nucleoside triphosphates. This observation supports the idea that the conversion activity is a protein kinase. Transcription of the major late promoter of adenovirus-2 was carried out in the presence of a reconstituted transcription extract containing purified RNA polymerases IIO, IIA, or IIB, and the nature of the elongating enzyme was determined by photoaffinity labeling. When the reaction was initiated with RNA polymerase IIO or IIB, nascent transcripts were found cross-linked to subunit IIo or IIb, respectively. However, when the reaction was initiated with RNA polymerase IIA, nascent transcripts were cross-linked to subunit IIo. Consequently, phosphorylation of the C-terminal domain of subunit IIa must have occurred prior to elongation. The copurification of RNA polymerase IIA to IIO conversion activity with factors essential for promoter-dependent transcription and the observation that RNA polymerase II containing an unphosphorylated C-terminal domain is phosphorylated prior to elongation suggest that protein kinases that phosphorylate the C-terminal domain of subunit IIa may play an essential role in transcription.
...
PMID:The transition of RNA polymerase II from initiation to elongation is associated with phosphorylation of the carboxyl-terminal domain of subunit IIa. 258 85

T7 RNA polymerase, covalently modified with 5'-p-fluorosulfonylbenzoyl adenosine, looses the ability of binding the promoter (pGEM-2 plasmid) and poly(dC) template as well as the initiating nucleoside triphosphate (GTP). However the enzyme retains the unspecific binding with DNA fragments of considerable length.
...
PMID:[Affinity modification of DNA-dependent RNA-polymerase from phage T7 with 5'-p-fluorosulfonylbenzoyl adenosine: the effect of modification on the interaction with substrates]. 260 36

<< Previous 1 2 3 4 5 6 7 8 9 10