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)

Partial purification of the encephalomyocarditis protease synthesized in extracts from rabbit reticulocytes shows that the activity responsible for cleaving coat precursor protein cosediments with a previously unmapped virus-coded protein with an apparent molecular weight of 20,000. Tryptic analysis shows that this protein is derived from protein D, a virus-coded component of the encephalomyocarditis RNA polymerase.
J Virol 1979 Dec
PMID:Protease required for processing picornaviral coat protein resides in the viral replicase gene. 22 66

Irradiation of purified influenza virus and vesicular stomatitis virus (VSV) with long-wavelength UV light in the presence of 4'-substituted psoralens inactivated the virion-associated RNA polymerase activity. Inactivation was apparently due to psoralen modification of the viral genome RNAs, since cations that decrease psoralen binding to nucleic acids had a protective effect, and reconstitution of VSV RNA polymerase activity was inhibited by photoreaction of nucleoprotein cores but not by pretreatment of soluble fraction from dissociated virions. Partially inactivated viral particles synthesized reduced amounts of full-length RNA products in vitro without an increase in prematurely terminated transcripts. VSV leader RNA formation was relatively resistant to psoralen photoinactivation, and sequential transcription was maintained by photoreacted VSV. The all-or-none psoralen effect on virion-associated RNA polymerase activities may be due to a differential photosensitivity of promoter sites or to structural changes in modified viral genome RNAs that prevent formation of new mRNA chains.
J Virol 1979 Dec
PMID:Inactivation of influenza and vesicular stomatitis virion RNA polymerase activities by photoreaction with 4'-substituted psoralens. 22 69

RNA polymerase I was isolated from parsley cells grown in suspension culture and from soybean hypocotyls. Kinetic studies of the enzyme revealed that RNA polymerase I is an allosteric regulated enzyme. The enzyme activity was influenced by nucleoside triphosphates (NTP) and divalent cations. NTP exceeding a 1:1 ratio of these two components acted as allosteric inhibitors, contrary to free divalent cations, which had promotive effects on the RNA polymerase I. Furthermore, isolated nuclei from parsley exhibited a powerful nucleoside triphosphatase (NTPase) activity. Contrary to RNA polymerase I, this enzyme was stimulated by NTP exceeding the 1:1 ratio of NTP and divalent cations. Free divalent cations had an inhibitory effect. Assuming that a causal connection of these two processes does exist, a possible role of this NTPase would be the control of NTP pools in relation to divalent cations and thus regulating RNA synthesis.
Nucleic Acids Res 1979 Dec 11
PMID:RNA polymerase I from higher plants. Evidence for allosteric regulation and interaction with a nuclear phosphatase activity controlled NTP pool. 23 67

Genomic Xenopus borealis oocyte-specific 5S DNA (Xbo) contains clusters of 5S rRNA genes. The number of genes varies among clusters, and the distance between genes within a cluster is about 80 nucleotides. The spacer DNA between gene clusters is AT-rich and heterogeneous in length due in part to variable numbers of a tandemly repeated 21 nucleotide sequence. A cloned fragment of Xbo 5S DNA (Xbo1) containing three 5S rRNA genes has been sequenced. The sequences of Xbo1 genes 1 and 2 are very similar to the dominant 5S RNA sequence, whereas 15 of the 120 residues in the third gene are different. The sequence of gene 3 is as different from the dominant gene sequence as the X. laevis pseudogene is from the 5S RNA gene. Sequence analysis of genomic DNA shows that gene 3 is an abundant component of the multigene family. All three genes are transcribed when added to an extract of X. laevis oocyte nuclei, and a fragment of Xbo1 lacking the AT-rich spacer DNA and the 5' end of the first gene supports transcription of genes 2 and 3 in this in vitro system. Thus the 80 nucleotides preceding each 5S gene are sufficient for promoter function. Nucleic acid sequences preceding several eucaryotic genes that are transcribed by RNA polymerase III were analyzed and the following common features were found: a purine-rich region; at least one direct repeat; the absence of dyad symmetry; transcription beginning with a purine; a pyrimidine residue immediately preceding the first nucleotide of the gene; and the oligonucleotides AAAAG, AGAAG and GAC, located approximately 15, 25 and 35 nucleotides, respectively, before the start of transcription. The 10 base pair (bp) spacing between the homologous oligonucleotides is that expected for a recognition signal on one face of a DNA double helix. The extensive sequence differences between most of the spacers that precedes these genes make the three conserved oligonucleotides more striking. Parts of the 5' flanking regions of the three Xbo1 gene (-12 to -40), which include the conserved oligonucleotides, are identical. In contrast, 7 of the first 11 nucleotides that precede the third 5S RNA gene in Xbo1 differ from those that precede the first gene. The sequences following the X. borealis oocyte and somatic 5S genes are identical in 12 of the first 14 residues and contain two or more T clusters, as does the corresponding region of X. laevis oocyte 5S DNA. The 3' sequences of the Xenopus 5S rRNA genes and several other eucaryotic genes contain features in common with procaryotic transcription termination sites. The 3' end of the gene is GC-rich and contains a dyad symmetry. Termination occurs in an AT-rich region containing one or more T clusters on the noncoding strand.
Cell 1978 Dec
PMID:Nucleotide sequence of Xenopus borealis oocyte 5S DNA: comparison of sequences that flank several related eucaryotic genes. 26 40

Initiation of T4 late RNA synthesis has been achieved in an in vitro system prepared from Escherichia coli cells infected with wild-type or maturation-defective mutant T4 phage. The system uses a cellophane membrane as a mechanical support for concentrated cell lysates and for added streptolydigin-resistant RNA polymerases. Transcriptional activity and selectivity of added RNA polymerases are tested while endogenous RNA polymerase activity is inhibited by streptolydigin. T4-modified RNA polymerase is required for substantial stimulation of T4 late RNA synthesis.
Proc Natl Acad Sci U S A 1977 Dec
PMID:Phage T4-modified RNA polymerase transcribes T4 late genes in vitro. 27 54

Mammalian cells are known to synthesize DNA in discrete stages, the first of which seems to be the formation of DNA pieces 150--200 nucleotides in length that have a s20 value of about 4 S. We have reconstructed a system derived from HeLa cell nuclei that carries out RNA-primed initiation of the synthesis of small (4S) DNA fragments. This synthesis is resistant to high concentrations of alpha-amanitin and sensitive to antibody directed against RNA polymerase I, suggesting that this enzyme may be involved in the initiation step. The formation of small DNA fragments in this system also requires DNA polymerase alpha, heat-labile nuclear factor(s), and at least one other nuclear protein.
Proc Natl Acad Sci U S A 1978 Dec
PMID:Initiation of HeLa cell DNA synthesis in a subnuclear system. 28 14

The influence of cortisol and prolactin on casein gene expression in the mammary gland of lactating BALB/c mice was measured by using a specific cDNA probe to 15S casein mRNA (cDNAcsn). Casein mRNA (mRNAcsn) level in the mammary gland was decreased by 85% 5 days after adrenal ablation, but then was increased 4.4-fold 12 hr after a single injection of hydrocortisone-21-acetate. An 80% decrease in serum prolactin level, induced by the prolactin inhibitor 2-bromo-alpha-ergocryptin (CB-154), did not alter the level of mRNAcsn in the gland. Specific transcription of the casein gene in nuclei isolated from lactating mammary glands was measured by cDNAcsn hybridization to the in vitro synthesized Hg-CTP-containing RNA (Hg-RNA), which was purified by SH-agarose chromatography. The level of the mRNAcsn in Hg-RNA synthesized in the isolated nuclei was 0.09% and this was decreased 85% by alpha-amanitin, indicating that the mRNAcsn sequences in the Hg-RNA were the products of RNA polymerase II-directed DNA-dependent RNA synthesis. Transcription of the mRNAcsn in isolated nuclei was decreased by 70% 5 days after adrenalectomy and a single injection of the glucocorticoid then increased the transcription level 2-fold at 6 hr. Essentially no alteration of the level of transcription was detectable in mammary nuclei isolated from lactating mice with 80% decreased serum prolactin level, induced by CB-154 treatment. The results thus demonstrate a glucocorticoid involvement on the modulation of casein gene expression at the transcriptional level of control.
Proc Natl Acad Sci U S A 1979 Dec
PMID:Glucocorticoid modulation of casein gene transcription in mouse mammary gland. 29 34

In liver mitochondria from alloxan diabetic rats the biosynthesis of RNA (as measured by 14C-orotic acid incorporation and RNA polymerase activity) and protein (as measured by 14C-leucine incorporation) were decreased. In contrast, insulin (20 U kg-1) injected to intact or diabetic rats increased both these measures. However, no change of mitochondrial DNA biosynthesis (as measured by incorporation of 3H-thymidine) was found. It was concluded that in liver cells insulin plays an important role in regulation of biosynthesis not only of nuclear (cytoplasmic) but also of mitochondrial RNA and proteins.
Endocrinol Exp 1978 Dec
PMID:Effect of insulin on RNA and protein biosynthesis in liver mitochondria from normal and alloxan diabetic rats. 31 94

Functionally equivalent subunits of RNA polymerase from Micrococcus luteus and Escherichia coli differ from each other in many molecular and antigenic properties. In spite of these differences, subunit alpha from E. coli and subunit beta from M. luteus form a complex alpha2beta, when incubated together. This complex binds rifampicin tightly, which the isolated subunits do not. The hybrid complex is very similar in its properties to the complex alpha2beta formed only from E. coli or M. luteus subunits. Since the sub-assembly alpha2beta from E. coli is reported to be an obligatory intermediate in the assembly process of complete RNA polymerase, the newly described hybrid sub-assembly may function similarly as an intermediate in the formation of the hybrid form of RNA polymerase described earlier.
Hoppe Seylers Z Physiol Chem 1977 Dec
PMID:Formation of a RNA polymerase sub-assembly composed of subunit alpha from Escherichia coli and of subunit beta from Micrococcus luteus. 33 61

The "host shutoff" function of bacteriophage T7 involves an inactivation of the host Escherichia coli RNA polymerase by an inhibitor protein bound to the enzyme. When this inhibitor protein, termed I protein, was removed from the inactive RNA polymerase complex prepared from T7-infected cells by glycerol gradient centrifugation in the presence of 1 M KCl, the enzyme recovered its activity equivalent to about 70 to 80% of the activity of the enzyme from uninfected cells. Analysis of the activity of E. coli RNA polymerase from E. coli cells infected with various T7 mutant phages indicated that the T7 gene 2 codes for the inhibitor I protein. The activity of E. coli RNA polymerase from gene 2 mutant phage-infected cells, which was about 70% of that from uninfected cells, did not increase after glycerol gradient centrifugation in the presence of 1 M KCl, indicating that the salt-removable inhibitor was not present with the enzyme. It was found that the reduction in E. coli RNA polymerase activity in cells infected with T7(+) or gene 2 mutant phage, i.e., about 70% of the activity of the enzyme compared to that from uninfected cells after glycerol gradient centrifugation in the presence of 1 M KCl, results from the function of T7 gene 0.7. E. coli RNA polymerase from gene 0.7 mutant phage-infected cells was inactive but recovered a full activity equivalent to that from uninfected cells after removal of the inhibitor I protein with 1 M KCl. E. coli RNA polymerase from the cells infected with newly constructed mutant phages having mutations in both gene 2 and gene 0.7 retained the full activity equivalent to that from uninfected cells with or without treatment of the enzyme with 1 M KCl. From these results, we conclude that both gene 2 and gene 0.7 of T7 are involved in accomplishing complete shutoff of the host E. coli RNA polymerase activity in T7 infection.
J Virol 1977 Dec
PMID:"Host shutoff" function of bacteriophage T7: involvement of T7 gene 2 and gene 0.7 in the inactivation of Escherichia coli RNA polymerase. 33 32

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