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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)

Benzo[a]pyrene, an extremely potent procarcinogen and mutagen, is metabolized to a variety of products, including the ultimate carcinogen 7,8-dihydroxy-9,10-epoxy- 7,8,9,10-tetrahydrobenzo[a]pyrene. This product of biotransformation reacts with DNA, forming a series of adducts principally at the N2 position of guanine that differ in their stereochemistry and exhibit unique biological properties. In order to gain a better understanding of the effects on RNA synthesis of these adducts, we used purified bacteriophage T7 RNA polymerase to transcribe a series of templates containing one of four stereoisomerically pure BPDE-guanine lesions--(+)-trans-,(-)-trans-,(+)-cis-anti-N2-BPDE-guanine--or no damaged bases. To construct suitable double-stranded oligodeoxynucleotides for these studies, we annealed an 11-mer containing a site-specific stereoisomerically pure N2-BPDE-guanine adduct, a 37-mer, and a 10-mer to a complementary 58-base sequence of single-stranded DNA. The oligomers were ligated, purified, and reannealed. The resulting DNA template contained the promoter for T7 RNA polymerase and a BPDE adduct at position +16 following the transcription initiation site. The results of the transcription assays clearly demonstrate that each of the adducts inhibits elongation by T7 RNA polymerase, but they do so to significantly different extents, depending on the stereochemical characteristics of the BPDE-modified guanine. The order of inhibition is (+)-trans > (-)-trans > (+)-cis > (-)-cis, when the amount of full-length transcript for each is compared to that obtained for an unmodified template. Furthermore, premature termination of RNA synthesis occurs at or near the site of the BPDE lesion as evidenced by the formation of discrete, truncated transcripts. These results might be related to the fact that the pyrenyl moiety of the trans-BPDE adducts is situated in the minor groove of double-stranded DNA, but is quasi-intercalated into the double helix in the case of the cis stereoisomers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Site-specific benzo[a]pyrene diol epoxide-DNA adducts inhibit transcription elongation by bacteriophage T7 RNA polymerase. 829 6

Nucleotide excision repair is the major DNA repair mechanism in all species tested. This repair system is the sole mechanism for removing bulky adducts from DNA, but it repairs essentially all DNA lesions, and thus, in addition to its main function, it plays a back-up role for other repair systems. In both pro- and eukaryotes nucleotide excision is accomplished by a multisubunit ATP-dependent nuclease. The excision nuclease of prokaryotes incises the eighth phosphodiester bond 5' and the fourth or fifth phosphodiester bond 3' to the modified nucleotide and thus excises a 12-13-mer. The excision nuclease of eukaryotes incises the 22nd, 23rd, or 24th phosphodiester bond 5' and the fifth phosphodiester bond 3' to the lesion and thus removes the adduct in a 27-29-mer. A transcription repair coupling factor encoded by the mfd gene in Escherichia coli and the ERCC6 gene in humans directs the excision nuclease to RNA polymerase stalled at a lesion in the transcribed strand and thus ensures preferential repair of this strand compared to the nontranscribed strand.
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PMID:Nucleotide excision repair. 839 97

The introduction of isotopically enriched nucleotides into NMR quantities of a synthetic 29-mer RNA derived from the HIV-1 TAR element is described. RNA enriched in 13C and/or 15N is produced by a procedure which involves isolation of whole cellular RNA from Escherichia coli, nucleolysis, separation of mononucleotides, chemical or enzymatic pyrophosphorylation, and in vitro transcription by T7 RNA polymerase. Spectral characteristics of each residue type are examined in isolation. 13C chemical shifts provide an alternative method to determine ribose puckers for larger RNAs. Nonprotonated sites such as purine N7 groups can now be monitored through the use of multiple-bond 1H-15N coupling. When applied conservatively, coordinate analysis of chemical shift values should prove valuable for NMR studies of RNA structure and recognition. 1H, 13C, and 15N chemical shift data suggest that TAR residue A35 has an unusual local environment, consistent with extrusion of its base from the terminal loop.
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PMID:Selective isotopic enrichment of synthetic RNA: application to the HIV-1 TAR element. 842 47

The gene encoding protein p10, a structural protein of African swine fever (ASF) virus, has been mapped, sequenced and expressed in E. coli. Protein p10 was purified from dissociated virus by reverse-phase HPLC, and its NH2-terminal end identified by automated Edman degradation. To map the gene encoding protein p10, a mixture of 20-mer oligonucleotides based upon a part of the amino acid sequence was hybridized to cloned ASF virus restriction fragments. This allowed the localization of the gene in fragment Eco RI K of the ASF virus genome. The nucleotide sequence obtained from this region revealed an open reading frame encoding 78 amino acids, with a high content of Ser and Lys residues. Several of the Ser residues are found in Ser-rich regions, which are also found in some nucleic acid-binding proteins. The gene coding for protein p10 has been inserted in an expression vector which contains the promoter for T7 RNA polymerase. The recombinant plasmid was used to produce the ASF virus protein in E. coli. The bacterially produced p10 protein shows a strong DNA binding activity with similar affinity for both double-stranded and single-stranded DNA.
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PMID:Structure and expression in E. coli of the gene coding for protein p10 of African swine fever virus. 850 90

We have developed a technique for cross-linking DNA binding proteins to DNA using psoralen furanside monoadducts as photoaffinity probes and a continuous-wave argon ion laser (366 nm) as a light source. Several DNA binding proteins (T7 RNA polymerase, UvrB, single-stranded DNA binding protein of Escherichia coli, T4 gp32, and RecA of E. coli) are shown to cross-link to single-stranded psoralen monoadducted DNA oligos differing in length and sequence. Increasing fluences of laser light on a fixed ratio of DNA/protein resulted in an increase in the yield of cross-links. Titration experiments were carried out to measure the apparent cross-linking constant (KappXL) for T7 RNA polymerase or UvrB to a monoadducted 24 mer DNA. The estimated values for the apparent cross-linking constant were in the range of (2-3) x 10(-7) M for both T7 RNA polymerase and UvrB. The efficiency of cross-linking was investigated as a function of the length of adducted DNA and also as a fraction of the total noncovalent binding of proteins of psoralenated DNAs. The results showed that in the cases of T7 RNA polymerase and UvrB cross-linking was more efficient with short oligos (8 and 19 mers) as compared to longer oligos (50 mer). A tryptic peptide of T7 RNA polymerase that was conjugated to a psoralen furanside monoadducted 12 mer DNA was isolated by high-performance liquid chromatography. Mass spectrometry and amino acid composition of this peptide revealed that it originated from a region between residues 558 and 608 of the primary structure of T7 RNA polymerase. Two other peptides cross-linked to oligos were also purified. Repeated attempts to perform Edman sequencing of the peptide-DNA conjugates failed. Overall evidence indicates that photo-cross-linking of furanside monoadducts occurred at multiple sites on the proteins. We have shown that T7 RNA polymerase molecules in a ternary complex arrested at the furanside monoadduct can be cross-linked to the DNA templates with laser light. Evidence suggests that the arrested polymerase molecules existed in multiple conformations on the DNA template. This method of transcriptional cross-linking offers a new method for preparing highly stable elongation complexes for further studies.
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PMID:Laser-induced protein-DNA cross-links via psoralen furanside monoadducts. 850 73

The DNA sequence of the genes for the androgen receptor (AR) and TATA-binding protein (TBP), like many other genes encoding transcription factors, contains a series of tandem CAG repeats. Here we explore the capacity of complementary peptide nucleic acids (PNAs) to invade the CAG triplets of the AR and TBP genes in human prostatic cancer cells and show that the PNAs readily entered the nuclei of lysolecithin-permeabilized cells and effectively inhibited sense transcription of unique AR and TBP DNA sequences downstream of the site of PNA.DNA hybridization, but not upstream of that site. These PNAs had little or no effect on transcription of the c-myc gene, which lacks a CAG triplet domain. Conversely, a PNA complementary to a unique sequence of the c-myc gene did not inhibit transcription of the AR or TBP genes but did inhibit c-myc transcription. Comparisons of PNA effects on sense and antisense transcription of the AR, TBP, and c-myc genes confirm that progression of the RNA polymerase complex beyond the site of PNA.DNA hybridization is impaired in both directions. Suppression of the AR gene results in refolding of a transcriptionally active nucleosome containing a unique 17-mer AR DNA sequence.
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PMID:Invasion of the CAG triplet repeats by a complementary peptide nucleic acid inhibits transcription of the androgen receptor and TATA-binding protein genes and correlates with refolding of an active nucleosome containing a unique AR gene sequence. 866 37

A 16-base pair oligo(purine)-oligo(pyrimidine) sequence present in the coding region of two HIV 1 proviral genes (pol and nef) was chosen as a target for triplex-forming oligonucleotides in in vitro transcription assays. Inhibition of transcription elongation was observed with triplex-forming oligonucleotide-acridine conjugates (Acr-15-TCG:5'-Acr-T4CT4G6-3' and Acr-9-TC:5'-Acr-T4CT4-3' where C is 5-methylcytosine) under conditions where the unsubstituted oligomers did not exhibit any inhibitory effect. Both SP6 bacteriophage RNA polymerase and eukaryotic RNA polymerase II were physically blocked by such a triplex barrier. The polymerase arrest is caused by the triple-helical complex involving the hydrogen-bonded oligonucleotide stabilized by the intercalated moiety and not solely by the acridine molecule specifically intercalated at the duplex-triplex junction. The stability of the triple-helical complex formed by the 15-mer containing thymines, cytosine, and guanines (15-TCG) and involving the formation of six contiguous C.GxG base triplets was strongly enhanced in the presence of a benzopyridoindole derivative (BePI), which intercalates in triplex structures. This improvement of the binding affinity led to an increased inhibition of transcription elongation. The present results demonstrate the necessity to use triplex-forming oligonucleotides with high binding affinity and a long residence time on their double-stranded target to efficiently inhibit transcription elongation. These data provide a rational basis for the optimization and the development of triplex-forming oligonucleotides as transcriptional blockers, even when they are targeted to the transcribed portion of a gene, downstream of the transcription initiation site.
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PMID:Specific inhibition of in vitro transcription elongation by triplex-forming oligonucleotide-intercalator conjugates targeted to HIV proviral DNA. 875 10

We describe a novel method of photo-cross-linking DNA-binding proteins to DNA employing psoralen as a tether. We apply this method for the interaction of T7 RNA polymerase to its promoter. The crystallographic model of T7 RNA polymerase shows a cleft formed by the palm, thumb, and fingers domains. It was proposed that template DNA binds in the cleft. Here we directly and positively identify, in solution, the cleft as the seat of template binding. We photo-cross-linked a 23 bp promoter DNA to T7 RNA polymerase. We then determined the masses of cross-linked tryptic peptides by mass spectrometry and analyzed their amino acid composition. The cross-linked peptides were projected on the crystal structure of T7 RNA polymerase. The peptides nicely decorated the back, front, and side wall of the cleft. In a previous work [Sastry et al. (1993) Biochemistry 32, 5526-5538] we used site-specific psoralen furan-side monoadducts for cross-linking DNAs to DNA-binding proteins. We cross-linked a single-stranded 12-mer oligonucleotide to T7 RNA polymerase. We isolated and purified a DNA cross-linked tryptic peptide. We then used mass spectrometry and amino acid composition analysis to identify the location of this peptide on the T7 RNA polymerase primary sequence. In the present work we have mapped this peptide on the 3-D structure of T7 RNA polymerase. This peptide maps in the fingers domain of the polymerase. On the basis of a comparison of the map positions of peptides that cross-linked to either promoter DNA or single-stranded oligo-DNA, we propose that different functional domains may be involved in binding of double-stranded promoter DNA and nonspecific single-stranded DNA. Whereas the cleft of the polymerase is the seat of double-stranded promoter binding, the fingers domain may be used by the polymerase to grab single-stranded DNA (or RNA) in a nonspecific manner. Alternatively, the single-stranded oligo binding site may be an RNA product-binding site during transcription. The photochemical techniques we have developed [Sastry et al. (1993) Biochemistry 32, 5526-5538; this work] can be applied to other DNA-protein complexes to map DNA-binding domains.
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PMID:Identification of the template-binding cleft of T7 RNA polymerase as the site for promoter binding by photochemical cross-linking with psoralen. 888 31

In order to study the activity of a hammerhead ribozyme in a cytoplasmic environment. HeLa cells infected with a recombinant vaccinia virus expressing T7 RNA polymerase were contransfected with plasmids expressing the ribozyme and its target RNA (nucleotides (nt) +1 to +692 of HIV-1 RNA) under the control of a T7 promoter. Two ribozyme-containing plasmids were designed to express RNAs of respectively 181 nt (Rz181) and 132 nt (Rz132). The sequence of each of these RNAs contained a 35 nt hammerhead ribozyme which is known to cleave its minimal 14-mer RNA substrate efficiently in vitro at a site corresponding to position +115 of the HIV-1 RNA. Control transfections were carried out with the parental plasmid pET3, which expressed a 134 nt RNA lacking the ribozyme sequence, and also with a plasmid expressing a 181 nt RNA (Rz181M) containing a single mutation known to inactivate the in vitro cleavage activity of the ribozyme. As detected by RT-PCR, the amount of target RNA was reproducibly reduced at a ribozyme/target ratio higher than 50 with Rz181 and Rz132 whereas it remained unaffected with Rz181M, thus eliminating the possibility of antisense inhibition. Rz132 proved to be more efficient than Rz181. Competitive RT-PCR indicated that, at ribozyme/target ratio of 300, the amount of residual target RNA was reduced by approximately 85% in the presence of Rz181. In contrast to these in vivo effects, Rz181 and Rz132 obtained by in vitro transcription were inactive against the minimal 14 mer (or longer) substrate under a variety of conditions. In conclusion, although in vitro studies of ribozymes are essential to learn their catalytic mechanism, they cannot be used to predict the efficiency of RNAs containing a ribozyme sequence when it is expressed in cells.
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PMID:Transcripts containing a small anti-HIV hammerhead ribozyme that are active in the cell cytoplasm but inactive in vitro as free RNAs. 895 8

A sensitive colorimetric bacterial system was developed for the detection of Hg(II) and organomercury compounds. The bioactive species, a recombinant Escherichia coli, produces proportionally elevated levels of the enzyme beta-galactosidase with increasing amounts of Hg. This is due to a reporter plasmid which carriers a Hg(II)-inducible promoter (mer promoter) from the Hg resistance transposon Tn501 regulating the transcription of a promoterless lacZ gene. Additionally, a pMB1 origin of replication without the natural RNA polymerase start site is fused downstream of the mer promoter leading to a Hg(II)-inducible plasmid replication, which results in an improved signal-to-noise ratio. To enhance the sensitivity of this cellular biosensor, the transport proteins for Hg(II) uptake are constitutively produced by a helper plasmid. To enable the detection of organically bound Hg, the Streptomyces lividans organomercurical lyase, an enzyme which catalyses the cleavage of C-Hg-bonds of organomercurial compounds, is also provided by the helper plasmid. Hg(II) and phenylmercuric acetate (PMA) concentrations as low as 5 x 10(-10) M (0.1 ppb) may be detected within a few minutes.
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PMID:Genetically modified Escherichia coli for colorimetric detection of inorganic and organic Hg compounds. 900 11

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