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)

The preparation of fully protected diisopropylamino-beta-cyanoethyl ribonucleoside phosphoramidites with regioisomeric purity greater than 99.95% is described. It is demonstrated that the combination of standard DNA protecting groups, 5'-O-DMT, N-Bz (Ade and Cyt), N-iBu (Gua), beta-cyanoethyl for phosphate, in conjunction with TBDMS for 2'-hydroxyl protection, constitutes a reliable method for the preparation of fully active RNA. Average stepwise coupling yields in excess of 99% were achieved with these synthons on standard DNA synthesizers. Two steps completely deprotect the oligoribonucleotide and workup is reduced to a fifteen minute procedure. Further, it is shown that the deprotected oligoribonucleotides are free from 5'-2' linkages. This methodology was applied to the chemical synthesis of a 24-mer microhelix, a 35-mer minihelix and two halves of a catalytic 'Hammerhead Ribozyme'. These oligoribonucleotides were directly compared in two distinct biochemical assays with enzymatically (T7 RNA polymerase) prepared oligoribonucleotides and shown to possess equal or better activity.
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PMID:Chemical synthesis of biologically active oligoribonucleotides using beta-cyanoethyl protected ribonucleoside phosphoramidites. 221 17

alpha-Sarcin is a cytotoxic protein that inactivates ribosomes by hydrolyzing a single phosphodiester bond on the 3' side of G-4325 in eukaryotic 28 S rRNA. We have examined the requirements for the recognition by alpha-sarcin of this domain using a synthetic oligoribonucleotide (35-mer) that reproduces the sequence and, we presume, the secondary structure (a stem, a bulged nucleotide, and a loop) at the site of modification. The wild type structure and a large number of variants were transcribed in vitro from synthetic DNA templates with phage T7 RNA polymerase. Recognition of the substrate is strongly favored by a G at the position that corresponds to 4325. There is an absolute requirement for a helical stem; however, it can be reduced from the 7 base pairs in the natural structure to 3 without loss of specificity. The nature of the base pairs in the stem modifies but does not abolish recognition; whereas, the bulged nucleotide does not contribute to identification. Cleavage is materially affected by altering the nucleotides in the universal sequence surrounding G-4325 and changing the position in the loop of the tetranucleotide GAG(sarcin)A leads to loss of recognition by the toxin. We propose that the alpha-sarcin domain RNA participates in elongation factor catalyzed binding of aminoacyl-tRNA and of translocation; that translocation is driven by transitions in the structure of the alpha-sarcin domain RNA initiated by the binding of the factors, or the hydrolysis of GTP, or both; and that to toxin inactivates the ribosomes by preventing this transition.
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PMID:RNA-protein interaction. An analysis with RNA oligonucleotides of the recognition by alpha-sarcin of a ribosomal domain critical for function. 229 46

We report experiments designed to elucidate the mechanism by which RNA polymerase advances from the open complex to synthesis of a stably bound RNA chain during transcription initiation. Techniques used include deoxyribonuclease I footprinting, methylation protection, and exonuclease III digestion through upstream domains, each applied to the open, abortive and productive transcription complexes of Escherichia coli RNA polymerase with the lac promoter. The results show a slight loss of upstream open complex contacts during abortive transcription of a 6-mer and 8-mer, but a large loss of these contacts upon escape from abortive cycling into productive transcription at the 11-mer. We propose a model for early initiation in which competition between open complex polymerase-DNA contacts on one hand and initiated complex polymerase-DNA-RNA interactions on the other produces a "stressed intermediate" during formation of a short RNA-DNA duplex. The strain energy is relieved either by ejecting the short RNA, resulting in aborted initiation, or by eliminating the sigma subunit and breaking the open complex contacts, thereby escaping abortive cycling into productive transcription. Further evidence for this model is based on the observation that destabilization of interactions specific for either open complex or initiated complex has the predicted effect on the amount of abortive cycling. The model predicts a complicated relationship between overall promoter strength and DNA sequence changes that alter polymerase-DNA interactions.
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PMID:A stressed intermediate in the formation of stably initiated RNA chains at the Escherichia coli lac UV5 promoter. 243 94

To elucidate the molecular interactions during transcription by Escherichia coli RNA polymerase, we have performed a quantitative analysis of the photoaffinity labeling produced by an aryl azide positioned at the leading (5') end of the nascent RNA. Macromolecular contacts on the path of RNA across the transcription complex containing the template poly[d(A-T)] are observed as a function of the length of the transcript. Quantitative analysis provides the percent yield of photoaffinity labeling in the transcription complex by each length of RNA. Significant yields are observed for DNA, the beta/beta' subunits (analyzed together), and the sigma subunit. The alpha subunit is not labeled under these experimental conditions. The DNA template is labeled by the leading ends of RNA molecules 5-18 bases long, with yields ranging from 1% to 6%. Photoaffinity labeling of poly[d(A-T)] is also observed for many transcript lengths longer than 18 nucleotides, but the yields are too low to quantitate. Labeling of the beta/beta' subunits occurs with approximately 50% yields for transcripts of lengths greater than or equal to 12 nucleotides; low but significant labeling yields of 1-8% by shorter RNAs (3-10 nucleotides) are observed. Labeling of the sigma subunit is detectable for transcripts from 7 to more than 19 nucleotides long; quantitative measurements were possible up to the 19-mer. The RNAs most likely to be photoattached to the sigma subunit are 9-12 nucleotides long, with a maximum photoaffinity labeling yield of 15% by the decanucleotide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Photoaffinity labeling of Escherichia coli RNA polymerase/poly[d(A-T)] transcription complexes by nascent RNA. 245 82

We have used diethyl pyrocarbonate (DEP), which carbethoxylates adenine bases, and dimethyl sulfate (DMS), which methylates guanine residues and single-stranded cytosines, to probe bases in open complexes between RNA polymerase and the lac UV5 promoter in vitro. We compared the kinetics of reactivity between bases in an open complex and those in a single-stranded 35-mer fragment corresponding to the lower template strand of lac UV5 in the region -25 to +10 relative to the transcription start site. We observed that cytosine and adenine residues in the 35-mer fragment reacted according to a second-order process with DMS and DEP, respectively, at sufficiently low concentrations of the reagents and that the degree of reactivity was base position independent. In an open complex in the absence of substrates, we observed reactivity with DEP in adenines from -12 to +4 as well as +21 on the template strand and methylation by dimethyl sulfate of cytosines -6, -4, -2, and -1. No hyperreactivity was observed on the nontemplate strand. The degree of reactivity of bases between -12 and +4 was position dependent, maximum reactivity being displayed by bases in the middle of the region. The reaction was first order within the range of reagent concentration investigated. It was confirmed that in the presence of ApA and UTP cytosine +5, as well as cytosines -6, -4, -2, and -1, in an open complex became reactive to DMS. With regard to DEP the extent of reactivity of the adenine at position +3 was increased markedly, adenine +4 was brought into the single-stranded region, and the overall reactivity of adenine -10 decreased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Fine mapping of DNA single-stranded regions using base-specific chemical probes: study of an open complex formed between RNA polymerase and the lac UV5 promoter. 276 90

The identification and characterization of a mouse tRNA(Trp) pseudogene is reported. A synthetic oligonucleotide (31 mer), identical with the 3' half of a tRNA(Trp), was used to examine three mouse lambda clones that are known to contain clusters of tRNA genes. A fragment of one of these lambda clones strongly hybridizes to the oligonucleotide; the sequence of this region shows the presence of a gene significantly homologous to the chick tRNA(Trp). However two point mutations and a three base deletion prevent the folding of a possible transcript of this gene. The presence of a conserved promoter sequence for RNA polymerase III, that should allow the transcription of this gene, does not ensure the transcription of the gene, at least in our in vitro system.
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PMID:A mouse tRNA pseudogene derived from a tRNA(Trp) coding sequence. 296 75

In plasmid NR1 the expression of genes involved in mercury resistance (Tn21) is regulated by the trans-acting product of the merR gene. An in vivo T7 RNA polymerase-promoter overexpression system was used to detect a protein of approximately 16,000 daltons encoded by the merR reading frame. Overexpressed MerR constituted about 5% of labeled proteins. An in vitro MerR-mer-op (mer-op is the mer operator and promoter region) gel electrophoresis binding assay established that the binding site for MerR was located between the putative -35 and -10 sequences of the promoter for the mer structural genes. A nonsense mutation in the carboxyl half of MerR resulted in the loss of biological function and the loss of in vitro mer-op binding properties.
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PMID:Overexpression and DNA-binding properties of the mer-encoded regulatory protein from plasmid NR1 (Tn21). 303 86

Effects of mutations around the phage SP6 transcription initiation site on SP6 RNA polymerase's selection of initiation site were studied. In the in vitro transcription reactions, the limiting concentration of a ribonucleotide causes the SP6 RNA polymerase to stall long enough only at the positions of the limited nucleotide and dissociate from the elongation complex. As a result, a series of RNA oligomers comprises a sequencing ladder, and abortive initiation cycling products up to 6-mer are made in high yield. Precise sizing of the product RNAs from the elongation pausings determined the initiation site of each mutant. When the wild-type +1 G is changed to C or A without change in the upstream sequence including TATA from -4 to -1, transcription still starts only at the +1 site. But, the mutant containing TATCC from -4 to +1 C. We propose that the phage SP6 RNA polymerase selects the initiation site precisely at a certain distance from a direct contact point in the upstream promoter sequence, regardless of the species of initiating nucleotide. It is also suggested that the sequence-dependent perturbations of DNA helical structure, for example D to B form, may shift the initiation site.
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PMID:Transcription initiation site selection and abortive initiation cycling of phage SP6 RNA polymerase. 319 28

We have modified current methods to create a very efficient technique for cloning cDNAs in a defined orientation, into plasmid vectors bearing phage SP6 and T7 polymerase promoters. First strand synthesis is primed at the poly(A) tail with a 26-mer synthetic oligonucleotide linker/primer, the RNA is hydrolyzed and the cDNA is tailed with 10 to 15 dG residues. The cDNA is then annealed to two prepared vector fragments specific for the two ends of the cDNA (one bearing a dC10-15 tail and the other bearing a 14-nucleotide cohesive end complementary to the linker/primer). After ligation the second strand is synthesized with the large fragment of DNA polymerase I. Libraries of up to 8 x 10(6) independent transformants have been obtained from 1 microgram of Drosophila poly(A)+ RNA. The design of the method and careful optimization of first strand synthesis have permitted cloning of several large (4.3 to 6.5 kb), low abundance cDNAs. Transcription of essentially full-length clones with phage SP6 RNA polymerase produces RNAs that are efficiently translated in vitro to give complete, unfused products, thus permitting rapid characterization of the clones via the encoded polypeptides. Antisense RNAs can also be produced by transcription with phage T7 RNA polymerase.
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PMID:Functional cDNA libraries from Drosophila embryos. 319 41

An oligoribonucleotide (35-mer) that mimics the alpha-sarcin and the ricin region of eukaryotic 28 S rRNA was transcribed in vitro from a synthetic template with T7 RNA polymerase and was used to test whether the specificity of the hydrolysis by the toxins was retained. alpha-Sarcin, at a low concentration, cleaved a single phosphodiester bond on the 3' side of a guanosine residue in the synthetic oligomer that corresponds to G-4325 in 28 S rRNA, the site of action of the toxin in intact ribosomes. At a high concentration of alpha-sarcin, the substrate (35-mer) was hydrolyzed after each of its purines. alpha-Sarcin was without an effect on a synthetic RNA (20-mer) that reproduces the near universal sequence of nucleotides in the loop, but lacks the stem, of the toxin's domain. Thus, the specificity of the attack of alpha-sarcin on a precise region of 28 S rRNA appears to be contingent on the sequence of the nucleotides and the structure of the domain. Ricin depurinated a nucleotide in the synthetic oligomer (35-mer), and in the presence of aniline the phosphoribose backbone was cleaved at a position that conforms to A-4324 in 28 S rRNA, the site of action of the toxin in vivo.
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PMID:The cytotoxins alpha-sarcin and ricin retain their specificity when tested on a synthetic oligoribonucleotide (35-mer) that mimics a region of 28 S ribosomal ribonucleic acid. 337 11


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