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)

During chain elongation RNA polymerase exists as a ternary DNA-enzyme-RNA complex in which a discrete length of the nascent RNA chain proximal to the 3'-OH terminus will be bound to the product binding site (Krakow, J. S., and Fronk, E. (1969) J. Biol. Chem. 244, 5988). We have utilized the poly[d(A-T)]-directed reaction to determine the length of the nascent poly[r(A-U)] protected from attack by pancreatic ribonuclease. Following release of the ribonuclease resistant oligo[r(A-U)] from the ternary complex, its size was determined by ion exchange chromatography on DEAE-cellulose, gel filtration on Bio-Gel P-10, and the ratio of 3'-terminal uridine to internal 2':3'-UMP following alkaline hydrolysis. The results indicate that the length of the nascent protected fragment is approximately 12 residues.
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PMID:Studies on the product binding sites of the Azotobacter vinelandii ribonucleic acid polymerase. 112 30

Full-length and 5'-truncated variants of human (h) tRNA(UUULys3) were synthesized by in vitro transcription using SP6 RNA polymerase. Bovine(b) tRNA(SUULys3) was purified from calf liver. Both full-length tRNA species were shown to be biologically active in an aminoacylation assay. Gel retardation assays revealed that both full-length tRNA species, as well as a 5'-truncated h-tRNA(UUULys3) molecule containing 24 nucleotides (nt) at the 3' end (Lys24), interact with human immunodeficiency virus (HIV)-1 reverse transcriptase (RT). Competition studies with these three tRNA species demonstrate that the 3' end of h-tRNA(UUULys3) contributes to the interaction with HIV-1 RT. Escherichia coli tRNA(UUULys) and tRNA(UUCGlu2) were also able to interact with the enzyme, whereas unrelated RNA molecules such as E. coli 5S rRNA did not bind to RT. Both b-tRNA(SUULys3) and h-tRNA(UUULys3) molecules, as well as the 5'-truncated variants, could be demonstrated to prime cDNA synthesis specifically using a HIV-1 RNA template, prepared by in vitro transcription, indicating that other viral or cellular proteins are not essential for this process. E. coli tRNA(UUULys) and tRNA(UUCGlu2), although able to interact with HIV-1 RT, failed to prime retroviral transcription. Products of cDNA synthesis were characterized by polymerase chain reaction, demonstrating that at least 18 nt at the 3' ends of h-tRNA(UUULys3) and b-tRNA(SUULys3) are still present in the cDNA product, whereas the 5' ends of both primer molecules were removed by the RNase H activity of HIV-1 RT.
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PMID:Synthetic human tRNA(UUULys3) and natural bovine tRNA(UUULys3) interact with HIV-1 reverse transcriptase and serve as specific primers for retroviral cDNA synthesis. 137 59

2'-Fluoro- and 2'-amino-2'-deoxynucleoside 5'-triphosphates have been investigated as substrates for T7 RNA polymerase. Michaelis-Menten kinetic parameters are reported for the incorporation of 2'-fluoro-2'-deoxyuridine, 2'-fluoro-2'-deoxycytidine, and 2'-amino-2'-deoxyuridine into runoff transcripts. The 2'-amino derivative of uridine is a better substrate than the 2'-fluoro derivative. Gel electrophoretic analysis shows that full-length transcripts with a length of 2500 nucleotides can be obtained with the analogues, although a considerable amount of shorter fragments accompanies the full-length product. In keeping with the kinetic analysis, the 2'-aminouridine triphosphate gives a cleaner product than the 2'-fluoro analogue. Transcription of two tRNA genes shows that such shorter templates can be transcribed to full-length products essentially without premature termination with any of the analogues.
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PMID:2'-Fluoro- and 2'-amino-2'-deoxynucleoside 5'-triphosphates as substrates for T7 RNA polymerase. 139 Jul 41

Escherichia coli MelR protein binds to two sites located upstream of the melAB transcription start site. Although both sites are required for optimal melibiose-dependent expression from the melAB promoter, some MelR-dependent expression is found if the upstream site is deleted or if the spacing between the two sites is altered. Gel retardation assays have been exploited to study MelR binding to a DNA fragment carrying just the upstream site. Methylation interference analysis was used to identify one guanine (at -104) which is important for MelR binding. Mutational analysis confirmed the importance of this base and revealed a second position (at -110) where mutations interfere with melAB promoter activity. Experiments using potassium permanganate as a probe suggested that the DNA sequence around -110 adopts a distorted conformation. We propose that the mutation at -104 alters MelR binding by interfering with a direct contact, whereas the mutation at -110 primarily affects DNA conformation. The binding of purified MelR protein to a melAB promoter fragment carrying both binding sites has also been studied: binding results in four retarded bands in gel assays. Methylation interference experiments have been exploited to identify the binding sites occupied in each complex. Although both binding sites share a common 18 bp sequence, MelR binding to the more upstream site is stronger. We could find no evidence for co-operative interactions between MelR and RNA polymerase and no major effects of melibiose. Some evidence for melibiose-dependent distortion in complexes between MelR and the melAB promoter is discussed.
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PMID:Studies on the binding of the Escherichia coli MelR transcription activator protein to operator sequences at the MelAB promoter. 144 8

The xylR and xylS genes, which encode the positive regulators of the TOL plasmid catabolic pathways, are adjacent genes on the TOL plasmid and are transcribed from divergent promoters. Transcription from the xylS gene promoter, Ps, is positively regulated by effector-activated XylR protein and requires the specific RNA polymerase sigma 54 subunit (RpoN). Deletions and point mutations in the Ps upstream region localized the site of XylR interaction to the region between -133 bp and -207 bp (with respect to the transcriptional start of the xylS messenger), which contains an inverted sequence repeat largely homologous to the motif recognised by XylR in the XylR-regulated 'upper' catabolic pathway promoter, Pu. Gel retardation experiments showed binding of IHF to the Ps promoter region. Corresponding sequences showing good homology to the IHF-binding consensus were identified close to the Ps Promoter (between -35 bp and -47 bp, Ps proximal site) and further upstream overlapping the XylR recognition sequence (Ps distal site). In the latter case IHF recognition motifs were found well conserved on both strands at nearly the same position (between -140 bp and -152 bp on the upper and between -141 bp and -153 bp on the lower strand). Expression from Ps, either under inducing or non-inducing conditions, was, however, only slightly influenced by the absence of IHF in an IHF-deficient mutant and thus activation of Ps, like that of other sigma 54-dependent promoters which are rich in Ts, does not absolutely require IHF protein.
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PMID:Upstream binding sequences of the XylR activator protein and integration host factor in the xylS gene promoter region of the Pseudomonas TOL plasmid. 157 69

Several diagnostic differences that distinguish human Alu subfamilies are clustered just downstream from the B box of the RNA polymerase III promoter; we tentatively refer to this diagnostic region as the DB box. Assuming that this region might determine the relative transcriptional activity of Alu subfamilies, we examined the interaction of nuclear proteins with DB box sequences representing different Alu subfamilies. Gel mobility shift assays suggest the existence of two factors which discriminate among the DB boxes of different Alu subfamilies: 1) An abundant, ca. 50 kd, protein binds more stably to a young 'PV' Alu subfamily (PVS) than to the older major subfamily (MS). 2) Methylation of CpG dinucleotides stimulates the binding of a less abundant, ca. 70 kd, protein to the DB boxes of younger Alu subfamilies.
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PMID:Differential binding of human nuclear proteins to Alu subfamilies. 162 May 88

The rat gastric H+/K(+)-ATPase beta subunit gene was cloned, and its nucleotide sequence was determined. The coding region is separated by 6 introns, whereas the related human Na+/K(+)-ATPase beta subunit gene was shown to have 5 introns (Lane, L.K., Shull, M.M., Whitmer, K.R., and Lingrel, J.B. (1989) Genomics 5, 445-453). The positions of introns 1, 2, and 5 of the two genes were the same. The similarities in intron/exon organizations and primary structures (30-40% identical residues) suggest that the beta subunit genes for H+/K(+)-ATPases were derived from a common ancestor. The upstream region of the rat H+/K(+)-ATPase beta subunit gene contains direct repeat sequences and palindromes, potential binding sites for RNA polymerase II and E4TF1, and CACCC box sequences. Gel retardation assay demonstrated that the stomach, but not other tissues (liver, brain, kidney, spleen, and lung), has a nuclear protein(s) capable of binding to the regions upstream of the potential RNA polymerase II binding sites (TATA box). The nuclear protein(s) are suggested to recognize three tandem GATAGC sequences and may be important for controlled transcription of the H+/K(+)-ATPase beta subunit gene in gastric parietal cells.
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PMID:The rat H+/K(+)-ATPase beta subunit gene and recognition of its control region by gastric DNA binding protein. 165 72

Poly(rA).oligo(dT)n binding to human immunodeficiency virus type-1 reverse transcriptase heterodimer (p66-p51) was primer length-dependent. The estimated Kd for (n = 10-14) was 20-30 nM and for (n = 16-20) was 0.11-0.14 nM. Gel electrophoretic analysis of the patterns of primer extension was consistent with an abrupt change in the Kd between a primer length of 14 and 16 nucleotides. Further, the rate constant for dissociation of the reverse transcriptase-template-primer complex was determined from steady state kinetics and enzyme-template-primer trapping experiments to be independent of primer length. Thus, the abrupt change in Kd was most likely due to a change in the rate constant for formation of the reverse transcriptase-template-primer complex. A similar shift in the Kd for template-primer binding was observed with poly(dA).oligo(dT)n. Reverse transcriptase homodimer (p66) catalyzed the incorporation of dTMP into poly(rA).oligo(dT)n with the same primer length dependence observed for the heterodimer. In contrast, binding of the p51 homodimer to poly(rA).oligo(dT)n was independent of primer length. Thus, the RNase H domain may contribute to reverse transcriptase heterodimer or p66 homodimer binding to template-primers in which the primer length is greater than 14 nucleotides.
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PMID:Human immunodeficiency virus reverse transcriptase. Effect of primer length on template-primer binding. 171 16

We have identified a component of the eukaryotic RNA polymerase II transcriptional machinery that is more heat-labile than TFIID. DHFR transcriptional activity was severely reduced in 40 degrees C heat-treated extracts in which TFIID was fully active. This heat-labile activity was required for the transcription of both TATA box and non-TATA box promoters that are activated by the transcription factor Sp1. Gel mobility shifts indicated that Sp1 DNA binding activity was heat-labile, and the addition of purified Sp1 to 40 degrees C heat-treated extracts fully restored DHFR transcriptional activity. In contrast, the addition of Sp1 to 47 degrees C heat-treated extract did not result in transcriptional activity from the DHFR promoter. We conclude that reduction in Sp1 DNA binding activity is partially responsible for the heat-sensitive loss of DHFR transcriptional activity, but that a second essential activity is also inactivated by 47 degrees C heat-treatment. The discovery of this heat-labile component of Sp1 activation has two important implications in the analysis of transcriptional regulation. First, it demonstrates that heat-treated extracts are not appropriate for examination of the involvement of TFIID in the transcription of Sp1-activated promoters. Second, it explains the previously reported low-temperature optima for transcription from the DHFR promoter and demonstrates that transcriptional studies of Sp1-activated promoters should not be performed at 30 degrees C.
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PMID:Sp1 activation of RNA polymerase II transcription complexes involves a heat-labile DNA-binding component. 182 Feb 11

We demonstrate that RNA polymerase bound at the PR promoter of bacteriophage lambda can repress transcription initiation from the divergently transcribed PRM promoter in vitro. Using abortive initiation and run-off transcription experiments we show that inactivating mutations introduced into either the -10 or -35 regions of PR result in a significant increase in the rate of formation of transcriptionally competent complexes at the PRM promoter. This is due primarily to an increase in the rate constant for the isomerization of closed to open complexes. Gel shift and DNase I footprinting experiments were employed to further define the mechanism by which PR sequences mediate PRM repression. From these assays we were able to conclude that the formation of an open complex at the PR promoter did not exclude RNA polymerase from binding at PRM. Rather, initiation at PRM was impaired because closed complexes must isomerize in the presence of an open complex already situated at the PR promoter. Extensive evidence has been obtained previously indicating that lambda repressor activates transcription directly by contacting RNA polymerase situated at the PRM promoter. Results presented here raise the possibility that an additional mechanism could be operative, whereby lambda repressor indirectly activates PRM transcription by excluding RNA polymerase from the PR promoter.
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PMID:RNA polymerase bound to the PR promoter of bacteriophage lambda inhibits open complex formation at the divergently transcribed PRM promoter. Implications for an indirect mechanism of transcriptional activation by lambda repressor. 183 35


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