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)

P3-[(2,4-Dinitrophenyl)amino]ethyl (DNPNHEt) and P3-methyl phosphate esters of nucleoside 5'-triphosphates have been synthesized. Their properties as substrates in the initiation and elongation steps of transcription have been examined by using RNA polymerase from Escherichia coli and poly[d(A-T)] or T7 DNA as templates. It is shown that transcription can be initiated by ATP-EtNHDNP and that 2,4-dinitrophenyl residues are incorporated at the 5' end of the RNA molecules. Steady-state kinetic experiments of abortive initation on promoters A1 and A3 of T7 DNA revealed that ATP-EtNHDNP, ADP-EtNHDNP, and ATP-OCH3 have lower Km values and markedly reduced Vmax values compared to those of ATP. The two classes of esters, NTR-EtNHDNP and NTP-OCH3, were found to differ regarding their utilization as substrates for elongation. Both ATP-OCH3 and UTP-OCH3 are substrates for transcription. However, only the pyrimidine derivatives of NTP-EtNHDNP are elongation substrates which release DNPNHEt-PP upon utilization. This dramatic difference between the purine and pyrimidine derivatives of NTP-EtNHDNP reflects a selective process in the transcriptional complex for purines and pyrimidines.
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PMID:Properties of P3 esters of nucleoside triphosphates as substrates for RNA polymerase from Escherichia coli. 702 6

The template specificity of DNA-dependent RNA polymerases I and II (ribonucleoside 5'-triphosphate : RNA nucleotidyltransferase [EC 2.7.7.6]) of Dictyostelium discoideum was investigated with several synthetic polynucleotides at three different stages of development. Both the enzymes exhibited several common characteristics for some templates, and distinctly different properties for other ones. Of single-stranded homopolymers, the strands of pyrimidine nucleotides were much transcribed in the order of poly(dC) greater than poly(dT). The double-stranded homopolymers, poly(dA). poly(dT)) and poly(dG).poly(dC) were transcribed asymmetrically, the pyrimidine-containing strand being preferentially read. Transcription of double-stranded alternating copolymers, poly([d(A-T)].poly[d(A-T)] and poly[d(G-C)].poly[d(g-C)] occurred to some extent. Except for poly(rC), all of the single-stranded ribonucleotide homopolymers were extremely poor as templates. The polynucleotides containing thymidine were more efficient templates for polymerase I than polymerase II. The enzyme activities of the two polymerases were more or less variable with some polynucleotides among three stages of development, suggesting the possibility that D. discoideum RNA polymerases tend to change their template specificity during development.
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PMID:Template specificity of DNA-dependent RNA polymerase I and II for synthetic polynucleotides during development of the cellular slime mold Dictyostelium discoideum. 739 Sep 95

The self-sustained sequence replication (3SR) reaction is an extremely efficient method for amplifying target DNA and RNA sequences that may be present in minute quantities. A serious problem often encountered in its practice is carryover contamination from products of previous 3SR reactions. A postamplification treatment of 3SR reaction products with the photoactive agent 4'-aminomethyl-4,5-dimethylisopsoralen (IP-10) was investigated as an approach for preventing carryover contamination by 3SR amplicons. Initially, inhibition of the amplification reaction by high concentrations of the reagent was observed. This problem was circumvented by developing a gel-based delivery of IP-10, and the method was found to provide highly efficient sterilization (approximately 10(6)-fold) of 3SR amplicons. Evaluation of this strategy on a number of 3SR targets has indicated that the degree of sterilization is dependent on the length of the amplified region and on the concentration of IP-10. It appears that the sterilization effect is caused by covalent modification of the pyrimidine bases of RNA and DNA, which renders them unusable as templates for the 3SR reaction. Modification of a purified RNA transcript with IP-10 was shown to prevent effectively reverse transcription by avian myeloblastosis virus reverse transcriptase (AMV RT). Similarly, treatment of a T7 RNA polymerase promoter-containing DNA template with IP-10 eliminated full-length transcription by T7 RNA polymerase. This isopsoralen method may be used to sterilize multiple 3SR reactions in a clinical assay with a convenient UV irradiation step.
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PMID:Photochemical sterilization of 3SR reactions. 750 79

Previous studies have demonstrated transcription-coupled DNA repair in mammalian genes transcribed by RNA polymerase II but not in ribosomal RNA genes (rDNA), which are transcribed by RNA polymerase I. The removal of UV-induced cyclobutane pyrimidine dimers (CPD) from rDNA in repair-proficient human cells has been shown to be slow but detectable and apparently not coupled to transcription. We studied the induction and removal of CPD from rDNA in cultured cells from two repair-deficient human disorders. Primary xeroderma pigmentosum complementation group C (XP-C) cells, whether proliferating or nondividing, removed no CPD from either rDNA strand in 24 h post-UV, a result which supports earlier conclusions that XP-C cells lack the general, transcription-independent pathway of nucleotide excision repair. We also observed lower than normal repair of rDNA in Cockayne's syndrome (CS) cells from complementation groups A and B. In agreement with previous findings, the repair of both strands of the RNA polymerase II-transcribed dihydrofolate reductase gene was also deficient relative to that of normal cells. This strongly suggests that the defect in CS cells is not limited to a deficiency in a transcription-repair coupling factor. Rather, the defect may interfere with the ability of repair proteins to gain access to all expressed genes.
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PMID:Repair in ribosomal RNA genes is deficient in xeroderma pigmentosum group C and in Cockayne's syndrome cells. 751 88

In addition to the well-known internal promoter elements of tRNA genes, 5' flanking sequences can also influence the efficiency of transcription by Saccharomyces cerevisiae extracts in vitro. A consensus sequence of yeast tRNA genes in the vicinity of the transcriptional start site can be derived. To determine whether the activity of this region can be attributed to particular sequence features we studied in vitro mutants of the start site region. We found that the start site can be shifted, but only to a limited extent, by moving the conserved sequence element. We found that both a pyrimidine-purine motif (with transcription initiating at the purine) and a small T:A base pair block upstream are important for efficient transcription in vitro. Thus the sequence surrounding the start site of transcription of the yeast tRNA(Leu3) gene does play a role in determining transcription efficiency and fixing the precise site of initiation by RNA polymerase III.
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PMID:Mutational analysis of the transcription start site of the yeast tRNA(Leu3) gene. 765 14

The effect of triplex-forming oligonucleotides (TFO) on the transcription activity of T7 RNA polymerase has been investigated by an in vitro assay. The TFOs, either containing only phosphate (PO2) or phosphate and phosphorothioate (POS) internucleotide linkages, were targeted to a 30-bp homopurine. homopyrimidine (R.Y) site cloned in plasmid Bluescript KS+ about four helical turns downstream from the T7 RNA promoter. Band-shift and ultraviolet absorption melting experiments showed that the designed pyrimidine PO2 and POS TFOs form stable triple-helical complexes with the R.Y target duplex (the delta GTFO values of triplex formation vary from -42 to -63 kJ/mol). The triple-helical complexes resulting from POS oligonucleotides were less stable (by 4-12 kJ/mol) than those obtained with PO2 analogues, the magnitude of destabilization being dependent on the number of POS groups present in the third strand. The designed TFOs were shown to efficiently repress bacteriophage T7 RNA polymerase transcription under different experimental conditions. The repression depended on pH, TFO concentration and temperature. When the TFO/template ratio was fixed to 100, a strong repressive effect was observed with normal and phosphorothioate pyrimidine TFOs, also under physiological conditions. In contrast, a purine-rich oligonucleotide containing 44% of guanine residues promoted only a weak transcription inhibition, even at a TFO/template ratio as high as 750. Both PO2- and POS-containing pyrimidine TFOs produced their strong repressive effect on T7 RNA polymerase transcription even when they were added to the reaction mixture simultaneously with the polymerase. A mechanism of transcription repression is discussed. The data reported in this paper are useful for designing oligonucleotides acting as artificial repressors in the antigene strategy and indicate that the R.Y target need not to be precisely confined to the promoter.
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PMID:Inhibition of T7 RNA polymerase transcription by phosphate and phosphorothioate triplex-forming oligonucleotides targeted to a R.Y site downstream from the promoter. 781 72

N-Substituted indan-1.3-diones have proven to be potent cytotoxic agents effective against the growth of single cell leukemia tumors and cell lines derived from solid tumors. A number of the derivatives were active against growth of solid tumors e.g. colon, lung bronchogenic and osteosarcoma for which few effective agents are available to inhibit their growth. These agents inhibited DNA and RNA synthesis of L1210 cells. The de novo purine synthetic pathway was inhibited at PRPP amido transferase and IMP dehydrogenase. The pyrimidine synthetic pathway was inhibited at aspartate transcarbamylase. Other sites which demonstrate minor inhibition were DNA polymerase alpha, r- and t-RNA polymerase, ribonucleoside reductase, dihydrofolate reductase, nucleoside kinases and thymidylate synthetase. In addition d(NTP) pool levels were reduced by the drugs. L1210 DNA strand scission was evident after exposure to drugs for 24 hr. at 100 microM.
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PMID:Cytotoxicity and mode of action of substituted indan-1, 3-diones in murine and human tissue cultured cells. 784 49

Ultraviolet (UV) mutagenesis in a plasmid-borne Saccharomyces cerevisiae tRNA gene (SUP4-o) occurs preferentially at sites where the pyrimidine in the base pair is part of a dipyrimidine sequence on the transcribed strand. In this study, we examined whether excision repair, or strand identity with respect to DNA replication, influences this strand bias. The specificity of UV mutagenesis was determined for a wild type (RAD) strain and an isogenic excision repair-deficient (rad1) derivative, each carrying SUP4-o on the vector YCpMP2, or another vector (YCpJA1) that differed only in the orientation of SUP4-o with respect to a unique origin of replication. Most (> or = 90%) of the SUP4-o mutations induced by UV in these strains were single base pair substitutions, predominantly (> 87%) transitions. The rad1 defect and inversion of SUP4-o in the RAD strain eliminated the strand preference, whereas inversion of SUP4-o in the rad1 strain caused it to reappear. Both conditions also altered the distribution of frequently mutated sites and the relative fraction of transitions at TT sequences. These results suggest that excision repair and gene orientation can be important determinants for the strand and site specificities of UV mutagenesis in SUP4-o on YCpMP2 and YCpJA1. We consider several possible explanations for our observations, including potential roles for transcription by RNA polymerase II, sequence context effects on the efficiency of excision repair, and inherent differences in strand mutability or translesion synthesis by the leading and lagging strand DNA replication complexes.
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PMID:Excision repair and gene orientation modulate the strand specificity of UV mutagenesis in a plasmid-borne yeast tRNA gene. 787 22

Escherichia coli RNA polymerase has two sites, the i and i + 1, for the binding of the first two substrates. The i site is template- and Mg(2+)-independent and purine-nucleotide-specific, whereas the i + 1 site is template- and Mg(2+)-dependent and shows no nucleotide preference. The specificity of the i site for purine nucleotides is well in accord with the fact that most promoters initiate with a purine nucleotide. But there are a few promoters that initiate with a pyrimidine nucleotide. Dinucleotide synthesis at these promoters is completely inhibited by rifampicin. Earlier studies have failed to identify an i site for pyrimidine nucleotides. In this paper, using a fluorescent analog of UTP, namely uridine 5'-[gamma-(5-sulfonic acid)naphthylamidate]-triphosphate, abbreviated as UTP[AmNS], we are able to show its binding to RNA polymerase, with a Kd of 0.8 microM, in the absence of Mg2+ and template. This suggests the presence of an i pyrimidine nucleotide site. The fact that UTP-[AmNS] is capable of initiating RNA synthesis from the i site is further evidenced by the abortive transcription analyses at the lac promoter. Fluorescence titration studies performed in the presence and absence of purine initiator molecules indicate that this site is different from the i purine site. Scatchard analysis of the above data indicates the presence of a single binding site for UTP[AmNS] in the absence of Mg2+. Moreover UTP[AmNS] binds to the core enzyme with a Kd of 3.0 microM implying that, unlike the i purine nucleotide site, the sigma protein confers a tighter binding of UTP-[AmNS] to the low-Kd site. Forster's energy transfer measurements using UTP[AmNS] as the donor and rifampicin as the acceptor have been used for estimation of the distance of the i pyrimidine nucleotide site from the rifampicin site. From these measurements, we infer that there is no direct interference of rifampicin with the first phosphodiester bond between two pyrimidine nucleotides.
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PMID:Evidence for a pyrimidine-nucleotide-specific initiation site (the i site) on Escherichia coli RNA polymerase. Proximity relationship with the inhibitor binding domain. 795 89

The effects of single base pair substitutions at the initiation sites of lacUV5 promoter on the transcription start site selection by E. coli RNA polymerase were systematically studied. Transcription start sites were mapped by sizing the cytosine-specifically terminated transcripts produced in vitro by using a chain terminator 3'-deoxycytidine 5'-triphosphate (3'-dCTP) in transcription reactions. Transcription of a prototype lacUV5 promoter initiated with three purines (-1G, +1A and +2A; +1 representing the predominant start site) located 6-8 bp downstream from the Pribnow box. All the substitutions affected the start site selection, resulting in a change in the number of start sites (from 3 to 2 or 1) and/or a shift of the major start site (to -1 or +2). None of the variants started outside the 3-bp region and at the positions substituted by a pyrimidine. Purine-to-pyrimidine changes suppressed not only initiation at the substituted position but also, in some cases, at the other purine position. Purine-to-purine changes also shifted the major start site or suppressed the initiation at other sites. Changes at -2 and +5 also affected the start site selection. Thus, the sequence context around the initiation sites of lacUV5 promoter strongly influences the selection of initiating nucleotides by E. coli RNA polymerase.
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PMID:Start site selection at lacUV5 promoter affected by the sequence context around the initiation sites. 798 16


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