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 virus-specific RNA sequences synthesized in nuclei isolated from adenovirus type 2-infected HeLa cells comprise a fraction of the total RNA similar to that observed with RNA made in vivo. By 16 h after infection, for example, some 25% of the RNA made in isolated nuclei is transcribed from adenoviral DNA. Only 10 to 15% of the adenoviral RNA sequences synthesized in nuclei isolated during the late phase of infection are transcribed by form III RNA polymerase. This RNA, whose synthesis is resistant to 0.5 microgram/ml, but sensitive to 200 microgram/ml of alpha-amanitin, sediments at about 5 S in denaturing sucrose gradients and must, therefore, represent the virus-associated RNAs. The remainder of the sequences are transcribed by form II RNA polymerase and sediment as several RNA species in denaturing sucrose gradients. The largest of these exhibits the size, 55 to 60 S, expected of a complete transcript of the major, adenoviral transcriptional unit expressed during the late phase. Hybridization of RNA 32P-labeled in nuclei isolated during the late phase of infection to restriction endonuclease fragments of adenoviral DNA immobilized on nitrocellulose filters suggests that sequences of this transcriptional unit are indeed transcribed in vitro. To make a detailed assessment of the fidelity of transcription in isolated nuclei, transcription reactions were performed in the presence of 5-mercuricytidine 5'-triphosphate and the RNA mercurated in vitro separated from endogenous RNA by chromatography on sulfhydryl-agarose columns by a stringent procedure. After demercuration, RNA made in nuclei isolated 20 h following adenovirus type 2 infection was hybridized to the separated strands of restriction endonuclease fragments of 32P-labeled adenovirus type 2 DNA. Such RNA is complementary to the r strand of adenoviral DNA from 16.6 units to a point to the right of 98.3 units. These sequences comprise the major transcriptional unit expressed during the late phase (Fig. 1). It is therefore clear that the fidelity of transcription of adenoviral DNA by form II RNA polymerase is preserved in isolated nuclei. Two 1-strand transcriptional units, those of the IVa2 and ts36 genes (see Fig. 1) are also active at 20 h after infection. The results of similar analysis of RNA made in nuclei isolated 4 and 12 h after infection are also presented and discussed in terms of the mapping of individual transcriptional units within the type 2 adenoviral genome and the temporal regulation of adenoviral gene expression during productive infection.
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PMID:Transcription of adenoviral genetic information in isolated nuclei. Characterization of viral RNA sequences synthesized in vitro. 624 56

The inverted repeats of Tn5, which have identical restriction endonuclease cleavage patterns, have different functional properties. They differ with respect to RNA polymerase binding, full promotion of neomycin resistance, the polypeptides coded for by the repeats and their function in the transposition process. There is a week RNA polymerase binding site present in one repeat and not in the other which seems to be important for neomycin resistance. The two inverted repeats code for polypeptides of different molecular weights, with each repeat appearing to encode two polypeptides. The polypeptides from only one of the repeats of Tn5 appear to be absolutely required for Tn5 transposition.
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PMID:The inverted repeats of Tn5 are functionally different. 624 98

Extracts of HeLa cells containing RNA polymerase II and other factors recognize specific sites on linear simian virus 40 (SV40) DNA for initiation of transcription. The most prominent RNA products transcribed from the early region of SV40 and th E strand are initiated at sites 0.67 and 0.655 on the SV40 map. These two RNAs are synthesized by polymerase II. Their 5' termini were positioned by sizing transcripts that extend from the initiation site to the end of the template restriction endonuclease fragment, and by S1-nuclease mapping of unlabeled RNA using DNA probes labeled at their 5' termini. The limit of resolution of mapping of 5' termini is approximately 25 nucleotides. RNAs with 5' termini at similar positions have been found during characterization of mRNAs produced in infected cells. Thus, the whole cell extract is probably initiating transcription on linear SV40 DNA in vitro at the same sites as RNAs synthesized in vivo. Two other processes frequently involved in mammalian cell mRNA biosynthesis, creation of specific 3'-terminal polyadenine tracts and RNA splicing, were not detected during the course of these studies.
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PMID:Transcription of Simian virus 40 DNA in a HeLa whole cell extract. 625 54

Promotor sequences recognized by Escherichia coli RNA polymerase have been isolated from bacteriophage T7 DNA using the plasmid pBRH4. T7 DNA was digested with the restriction endonuclease Hae III, Alu I, and Eco RI* and the products of these digestions were ligated into the EcoRI site of pBRH4. Cloning of Hae III and Alu I-digested T7 DNA was achieved by blunt-end ligation of these fragments to the polymerized ends of Eco-RI-cleaved pBRH4. This converts blunt-end Eco RI fragments of T7 DNA into cohesive-end EcoRI fragments. Promoter-containing T7 restriction fragments were selected by activation of the tetracycline-resistance gene located on the plasmid vector. The genomic location of each T7 insert was determined and Hpa I-cleaved T7 DNA. Two promoter-active restriction fragments are thought to contain the C and E promoters of T7. However, the majority, of the promoter-active fragments cloned map within the late gene region of T7. In vitro binding studies indicate that E. coli RNA polymerase can form heparin resistant complexes with the cloned T7 DNA promoter fragments. These results suggest that while E. coli RNA polymerase may not participate directly in the transcription of late T7 genes, promoters for this enzyme are present in this region of the DNA.
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PMID:Isolation of E.coli promoters from the late region of bacteriophage T7 DNA. 625 28

We propose a mechanism for the priming of influenza viral RNA transcription by capped RNAs in which specific 5'-terminal fragments are cleaved from the capped RNAs by a virion-associated endonuclease. These fragments would serve as the actual primers for the initiation of transcription by the initial incorporation by the initial incorporation of a G residue at their 3' end. We show that virions and purified viral cores contain a unique endonuclease that cleaves RNAs containing a 5' methylated cap structure (m7GpppXm) preferentially at purine residues 10 to 14 nucleotides from the cap, generating fragments with 3'-terminal hydroxyl groups. RNAs containing the 5'-terminal structure GpppG could not be cleaved to produce these specific fragments. Consistent with our proposed mechanism, those capped fragments that function as primers could be linked to a G residue in transcriptase reactions containing alpha-32P-GTP as the only ribonucleoside triphosphate. The pattern of G and C incorporation onto these primer fragments suggests that this incorporation is directed by the second and third bases at the 3' end of the virion RNA template, which has the sequence 3' UCG. Primer fragments with a 3'-terminal A residue were used more efficiently than those with a 3'-terminal G residue, indicating a preference for generating an AGC sequence in the viral mRNA complementary to the 3' end of the virion RNA. Cleavage of the RNA primer and initiation of transcription are not necessarily coupled, because a 5' fragment isolated from one reaction could be used as a primer when added to a second reaction. Uncapped ribopolymer inhibitors of viral RNA transcription inhibited the cleavage of capped RNAs.
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PMID:A unique cap(m7GpppXm)-dependent influenza virion endonuclease cleaves capped RNAs to generate the primers that initiate viral RNA transcription. 626 60

mRNA's homologous to the herpes simplex virus type 1 DNA restriction endonuclease fragment BamHI p, which contains the thymidine kinase gene, have been identified and mapped by hybrid-arrested translation and mRNA selection. Such mRNA's, when translated in vitro, directed the synthesis of polypeptides of apparent molecular weights 43,000 (VI43) and 39,000 (VI39). mRNA for enzymatically active thymidine kinase was enriched by more than 20-fold after selection. Mapping was carried out with restriction endonuclease fragments of BamHI p, and locations of the 5' and 3' termini of VI43 mRNA were deduced. Analysis of nucleotide sequences around the 5' terminus revealed several consensus sequences commonly found at the start of eucaryotic mRNA's and which are presumably involved in initiation of transcription by RNA polymerase II. Translation of mRNA's for VI43, VI39, and the thymidine kinase enzyme was arrested only by a 1,170-base-pair region of BamHI p. Since this region is insufficient for adjacent genes, coding sequences for VI43 and VI39 must overlap; the possible relationship of these two polypeptides is discussed. A virus-induced product equivalent to VI39 was detected in infected cells.
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PMID:Identification and mapping of two polypeptides encoded within the herpes simplex virus type 1 thymidine kinase gene sequences. 626 30

The accessibility of extracellular and nuclear simian virus 40 (SV40-M and SV40-I, respectively) virion chromatin DNAs to micrococcal nuclease, DNase I, BglI, EcoRI, and RNA polymerase was examined. Our results support the following conclusions: (i) the intranucleosomal DNA of SV40-I chromatin, similar to the precursor 75S chromatin complex, is resistant to enzymatic activity; and (ii) SV40-M virion chromatin is modified in a manner which increases the accessibility of viral DNA to enzymes, and the distinction between nucleosomal DNA and linker DNA is absent. Micrococcal nuclease digestion of SV40-I virion chromatin gave a typical nucleosomal DNA ladder pattern with a repeat unit of 205 base pairs of DNA. SV40-I chromatin was sensitive to cleavage with endonuclease BglI, but not with EcoRI. When SV40-I virion chromatin was used as a template, the rate of incorporation of ribonucleoside triphosphates into RNA was 5% of that obtained with naked form SV40 form I DNA. Micrococcal nuclease digestion of SV40-M virion chromatin resulted in submonomeric DNA fragments of approximately 55 base pairs, but no larger repeating unit of DNA was observed. SV40-M virion chromatin was sensitive to cleavage with either BglI or EcoRI and was approximately 20% more susceptible to digestion with DNase I than was SV40-I virion chromatin. The transcriptional efficiency of the extracellular virion chromatin was almost equivalent to that of naked SV40 form I DNA and was 16-fold higher than the rate observed with nuclear virion chromatin. The increased transcriptional activity was dependent upon the presence of nonhistone viral protein VP1 or VP2 or both.
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PMID:Simian virus 40 maturation: chromatin modifications increase the accessibility of viral DNA to nuclease and RNA polymerase. 626 46

A new plasmid vector, designated pBRS188 has been constructed for cloning of promoter-containing DNA fragments. This plasmid is a derivative of the E. coli drug-resistance plasmid pBR322 in which a small region (13 base pairs long) within the Tc promoter is eliminated. As a result of the alteration pBRS188 has lost the ability to confer Tc resistance to the host strain. Cloning of foreign DNA fragments, carrying promoters for E. coli RNA polymerase, into the unique EcoRI site of pBRS188 allows to isolate the recombinant TcR transformants. Our construction required the use of new techniques, involving partial hydrolysis of DNA fragments by E. coli DNA polymerase I in the presence of one deoxyribonucleosidetriphosphate and by nuclease S1. An important feature of this method is the ability to regenerate restriction endonuclease recognition sites at junctions of DNA fragments.
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PMID:[Construction of promoter-probe plasmid vector]. 626 69

An endonuclease, which was originally identified for its RNA polymerase inhibitory activity, was isolated from rat liver endoplasmic reticulum. The enzyme yields on gel chromatography four active fractions of different molecular weights (Mr 5.3 X 10(4), 9 X 10(4), 1.55 X 10(5) and Sephacryl S-200 fraction at V0). Each fraction contains polypeptide chains which give a single band on sodium dodecylsulphate electrophoresis (Mr 5.4 X 10(4). This indicates that the enzyme is an oligomeric protein and each of its subunits exhibits the same or very similar molecular weights. Deoxyribonucleoside and ribonucleoside triphosphates can bind to the endoplasmic reticulum nuclease. Binding is enhanced in the presence of divalent cations particularly Mg2+. The enzyme exhibits mainly RNase activity but can also degrade denatured DNA and DNA . RNA hybrids which contain breaks in one of the two strands. Poly(A) and mainly poly(U) are most susceptible to its nucleolytic activity whereas poly(C) is completely resistant.
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PMID:Endoplasmic reticulum nuclease. Purification and specificity. 627 70

Nascent RNA, synthesized by calf thymus ENA polymerase II on the restriction endonuclease EcoRI fragment A and BamHI fragment B of adenovirus 2 DNA, was rehybridized to the template strand under conditions allowing transcription R-loop formation. Hybrids, visualized by electron microscopy, were found in looped and in branched configurations, the former being abundant, with an average loop number of roughly four per EcoRI fragment A and three per BamHI fragment B. Frequency distributions of transcription R-loops, synthesized on identical restriction fragments for different periods of time, showed similar patterns, thus pointing to a nonrandom type of transcription. A comparison of the frequency distribution of R-loops seen on the two overlapping restriction fragments reveals reasonable coincidence in the loop pattern in one out of the four possible fragment orientations, permitting correlation of the transcription R-loop pattern with the physical map of the adenovirus 2 DNA. Comparison of start sites tentatively mapped in vitro with the known promoters for RNA polymerase II in vivo suggests that a major transcription site in vitro is located in close proximity to, or identical with, two promoters in vivo at 16.1 and 16.5 map units.
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PMID:R-loop mapping of calf-thymus RNA polymerase II. Transcripts in vitro on restriction fragments of adenovirus 2 DNA. 627 22

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