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)

The large subunit of ribulose 1,5-bisphosphate carboxylase (rbcL) and the beta subunit of chloroplast ATP synthase (atpB) are encoded by divergently transcribed genes on the plastid genome. We have identified DNA binding factors specific for sequences located in the intergenic region between these two genes. Soluble plastid extracts from pea or whole cell extracts from maize protected a maize chloroplast DNA probe containing the 160-base pair region between the 5' ends of rbcL and atpB genes from exonuclease III digestion between positions -16 and -101 relative to the rbcL gene transcription start site. Competition assay with partial sequences from this intergenic region demonstrated that specific sequence(s) are required for the protection. The borders of the binding domain are conserved among the homologous regions of maize, tobacco, spinach, and pea chloroplast genomes. Gel filtration chromatography revealed a molecular weight of about 115,000 for the active complex involved in DNA binding. Using the exonuclease III protection assay, we have also shown that purified Escherichia coli RNA polymerase protects from +25 to -20 of the rbcL gene and from +21 to -23 of the atpB gene relative to their respective transcription start sites. These regions are analogous to open complexes found when E. coli RNA polymerase interacts with the prokaryotic promoters and are consistent with the ability of E. coli RNA polymerase to initiate transcription correctly on linear templates containing these chloroplast promoters. Possible role(s) for the chloroplast DNA binding factor in chloroplast gene expression and its regulation are discussed.
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PMID:Characterization of a chloroplast sequence-specific DNA binding factor. 289 66

Plasmids having Escherichia coli ribosomal DNA sequences under control of a promoter for T7 RNA polymerase have been constructed. Transcription of the rDNA sequences is dependent on T7 RNA polymerase because the tandem promoters for E. coli RNA polymerase, normally used to direct transcription of these sequences, have been removed. The entire 16S, 23S and 5S coding sequences from the rrnB operon can be efficiently transcribed by T7 RNA polymerase in vitro to yield full-length 30S precursor RNA. When such plasmids are placed into an E. coli strain containing a chromosomal copy of the gene for T7 RNA polymerase under control of the lac UV5 promoter, high-level synthesis of rRNAs from the plasmid can be induced by adding IPTG to exponentially growing cells. Subsequent addition of rifampicin to inhibit further initiation of transcription by E. coli RNA polymerase provides a simple method to study the fate of plasmid-coded rRNAs in the complete absence of host-coded rRNA synthesis. Gel electrophoretic analysis demonstrated that the rRNAs synthesized by T7 RNA polymerase in the presence of rifampicin are processed to their mature forms and assembled into ribosomal particles for at least 35 min after rifampicin addition. T7 RNA polymerase is also capable of efficient transcription of the entire rrnB operon in the reverse direction.
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PMID:T7 RNA polymerase directed expression of the Escherichia coli rrnB operon. 301 18

Using SP6 RNA polymerase and various synthetic DNA oligomers as templates (12-65 b), we have obtained efficient synthesis of RNA transcripts without the need for either primer or promoter. Gel analysis of transcripts made from templates of known size demonstrated a predominant single species, together with some minor bands. For a given template the major band had the same 5'-nucleotide as predicted from the 3'-nucleotide of the template. This synthesis procedure makes it possible to efficiently and conveniently make labeled or unlabeled RNA from synthetic DNA oligonucleotides.
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PMID:Enzymatic synthesis of RNA oligonucleotides. 362 5

Utilizing the 6'-hydroxyindole moiety of alpha-amanitin for substitution, biotinyl-alpha-amanitin has been synthesized to use as a soluble affinity probe for the isolation of RNA polymerase B from mammalian cell culture. The synthetic biotinyl-alpha-amanitin remains a potent inhibitor of RNA polymerase B having a Ki of 4.1 X 10(-8) M as compared with a Ki of 5 X 10(-9) M for natural alpha-amanitin. RNA polymerase B complexed with biotinyl-alpha-amanitin can be isolated on Bio-Gel P300 polyacrylamide gel beads to which avidin has been attached. RNA polymerase B may then be released from the complex by treatment with sodium dodecyl sulfate or by monochromatic irradiation at 314 nm which destroys the anatoxin moiety. We have used this affinity probe to analyze the subunit composition of RNA polymerase B from various mouse myeloma cell lines. We believe that the biotinyl-alpha-amanitin may be very useful for the isolation of factors which associate with RNA polymerase B; e.g., we have substantiated that actin can be associated with RNA polymerase.
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PMID:A soluble biotinyl-alpha-amanitin affinity probe for the isolation of RNA polymerase B. 377 65

Two heat-stable protein factors, designated as H(1) and H(2), have been purified from a DNA-protamine sulfate complex obtained in an early step in the preparation of E. coli RNA polymerase. Gel electrophoresis under denaturing conditions indicates that H(1) and H(2) behave as pure entities, with molecular weights below 10,000. Their purity is confirmed by aminoacid composition data, and in the case of H(1), by immunological assays. H(1) and H(2) both strongly stimulate transcription of DNA from bacteriophages lambda and varphi80 by the E. coli polymerase holoenzyme; no effect was observed with single-stranded templates. That the amount of H(1) required for maximal stimulation is proportional to the amount of DNA present in the assay, and that both H(1) and H(2) strongly bind to native DNA in a synergestic fashion, suggests that these low molecular weight factors stimulate RNA synthesis by modifying the properties of the DNA template.
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PMID:Two heat-resistant, low molecular weight proteins from Escherichia coli that stimulate DNA-directed RNA synthesis. 456 54

Influenza viral RNA transcription in the infected cell is inhibited by alpha-amanitin, a specific inhibitor of the host nuclear RNA polymerase II. Because viral RNA transcription in vitro catalysed by the virion-associated transcriptase is greatly enhanced by the addition of a primer dinucleotide, ApG or GpG, we have proposed that viral RNA transcription in vivo requires initiation by primer RNAs synthesized by RNA polymerase II. In addition, because we did not detect any capping and methylating enzymes in virions, we have proposed that the 5' terminal methylated cap found on in-vivo viral messenger RNA (mRNA) is derived from the putative primer RNAs. Our recent experiments have proved these two hypotheses. Purified globin mRNAs were shown to stimulate viral RNA transcription in vitro very effectively. The resulting transcripts directed the synthesis of all the non-glycosylated virus-specific proteins in cell-free systems. Other eukaryotic mRNAs were also active as primers. The presence of a 5' terminal methylated cap structure in the priming mRNA was required for its priming activity. Thus, with globin mRNA, removal of the cap eliminated essentially all of its priming activity, and much of this activity could be restored by enzymically recapping the globin mRNA. Using globin mRNA containing 32P only in its cap, we demonstrated that the 5' cap of the globin mRNA primer was physically transferred to the viral RNA transcripts during transcription. Gel electrophoretic analysis suggested that, in addition to the cap, about 10-15 other nucleotides were also transferred from the globin mRNA to the viral RNA transcripts. A mechanism for the priming of influenza viral RNA transcription by globin mRNA is proposed. Initial experiments strongly suggest that priming by capped host mRNAs also occurs during the synthesis of viral mRNA in vivo.
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PMID:RNA primers and the role of host nuclear RNA polymerase II in influenza viral RNA transcription. 610 53

Protein factor rho catalyzes site-specific termination of transcription in a reaction requiring hydrolysis of nucleoside triphosphate with eventual release of RNA from RNA polymerase and DNA template. We have characterized the rho-catalyzed RNA release reaction using isolated transcription complexes. Transcription complexes containing T7 D111 DNA, RNA polymerase, and 3H-labeled nascent RNA were formed and isolated by gel filtration on an Agarose 5M column. When the ternary complexes were incubated with rho factor in the presence of ATP, or dATP, significant amounts of nascet RNA were released from the complexes as determined in a membrane filtration assay. Gel electrophoretic analysis of RNA has revealed that rho releases selected species of discrete-sized RNA from among those originally present in the ternary complexes. These results show that rho essentially acts to release RNA from those ternary complexes which have come to pause, and that this reaction proceeds in a discrete step separately from the pausing of RNA synthesis. Under the conditions used, the extent of RNA release widely varied at individual pausing sites and thus the action of rho exhibited certain site-selectivity.
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PMID:Studies of RNA release reaction catalyzed by E. coli transcription termination factor rho using isolated ternary transcription complexes. 616 Apr 71

Initiation of DNA-dependent RNA synthesis in isolated rat liver nuclei was studied with adenosine 5'-0-(2-thiotriphosphate), (beta-S-ATP), as a precursor. The newly made RNA labelled with sulfur at 5'-triphosphate termini (thio-RNA) was isolated by affinity chromatography on a mercury-agarose column. Sulfur label can be removed from thio-RNA by digestion with phosphodiesterase I and nucleotide pyrophosphatase. Gel electrophoresis revealed that thio-RNA synthesized during 30 min was composed of 4S-35S molecules with three prevailing classes grouped around 4S-5S, 16S and approximately 35S. Differential sensitivity of the thio-RNA classes to low (1 microgram/ml) and high (200 micrograms/ml) concentrations of alpha-amanitin disclosed that beta-S-ATP was used for initiation of transcription by all three classes of RNA polymerases, and that thio-RNA included molecules as large as 18S initiated by RNA polymerase II. Thio-RNA resistant even to high doses of alpha-amanitin represents probably a product of RNA polymerase I which was initiated and elongated up to 35S.
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PMID:Use of adenosine 5'-0-(2-thiotriphosphate) for revealing of newly initiated transcripts in isolated rat liver nuclei. 619 8

The small nuclear RNAs (snRNAs) in African Green Monkey kidney cells (CV-1 cells) were examined by polyacrylamide gel electrophoresis. Methodology was developed to improve their extraction from enriched fractions. Cellular fractionation studies and subsequent analysis of these RNAs indicate that they are tightly associated with chromatin. Treatment of cells with alpha-amanitin totally suppressed transcription of U1, U2, U4, U5, and partially suppressed transcription of U6, suggesting that these snRNAs are transcribed by RNA polymerase II. Upon infection of the cells by simian virus 40 (SV40), overall transcription of these and other cellular RNAs was stimulated. Gel filtration and formaldehyde crosslinking studies indicated that the ribonucleoproteins (snRNPs) containing snRNAs are associated with the viral minichromosome. Nucleotide sequence comparisons show extensive sequence complementarity between the 5' end of U2 RNA, the replication origin of SV40, and a prokaryotic RNA (RNA I) that is involved in control of plasmid replication. The clustered homologies between these RNAs and the association of snRNAs with the SV40 chromosome suggest that snRNAs may be evolutionarily related to small RNAs from plasmids and are consistent with an hypothesis that U2 RNA may be involved in DNA replication.
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PMID:Interaction of small nuclear ribonucleoproteins with simian virus 40 in CV-1 cells: is U2 snRNA involved in regulating replication? 621 Jan 83

The regulatory effects of host cellular histones on the transcription of simian virus 40 (SV40) DNA were investigated by using reconstituted and native SV40 nucleoprotein complexes (NPCs). Reconstituted NPCs were prepared from SV40 DNA and the combination fraction of five histones, H1, H2A, H2B, H3, and H4, isolated from the nuclei of permissive (CV-1) or nonpermissive (BALB/c 3T3, rat liver, and calf thymus) cells. Native NPCs were prepared by alkali disruption of purified SV40 virions. Nuclease digestion of these NPCs gave regular patterns of bands similar to those of SV40 NPCs from SV40-infected CV-1 cells, suggesting the presence of a nucleosomal structure. Transcription of NPCs was analyzed in vitro by using Escherichia coli DNA-dependent RNA polymerase. Both histone H1 and the fraction consisting of all five histones inhibited transcription of SV40 DNA by about 90 to 95%. The fraction consisting of four histones lacking H1 reduced the transcription by 30 to 35%, to a level similar to that of transcription with native NPCs. Transcription was inhibited regardless of whether the origin of histones was permissive or nonpermissive cells. Gel electrophoretic patterns of RNA products transcribed from SV40 DNA and reconstituted and native NPCs showed several identical peaks between 13S and 28S. The patterns were identical whether NPCs reconstituted with H1 alone, all five histones, or four histones lacking H1 were used.
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PMID:Transcription of reconstituted simian virus 40 nucleoprotein complexes. 624 6

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