Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Bleomycin (BLM) exclusively affects thymidine-containing compounds such as DNA and polydeoxyribonucleotides by releasing free thymine and leaving aldehyde functions. Molecular morphology and base sequence of the DNA strongly influence BLM activity. High BLM concentrations, besides modifying DNA into oligothyminic or athyminic nucleic acids, cause strand scissions. Enzymatic DNA and RNA synthesis is strongly influenced by BLM. The inhibition in DNA-dependent DNA polymerase and DNA-dependent RNA polymerase assays is of the non-competitive type. Protein biosynthesis in in vitro systems is not affected by BLM even at high concentrations. BLM turns out to be a strong inhibitor of DNase I and of DNase II; the inhibition is of the competitive type. The enzymatic activities of nucleases using RNA as substrate (RNase A, RNase B, Rnase T1, venom phosphodiesterase I and spleen phosphodiesterase II) are not influenced by this antibiotic. The antibiotic reduces cell proliferation (L5178y mouse lymphoma cells) in vitro in low concentrations by cytostasis and at higher concentrations by cytotoxicity. In BLM-treated L5178y cells, DNA synthesis is strongly reduced, while RNA and protein synthesis are not affected. In vivo, using growing quail oviducts, cell proliferation and cytodifferentiation are markedly inhibited after BLM treatment. This is attributed to the observed inhibition of DNA synthesis. RNA and protein synthesis as well as gene expression are not influenced by BLM under the conditions used. The selective inhibition of DNA synthesis in vivo may be caused by the following mechanisms: (1) competition of BLM with RNA; (2) blocking of the accessibility of DNA in chromatin to BLM, and (3) dependence from the repair processes. BLM inhibits growth of sarcomas, induced by oncogenic RNA viruses in vivo; well-developed tumours show regression after BLM treatment. Transformation of chick embryo fibroblasts by oncogenic RNA viruses in vitro and growth of these viruses is blocked by BLM; the most sensitive period for BLM inhibition is the time during the first period (integration of viral genome into cellular genome?) after infection.
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PMID:Effect of bleomycin on DNA, RNA, protein, chromatin and on cell transformation by oncogenic RNA viruses. 6 69

The sequence of 129 nucleotides next to the poly(A) tail of encephalomyocarditis virus RNA has been determined by rapid gel sequencing of cDNA synthesized with DNA polymerase I or reverse transcriptase and a phasing primer, [5'-32P]p(dT)8dC. The sequence is in accord with (a) the pyrimidine tracts which were mapped in blocks along the cDNA, (B) the sequences of seven characteristic T1 RNase oligonucleotides in the RNA transcribed from the cDNA with RNA polymerase, and (c) a limited amount of sequence deduced by partial spleen phosphodiesterase digestion and depurination of endonuclease IV oligonucleotides. The 3' end shows little secondary structure on its own. Ten nonsense codons block all three reading frames such that at least 26 nucleotides do not code for protein. The possible function of a homology A-A-U-A-A-A with other polyadenylated RNAs is discussed.
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PMID:Sequence of 129 nucleotides at the 3'-terminus of encephalomyocarditis virus RNA. 7 85

Because influenza viral RNA transcription in vitro 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 the host cell, specifically by RNA polymerase II, thereby explaining the alpha-amanitin sensitivity of viral RNA transcription in vivo. Here, we identify such primer RNAs, initially in reticulocyte extracts, where they are shown to be globin mRNAs. Purified globin mRNAs very effectively stimulated viral RNA transcription in vitro, and the resulting transcripts directed the synthesis of all the nonglycosylated virus-specific proteins in micrococcal nuclease-treated L cell extracts. The viral RNA transcripts synthesized in vitro primed by ApG also directed the synthesis of the nonglycosylated virus-specific proteins, but the globin mRNA-primed transcripts were translated about 3 times more efficiently. The translation of the globin mRNA-primed, but not the ApG-primed, viral RNA transcripts was inhibited by 7-methylguanosine 5'-phosphate in the presence of S-adenosylhomocysteine, suggesting that the globin mRNA-primed transcripts contained a 5'-terminal methylated cap structure. We propose that this cap was transferred from the globin mRNA primer to the newly synthesized viral RNA transcripts, because no detectable de novo synthesis of a methylated cap occurred during globin mRNA-primed viral RNA transcription. Preliminary experiments indicate that other purified eukaryotic mRNAs also stimulate influenza viral RNA transcription in vitro.
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PMID:Globin mRNAs are primers for the transcription of influenza viral RNA in vitro. 28 99

Analysis of E.coli chromosomes isolated under conditions similar to those used for isolation of eukaryotic chromatin has shown that: 1) The proteins of highly purified E.coli deoxyribonucleoprotein are mainly in addition to RNA polymerase two specific histone-like proteins of apparent molecular weight of 17,000 and 9,000 (proteins 1 and 2, respectively). 2) Proteins 1 and 2 occur in approximately equal molar amounts in the isolated E.coli chromosome, and their relative content corresponds to one molecule of protein 1 plus one molecule of protein 2 per 150-200 base pairs of DNA. 3) There are no long stretches of naked DNA in the purified E.coli deoxyribonucleoprotein suggesting a fairly uniform distribution of the proteins 1 and 2 along DNA. 4) The protein 2 is apparently identical to the DNA-binding protein HU which was isolated previously /1/ from extracts of E.coli cells. 5) Digestion of the isolated E.coli chromosomes with staphylococcal nuclease proceeds through discrete deoxyribonucleoprotein intermediates (in particular, at approximately 120 base pairs) which contain both proteins 1 and 2. However, since no repeating multimer structure was observed so far in nuclease digests of the E.coli chromosome, it seems premature to draw definite conclusions about possible similarities between the nucleosomal organization of the eukaryotic chromatin and the E.coli chromatin structure.Images
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PMID:Histone-like proteins in the purified Escherichia coli deoxyribonucleoprotein. 33 93

Carefully controlled preparation of chromatin from purified chick liver nuclei yielded over 50% native chromatin as shown by the analysis of the nucleosome pattern after micrococcal nuclease digestion. The size of DNA in this chromatin as analyzed on alkaline sucrose gradients varied from 10S to 19S, the majority being 14S. All endogenous RNA polymerases were represented in the chromatin preparation although to different extents: RNA polymerase I was the most and RNA polymerase II the least abundant. Initiation studies showed that endogenous RNA polymerase II was capable of initiating RNA chains during 5 min. Saturation of chromatin with purified homologous RNA polymerase II increased initiation to 10 min. The addition of heparin caused the RNA transcribed to be larger in size and of increased yield. Chromatin transcription with added purified RNA polymerase II in the presence of heparin produced RNA as large as 32S. A chromatin preparation of this kind would therefore be suitable to transcribe any eukaryotic gene invitro provided additional homologous RNA polymerase II is used.Images
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PMID:Characterization of chick liver chromatin and analysis of its in vitro transcription products. 56 11

Nucleosomes (chromatin subunits) prepared by micrococcal nuclease digestion of human nuclei are similar in histone content but substantially reduced in non-histone proteins as compared to undigested chromatin. Chromatin transcription experiments indicate that the DNA in the nucleosomes is accessible to DNA-dependent RNA polymerase in vitro. The template capacities of chromatin and nucleosomes are 1.5 and 10%, respectively, relative to high molecular weight DNA, with intermediate values for oligonucleosomes. Three distinct sizes of transcripts, 150, 120 and 95 nucleotides in length, are obtained when nucleosomes are used as templates. However, when nucleosomal DNA is used as a template, the predominant size of transcripts is 150 nucleotides. When oligonucleosomes are used as templates longer transcripts are obtained. This indicates that RNA polymerase can transcribe the DNA contained in the nucleosomes.
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PMID:Transcription of nucleosomes from human chromatin. 69 25

This study compares the effects of in vitro modification of native duck reticulocyte DNA by [14C]-N-acetoxy-2-acetylaminofluorene in terms of alterations in DNA secondary structure, ability to reconstitute nucleosome structures in chromatin, and template activity for in vitro transcription. In contrast to the control native DNA, the carcinogen-modified DNA was susceptible to partial digestion by the single-strand-specific endonuclease S1. Depending on the particular conditions, for every [14C]-N-2-acetylaminofluorene residue released, about 5 to 35 base pairs of DNA were also released during the S1 nuclease digestion. Chromatin was reconstituted in vitro utilizing [14C]-N-2-acetylaminofluorene-modified DNA and unmodified chromatin-associated proteins. This reconstituted chromatin showed the same kinetics and extent of digestion by staphylococcal nuclease and similar nucleosome profiles on sucrose gradient density centrifugation as those obtained with native chromatin or chromatin reconstituted with unmodified DNA. The carcinogen-modified DNA and also chromatin reconstituted from this DNA showed, however, marked reductions in their abilities to serve as templates for transcription with Escherichia coli RNA polymerase. These results suggest that the covalent binding of N-2-acetylaminofluorene to DNA produces localized regions of denaturation in the DNA and that this is associated with a marked impairment in template activity during transcription. This modification, however, does not grossly affect the ability of the DNA to interact with chromosomal proteins to form apparently normal nucleosome structures.
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PMID:Effect of N-2-acetylaminofluorene modification on the structure and template activity of DNA and reconstituted chromatin. 83 69

A system is described in which transcription of cDNA clones by bacteriophage T7 RNA polymerase is coupled to translation in the micrococcal nuclease treated rabbit reticulocyte lysate in a single reaction of coupled transcription-translation. The monovalent and divalent cation requirements for translation are dominant for optimum expression in this coupled system, so that transcription is relatively inefficient. Nevertheless, the use of appropriate DNA concentrations leads to the synthesis of sufficient RNA to saturate the protein synthesis capacity of the system. The fidelity and efficiency of expression in this coupled system are high, and the degree of purification of the plasmid DNA is relatively uncritical. The system therefore offers very considerable advantages for rapid screening of 'mini-preparations' of cDNA plasmid constructs for retention of the correct reading frame and expression of the desired protein product.
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PMID:Plasmid cDNA-directed protein synthesis in a coupled eukaryotic in vitro transcription-translation system. 138 35

A posttranscriptional modification (C-to-U) at specific positions of plant mitochondrial mRNA leads to changes in the amino acid sequence as well as to the emergence of novel initiation or termination sites. This phenomenon, named RNA editing, has been described for several mitochondrial genes from different plant sources. We have found recently that RNA editing of the ATP synthase subunit 9 (atp9) mRNA involves eight changes including the creation of a new stop codon. In this article, we describe an in vitro system devised to follow the editing of wheat mitochondrial atp9 mRNA. Nonedited mRNA was obtained to serve as substrate for this reaction by in vitro transcription of the corresponding gene with T7 RNA polymerase. The source of conversion factor(s) was a soluble fraction obtained from purified wheat mitochondria lysed with salt and detergent. Edited RNA molecules were detected by hybridization with an end-labeled synthetic oligodeoxynucleotide probe complementary to a short region containing four editing events. Optimal conditions for the in vitro RNA editing reaction were determined. The reaction is sensitive to high temperature and protease digestion. Pretreatment with micrococcal nuclease decreased RNA editing activity in the mitochondrial extract, suggesting that a nucleic acid is necessary for the enzymatic reactions. Analysis of the edited mRNA showed that the in vitro reaction led to the same products as those observed in vivo.
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PMID:An in vitro system for the editing of ATP synthase subunit 9 mRNA using wheat mitochondrial extracts. 153 Dec 71

The transcription and replication of influenza RNA can be studied in vitro by the reconstitution of functional ribonucleoprotein (RNP) complex from viral core proteins including the RNA polymerase (complex of three P protein subunits) and nucleoprotein (NP), and model templates. Here, two different core protein preparations, one based on CsCl centrifugation (CS enzyme) and the other on micrococcal nuclease treatment of viral cores (MN enzyme), were compared side-by-side. Short model RNA templates and their 3'-half molecules of both viral RNA (vRNA) and complementary RNA (cRNA) senses were reconstituted with the core protein preparations in parallel, and RNA polymerase activity was tested either in the presence or absence of ApG or globin mRNA as primers. Both enzyme preparations were active in the syntheses of short vRNA and cRNA transcripts using ApG as a primer, although the synthesis of cRNA was 2-10-fold higher (depending on the template used) than the synthesis of vRNA. The MN enzyme, however, was more active per weight of total protein than the CS enzyme, probably because of its higher content of RNA polymerase. Both enzymes failed to show primer-independent synthesis of vRNA. The differences observed in the synthesis of short transcripts using globin mRNA as a primer are discussed.
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PMID:Comparison of two reconstituted systems for in vitro transcription and replication of influenza virus. 161 40


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