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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)

U14 small nuclear RNA (snRNA) is an evolutionarily conserved RNA species that plays a role in rRNA processing. The conserved ability of fungal, amphibian and mammalian U14 snRNAs to hybridize with both homologous and heterologous eukaryotic 18S rRNAs indicates a potential role for this intermolecular RNA/RNA interaction in U14 snRNA function. To understand better the possible role of this intermolecular base-pairing in rRNA processing, we have defined those nucleotide sequences in mouse U14 snRNA and 18S rRNA responsible for the observed in vitro hybridization. We have constructed, using synthetic DNA oligonucleotides, a U14 snRNA gene which has been positioned behind a T7 RNA polymerase promoter site and then inserted into a plasmid. The presence of natural or engineered restriction endonuclease sites within this construct has permitted the in vitro transcription of full-length mouse U14 snRNA transcripts (an 87-nucleotide mouse U14 snRNA minus 5' or 3' leader sequences) or 3' terminally truncated U14 snRNA fragments. Hybridization of full-length or truncated fragments of U14 snRNA to mouse 18S rRNA demonstrated the utilization of a previously proposed 18S rRNA complementary sequence located near the 3' end of mouse U14 snRNA (nucleotides 65-78) for intermolecular hybridization. Conversely, RNase-T1-generated fragments of 18S rRNA capable of hybrid-selection by U14 snRNA have been isolated and sequenced. A nested set of hybrid-selected 18S rRNA fragments define a mouse 18S rRNA sequence (nucleotides 459-472) which exhibits perfect complementarity to the defined U14 snRNA sequence 65-78. Primer-extension/chain-termination mapping of mouse U14-snRNA.18S-rRNA hybrids has confirmed the formation of the proposed hybrid structure. A second set of observed complementary sequences in mouse U14 snRNA (nucleotides 25-38) and mouse 18S rRNA (nucleotides 82-95) are not used for the in vitro hybridization of these two RNAs. Presumably the involvement of this second 18S-rRNA-complementary sequence in the secondary/tertiary folding of mouse U14 snRNA prevents its base-pairing with 18S rRNA. However, the strong evolutionary conservation of both U14-snRNA.18S-rRNA hybrid structures and their juxtapositioning within the folded secondary structure of 18S rRNAs argues for a biological role for each in U14 snRNA function.
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PMID:Determination of the nucleotide sequences in mouse U14 small nuclear RNA and 18S ribosomal RNA responsible for in vitro intermolecular base-pairing. 137 13

We have characterized the splicing products formed in vitro from RNA derived from the mobile group I intron in the nuclear rDNA of Physarum polycephalum, Pp LSU 3. This intron is a close relative of the well known Tetrahymena intron Tt LSU 1, being inserted at exactly the same position in the rDNA and sharing about 90% sequence identity with Tt LSU 1 in the conserved elements characteristic of the catalytic core of all group I introns. However, Pp LSU 3 differs from Tt LSU 1 in that it encodes a site-specific endonuclease, which mediates the homing of the intron to unoccupied target sites. The endonuclease, I-Ppo, would appear to be a unique example of a protein encoded by an RNA polymerase I transcript. To gain clues to the splicing products formed in vivo, and to the nature of the messenger RNA for I-Ppo, we subjected Pp LSU 3 RNA to standard self-splicing conditions in vitro, and then analyzed the products by size, by northern blotting, and by primer extension. The results show two novel features. First, in addition to the expected 5' splice site, there is an alternative 5' splice site in the upstream exon, just preceding the first codon of the I-Ppo open reading frame. Second, at the position corresponding to the major circularization site in Tt LSU 1 there is an internal processing site, leading to the efficient separation of two halves of the excised intron, the 5' half encoding I-Ppo and 3' half containing the ribozyme. Surprisingly, this cleavage appears not to be due to circularization followed by hydrolytic opening of the circle, but rather to G addition. The formation of these products in vitro suggests how the messenger RNA for the I-Ppo endonuclease may be generated in vivo.
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PMID:Characterization of the self-splicing products of a mobile intron from the nuclear rDNA of Physarum polycephalum. 146 22

Some properties of DNA condensed with spermidine have been compared with the properties of DNA condensed with Co3+(NH3)6 to determine whether condensation of DNA with these trivalent cations protects DNA against the action of DNase I and increases transcription and encapsulation of DNA into liposomes. It was shown that DNA condensed with Co3+(NH3)6 was resistant to the action of the endonuclease DNase I such as DNA condensed with spermidine was. However, DNA condensed with Co3+(NH3)6 was significantly less active in transcription with the E. coli RNA polymerase than DNA-spermidine condensed forms. In addition, it was demonstrated that both compacted forms of DNA were more efficiently encapsulated into neutral liposomes; however, negatively, charged liposomes were scarcely formed in the presence of DNA condensed with Co3+(NH3)6. These experiments and the well documented properties of polyamines increasing the resistance to radiations and hydrolysis of nucleic acids, as well as their biological activities, such as replication, transcription, and translation, together with the low concentration of Co3+ in the environment, lead us to propose spermidine as a plausible prebiotic DNA condensing agent rather than Co3+ and the basic proteins proposed by other authors. Then, we consider the possible role and relevance of the polyamine-nucleic acids complexes in the evolution of life.
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PMID:Possible prebiotic significance of polyamines in the condensation, protection, encapsulation, and biological properties of DNA. 166 78

As a means of determining how elongating RNA polymerase responds to a protein in its path, transcription has been carried out in vitro with the purified Escherichia coli enzyme on templates associated with a sequence-specific DNA binding protein. The major RNA species generated is the length expected from RNA polymerase which has transcribed to the position of the bound protein and is unable to elongate further. The binding proteins used are two mutants of the EcoRI endonuclease which are defective in cleavage function but retain high affinity for the wild-type recognition sequence (Wright, D. J., King, K., and Modrich, P. (1989) J. Biol. Chem. 264, 11816-11821). Blockage of RNA polymerase occurs on linear and circular templates and, although efficient with both proteins, is more effective for the EcoRI derivative with the slower dissociation rate. The protein-blocked transcription complexes are stable over time and remain in an active form, resuming elongation when the blocking protein is displaced by an increase in ionic strength. These paused ternary complexes, if treated with the termination factor rho, undergo release. The 3' ends of the blocked-length RNAs from DNAs of distinct sequences reveal that the ternary complexes are positioned at a constant distance from the protein block, 14 nucleotides upstream of the EcoRI recognition sequence. This information is combined with exonuclease III footprinting data to position the 3' end of the nascent RNA chain in the ternary complex quite near (approximately 7 nucleotides) the leading edge of RNA polymerase.
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PMID:Elongation by Escherichia coli RNA polymerase is blocked in vitro by a site-specific DNA binding protein. 169 18

RNA sequences of five flaviviruses were detected by a modified polymerase chain reaction (PCR) that incorporated a reverse transcriptase and RNase inhibitor. Oligonucleotide primer pairs were synthesized to amplify sequences from St. Louis encephalitis (SLE), Japanese encephalitis (JBE), yellow fever (YF), dengue 2 (DEN-2), and dengue 4 (DEN-4) viruses. The amplified products were visualized as bands of appropriate size on ethidium bromide-stained agarose gels. The identity of these products was confirmed by restriction endonuclease cleavage to generate fragments of predicted lengths. The reverse-transcriptase PCR (RT-PCR) successfully amplified flavivirus sequences from cell cultures, frozen brain tissue, and formalin-fixed, paraffin-embedded brain tissue. The reactions were highly specific, and the method compared favorably to two conventional assays of viral infectivity. RT-PCR followed by PCR with nesting primers (N-PCR) was 1,000-fold more sensitive in detecting virus than classical infectivity titration by intracerebral inoculation of suckling mice and nearly 1,000-fold more sensitive than amplification of virus in cell culture followed by inoculation of mice.
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PMID:Detection of flaviviruses by reverse-transcriptase polymerase chain reaction. 171 65

A kinetic assay has been developed to measure the strength of natural T7 promoters. By determining the rate of appearance of initiation products in the presence of constant concentrations of T7 RNA polymerase, an incomplete mixture of ribonucleoside triphosphates, and increasing promoter concentrations, a maximum rate of product formation (Vmax) and a promoter concentration giving half of the maximal activity ([P]Vmax/2) can be determined for any cloned T7 promoter. On supercoiled plasmids, it was found that the [P]Vmax/2 measured for the six promoters phi 1.1B, phi 1.3, phi 3.8, phi 6.5, phi 10, and phi 13 ranged from 3.4 +/- 1.1 to 12.0 +/- 2.4 nM while the Vmax values showed no significant trends. On plasmids that had been linearized by cleavage at a single site with a restriction endonuclease, the cloned T7 promoters assayed fell into two broad classes that appear to be characterized by the T7 class II and III promoters. Generally, the class II promoters required higher promoter concentrations to produce half of the maximum rates of initiation ([P]Vmax/2 values) than the class III promoters. The [P]Vmax/2 values for the class II promoters ranged from 20 +/- 2.7 to 23 +/- 3.6 nM, while the [P]Vmax/2 values for the class III promoters phi 10 and phi 13 were 13 +/- 1.6 nM and 7.8 +/- 1.4 nM. The one exception is the class III promoter phi 6.5 whose [P] Vmax/2 (17 +/- 5 nM) falls between the [P]Vmax/2 values of the class II promoters and the strong class III promoters. The Vmax values measured on linear templates are variable, but it appears that phi 10 is more active than the other five promoters.
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PMID:Initiation of transcription by T7 RNA polymerase as its natural promoters. 173 60

In an Escherichia coli expression system, two genes, one from an anaerobic intestinal bacterium and one from E. coli, were overexpressed following the alteration of ribosome-binding (Shine-Dalgarno) sequences. For both genes, the polymerase chain reaction (PCR) was used to modify the ribosome-binding sequence and, at the same time, provide restriction endonuclease sequences at each end of the gene. These restriction endonuclease sequences were used for inserting the DNA into the E. coli plasmid vector pGEM2, which has the T7 promoter upstream from its multiple cloning sites. Each chimeric plasmid, made by ligating the PCR product into pGEM2, was transformed into E. coli strain HMS174(DE3) which, when induced, produces T7 RNA polymerase for regulated overexpression. The gene isolated from the anaerobic intestinal bacterium, a 27-kDa polypeptide gene from Eubacterium sp. strain 12708, when expressed using this system, produced about one-third of the total cell protein as measured in Coomassie-stained protein gels and confirmed by Western blots with rabbit antibody. The E. coli enzyme, a 28.4-kDa tRNA methylation enzyme, was increased fivefold in activity of cell extracts over that of the best previous strain.
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PMID:Rapid method for altering bacterial ribosome-binding sequences for overexpression of proteins in Escherichia coli. 182 79

Fusion of a prokaryotic promoter to a yeast tRNA gene provides a means for uncoupling analyses of mutations affecting splicing from requirements for transcription and other processing steps. For this purpose, a phage lambda promoter was fused to the Saccharomyces cerevisiae tRNATyr(SUP3a) coding sequence. This fusion allows the synthesis of an end-mature precursor by in vitro transcription with Escherichia coli RNA polymerase. This precursor was accurately spliced by purified yeast endonuclease and ligase fractions. However, both the initial rate and the extent of the endonuclease cleavage reaction were reduced in comparison to those for substrates produced by yeast RNA polymerase III. Efficient splicing could be restored in a magnesium- and temperature-dependent renaturation step, suggesting a conformational transition was required. Enzymatic solution structure probing of transcripts from wild-type and intron-variant templates revealed that the essential conformational transition involved a segment of the tRNA-like portion of the precursor. These results (1) suggest that the primary sequence of the precursor alone may not be sufficient to ensure formation of the active conformer during synthesis, (2) provide direct evidence that endonuclease recognizes mature tRNA-like structure in the precursor, and (3) suggest a general caution for the use of semisynthetic transcripts in RNA processing reactions. Potentially, transcription and processing of tRNATyr in yeast may provide a useful paradigm for examining active control of conformation in RNA biosynthesis.
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PMID:Conformational transition required for efficient splicing of transcripts from hybrid lambda promoter yeast tRNA gene fusion. 182 90

As a means of generating homogeneous populations of elongation complexes with the RNA polymerases encoded by phages T7 and SP6, transcription has been carried out in vitro on templates associated with the Gln-111 mutant of EcoRI endonuclease. The Gln-111 protein, as a result of a single amino acid substitution at position 111, lacks cleavage function yet shows higher than wild-type affinity for the EcoRI recognition sequence GAATTC. On a series of linear and circular templates associated with Gln-111 protein, blockage of the phage RNA polymerase elongation complex is observed. The 3' endpoint of the major blocked-length RNA species, just 3 bp upstream from the GAATTC, reveals an extremely close approach of polymerase's leading edge to essential contacts between Gln-111 protein and its binding site. In contrast to E. coli RNA polymerase, which is blocked stably and quantitatively by Gln-111 protein (Pavco, P.A. and Steege, D. A. (1990) J. Biol. Chem. 265, 9960-9969), the phage polymerases show substantial levels of readthrough transcription beyond the protein block.
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PMID:Characterization of elongating T7 and SP6 RNA polymerases and their response to a roadblock generated by a site-specific DNA binding protein. 189 55

A 66 base-pair (bp) DNA template carrying a site-specifically placed psoralen cross-link downstream from a phage T7 promoter was constructed. This template can support transcription by T7 RNA polymerase. Transcription was blocked specifically at the psoralen cross-link. We studied the characteristics of elongation complexes, formed in this manner, by enzymatic and chemical footprinting and by a nitrocellulose filter-binding assay. The DNase I footprint of the elongation complex was quantified on a residue by residue basis. It was found that T7 RNA polymerase made the strongest contacts in the central region of the footprint whereas the leading and lagging edges of the polymerase were weakly bound to the DNA. Reducing the NaCl concentration in the transcription reaction resulted in the visualization of two T7 RNA polymerase molecules bound to the same template. A leading polymerase molecule, arrested at the psoralen cross-link, showed a much smaller DNase I footprint than a lagging polymerase molecule that was bound upstream. This upstream polymerase molecule occupied approximately one-half of the promoter region and therefore did not achieve complete promoter clearance. These experiments suggest that complete promoter clearance is required for a gross conformational change in the polymerase, consisting of a contraction in the size of its footprint to occur. DNase I footprinting also revealed that an elongation complex arrested at a psoralen cross-link undergoes several subtle changes in structure in a time-dependent manner and therefore can be considered to be in a state of dynamic flux. Methylation protection showed that some G residues in the top (non-coding) strand are protected against attack by dimethylsulfate, whereas the G residues on the bottom (coding) strand appear not to be protected from reaction with dimethylsulfate. We probed the transcribing complexes for single-stranded regions with T7 gene 3 endonuclease. From the pattern of sensitivity to T7 gene 3 endonuclease on the template strand, we conclude that the RNA-DNA hybrid in the elongation complex is about 7 bp. A nitrocellulose filter-binding assay showed that the elongation complex, consisting of a 36 (+1) nucleotide RNA, the 66 bp DNA template and the T7 RNA polymerase was stable for at least 30 minutes at high salt concentrations. Heparin caused the quantitative release of 36 (+1) RNA nucleotides within 30 seconds, but the DNA was not simultaneously released from the elongation complex under these conditions.
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PMID:Studies on the interaction of T7 RNA polymerase with a DNA template containing a site-specifically placed psoralen cross-link. I. Characterization of elongation complexes. 194 44


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