Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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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)
Purified preparations of La France isometric virus (LIV), an unclassified, double-stranded RNA (dsRNA) virus of Agaricus bisporus, were associated with an RNA-dependent RNA polymerase (RDRP) activity. RDRP activity cosedimented with the 36-nm isometric particles and genomic dsRNAs of LIV during rate-zonal centrifugation in sucrose density gradients, suggesting that the enzyme is a constituent of the virion. Enzyme activity was maximal in the presence of all four nucleotides, a reducing agent (dithiothreitol or beta-mercaptoethanol), and Mg2+ and was resistant to inhibitors of DNA-dependent RNA polymerases (actinomycin D, alpha-amanitin, and rifampin). The radiolabeled enzyme reaction products were predominantly (95%) single-stranded RNA (ssRNA) as determined by cellulose column chromatography and ionic-strength-dependent sensitivity to hydrolysis by
RNase A
. Three major size classes of ssRNA transcripts of 0.95, 1.3, and 1.8 kb were detected by agarose gel electrophoresis, although the transcripts hybridized to all nine of the virion-associated dsRNAs. The RNA products synthesized in vitro appeared to be of a single polarity, as they hybridized to an ssDNA corresponding to one strand of a genomic dsRNA and not to the complementary strand. Similarly, reverse transcription-PCR with total cellular ssRNA as a template and strand-specific primers targeting a genomic dsRNA during synthesis of cDNA suggested that only the coding strand was transcribed in vivo. Our data indicate that the RDRP activity associated with virions of LIV is probably a
transcriptase
engaged in the synthesis of ssRNA transcripts corresponding to each of the virion-associated dsRNAs.
...
PMID:Characterization of an RNA-dependent RNA polymerase activity associated with La France isometric virus. 903 61
The genome of infectious salmon anemia virus (ISAV), which infects farmed Atlantic salmon (Salmo salar L.), is characterized here. The virus has an RNA genome, as shown by using specific DNA virus metabolic inhibitors and radioactive in vivo labeling of ISAV nucleic acid. Electrophoresis of [14C]uridine-labeled ISAV RNA revealed that the ISAV genome is segmented. The genome consists of eight segments that range from 1.0 to 2.3 kb, with a total molecular size of approximately 14.5 kb. One ISAV-specific molecular clone, corresponding to the smallest genome segment, was obtained by cDNA cloning of mRNA from an ISAV-infected cell culture. This clone gave a positive hybridization signal on Northern blots of pelleted ISAV. Pretreatment of the ISAV pellet with
RNase A
resulted in the disappearance of the positive hybridization signal, demonstrating that the genome is single stranded. Reverse
transcriptase
PCR with primers corresponding to sequences from the molecular clone and target RNA from ISAV-infected and noninfected fish tissues gave specific positive reactions. Alignments of the nucleotide sequence of the molecular clone did not reveal significant homology with any other available sequence in databases. However, the data presented here, together with morphological and replicational properties previously described, indicate that ISAV has a strong resemblance to members of the Orthomyxoviridae family. This is the first thoroughly characterized orthomyxo-like virus isolated from a teleost.
...
PMID:Genomic characterization of the virus causing infectious salmon anemia in Atlantic salmon (Salmo salar L.): an orthomyxo-like virus in a teleost. 931 51
Transcription through tandemly arranged nucleosomes was studied to determine the frequency at which the nucleosomes would disrupt and cause displacement of the associated histones to a competitor DNA. In order to more effectively preserve topological effects, the template that was used in the in vitro transcription system was a large covalently, closed circular plasmid (8.9 kb). The plasmid contained two promoters for T7
RNA polymerase
, each separated by 4.4 kb, and transcription was done in the presence of topoisomerase I at physiological ionic strength. Nucleosome disruption was observed at an approximate frequency of 1 in 4 nucleosomes such that after several rounds of transcription on the plasmid 80% of the nucleosomes were disrupted. Unexpectedly, all four histones were found associated with the RNA rather than the competitor DNA. The histones bound the competitor DNA only after removal of the RNA by
RNase A
treatment. By analyzing the topological state of the competitor DNA, it was observed that the majority of the histones that were displaced from the RNA were able to re-form nucleosomes. Additional experiments were done to determine the reasons for the preferential binding of histones to the newly synthesized RNA. It was found that the large molecular weight RNA binds histones with an approximate 100-fold greater affinity relative to DNA when at physiological ionic strength. Within the cell, this high-affinity binding would be expected to require cellular mechanisms to regulate the interaction of RNA with histones. The relatively high frequency of displacement of all four histones during transcription is higher than what is observed in vivo and suggests that additional factors are needed to regulate this displacement. These observations are discussed and compared with previous studies that have examined the process of transcription through nucleosomes.
...
PMID:Measurement of the frequency of histone displacement during the in vitro transcription of nucleosomes: RNA is a competitor for these histones. 931 78
We have discovered and analysed two novel, linear extrachromosomal double-stranded RNAs (dsRNAs) within oocysts of major north Amercian isolates of Cryptosporidium parvum, a parasitic protozoan that infects the gastrointestinal tract of a variety of mammals, including humans. These dsRNAs were found to reside within the cytoplasm of sporozoites, and were not detected in other species of the genus. cDNAs representing both dsRNA genomes were cloned and sequenced, 1786 and 1374 nt, and each encoded one large open reading frame (ORF). The deduced protein sequence of the larger dsRNA (L-dsRNA) had homology with viral RNA-dependent RNA polymerases (RDRP), with more similarity to polymerases from fungi than those from other protozoa. The deduced protein sequence from the smaller dsRNA (S-dsRNA) had limited similarity with mitogen-activated c-June NH2 terminal protein kinases (JNK) from mammalian cells. Attempts to visually identify or purify virus-like particles associated with the dsRNAs were unsuccessful. Sensitivity of the dsRNAs to
RNase A
also suggests that the dsRNAs may be unencapsidated. A RDRP activity was identified in crude extracts from C. parvum sporozoites and products of
RNA polymerase
activity derived in vitro were similar to the dsRNAs purified directly from the parasites.
...
PMID:Virus-like, double-stranded RNAs in the parasitic protozoan Cryptosporidium parvum. 938 54
The poly-2'-O-(2,4-dinitrophenyl)-oligoribonucleotide (poly-DNP-RNA) with antisense sequence 5'ggguguauggaaaagccguc-3' was designed to target the sequence 2468-2487 in the polymerase gene of duck hepatitis B virus (DHBV). The stereochemically pure RNA was synthesized by using T7
RNA polymerase
with synthetic DNA template and subsequently derivatized with 2,4-dinitrofluorobenzene in mild basic conditions to make the poly-DNP-RNA with an average DNP/base ratio of 0.7. In vitro studies showed that this antisense poly-DNP-RNA can hybridize with sense DNA and has high resistance to
RNase A
digestion. These poly-DNP-RNA were also found to be potent sequence-independent inhibitors of the reverse transcriptase activity of DHBV DNA-polymerase. For in vivo studies, DHBV-infected ducks were treated with antisense, sense, and random noncomplementary sequence poly-DNP-RNA, respectively. The data showed that the antisense poly-DNP-RNA completely inhibited the duck viremia in all nine ducks that had been treated with a dose of 1 mg/kg (i.v.) per day for 25 days. The viremia did not come back after 10 months recession. In the sense group, three of the four ducks showed no inhibition, and in the random group, both ducks maintained their viremia. After 45 days of treatment with the antisense poly-DNP-RNA, followed by 2 weeks of recession, PCR as well as QC-PCR assay and microscopic examination showed that viral DNA had disappeared in liver and that the histology of the damaged liver (filled with fat granules) had returned to normal.
...
PMID:Treatment of duck hepatitis B virus by antisense poly-2'-O-(2,4-dinitrophenyl)-oligoribonucleotides. 991 10
Availability of 4-thiouridine (4-thioU)-containing RNAs is the prerequisite for 4-thioU site-specific cross-linking studies. This paper presents a method for constructing such RNAs. A 5'- and a 3'-RNA are synthesized via phage
RNA polymerase
transcription and/or RNase H site-specific cleavage directed by 2'-O-methyl-RNA-DNA chimeras. These two half-RNAs in combination correspond to the sequence of full-length RNA, with a single nucleotide gap at the junction that will be filled in with a 4-thiouridylate. A single p4SUp, which is derived from 4SUpN (N can be any nucleotide) via 5'-phosphorylation (therefore, the phosphate can be radioactive) followed by
RNase A
digestion, is then ligated to the 3' end of the 5'-half RNA with T4 RNA ligase. The 3'-phosphate of the ligated product is subsequently removed by calf intestinal alkaline phosphatase to produce a 3'-hydroxyl group. The resulting 5'-half RNA and the 3'-half RNA with a 5'-phosphate group (which can also be radioactive) are then aligned with a bridging deoxyoligonucleotide and ligated with T4 DNA ligase. This method was previously applied to the P120 pre-mRNA that contains an AT-AC intron, yielding three RNAs each containing a single 4-thioU near the 5'-splice site. Subsequent cross-linking studies with these RNAs yielded detailed information regarding interactions between the 5'-splice site and other spliceosomal snRNAs and between the 5'-splice site and proteins during splicing. Because there is no sequence constraint surrounding the site of 4-thioU substitution, this method should be applicable to many other RNAs.
...
PMID:Construction of 4-thiouridine site-specifically substituted RNAs for cross-linking studies. 1020 12
When using phiX174 RFI DNA as a template, invitro, E. coli
RNA polymerase
synthesizes four major purine triphosphate-containing 5' end sequences.
RNase A
digests of alpha(32)P labeled RNA were further digested with spleen exonuclease to remove the bulk of the oligonucleotides with 5' hydroxyls and then chromatographed on DEAE cellulose to resolve the remaining 5' terminal oligonucleotides. By application of standard separation and sequence techniques, the major 5' end sequences were shown to be: pppApUp(Cp), pppApApApUp(Cp), pppApApApApUp(Cp), and pppGpApUp(Gp).
...
PMID:Nucleotide sequences of the 5' termini of phi X174 mRNAs synthesized in vitro. 1079 7
The 94-kDa virion-associated RNA-dependent RNA polymerase (RdRp) is present in infectious pancreatic necrosis virus in two forms: (i) as a free polypeptide (VP1) and (ii) as a genome linked protein (VPg) (J. G. Calvert et al., 1991, J. Gen. Virol. 72, 2563-2567). VP1 was guanylylated in vitro by incubating purified virus in the presence of [alpha2P]GTP. During further incubation in an in vitro
RNA polymerase
reaction mixture (in the presence of unlabeled GTP), the radiolabeled VP1-pG complex was "chased" via nascent RNA strands and replicative intermediates to a VP1-dsRNA complex. Labeled VP1-pG was recovered from the intermediate as well as from the final reaction products by digestion with
RNase A
and RNase V1, a dsRNA-specific nuclease. Analysis of the reaction products indicated that only the plus strands of the two genome segments were being synthesized in vitro which remained base-paired to their templates. The results suggest that in vitro transcription by the virion RdRp is primed by VP1 and then proceeds via an asymmetric, semiconservative, strand-displacement mechanism.
...
PMID:Protein-primed RNA synthesis in vitro by the virion-associated RNA polymerase of infectious pancreatic necrosis virus. 1183
The transcription process is highly processive. However, specific sequence elements encoded in the nascent RNA may signal transcription pausing and/or termination. We find that under certain conditions nascent RNA chains can have a strong and apparently sequence-independent inhibitory effect on transcription. Using phage T3
RNA polymerase
(T3 RNAP) and covalently closed circular (cccDNA) DNA templates that did not contain any strong termination signal, transcription was severely inhibited after a short period of time. Less than approximately 10% residual transcriptional activity remained after 10 min of incubation. The addition of
RNase A
almost fully restored transcription in a dose dependent manner. Throughout
RNase A
rescue, an elongation rate of approximately 170 nt/s was maintained and this velocity was independent of RNA transcript length, at least up to 6 kb. Instead,
RNase A
rescue increased the number of active elongation complexes. Thus transcription behaved as an all-or-none process. The mechanism of transcription inhibition was explored using electron microscopy and further biochemical experiments. The data suggest that multiple mechanisms may contribute to the observed effects. Part of the inhibition can be ascribed to the formation of R-loops between the nascent RNA and the DNA template, which provides "roadblocks" to trailing T3 RNAPs. Based on available literature we discuss possible in vivo implications of the results.
...
PMID:Transcription arrest caused by long nascent RNA chains. 1571 26
The signal recognition particle (SRP) RNA helix 6 of archaea and eukaryotes is essential for the binding of protein SRP19 and the assembly of a functional complex. The conserved adenosine at the third position of the tetraloop of helix 6 (A149) is crucial for the binding of protein SRP19 in the mammalian SRP. Here we investigated the significance of the equivalent adenosine residue at position 159 (A159) of Archaeoglobus fulgidus SRP RNA. The A159 of A. fulgidus and A149 of human SRP RNA were changed to C, G or U, and fragments containing helix 6 or helices 6 and 8 were synthesized by run-off transcription with T7
RNA polymerase
. The ability of recombinant A. fulgidus and human SRP19 to form ribonucleoprotein complexes was measured in vitro. The simultaneous presence of A149 and helix 8 is required for the high-affinity binding of SRP19 to the human SRP RNA. In contrast, A. fulgidus SRP19 binds to the SRP RNA fragments with high affinity irrespective of the nature of the nucleotide, demonstrating that A159 does not directly participate in protein binding. Instead, as indicated by the resistance of the wild-type A. fulgidus RNA towards digestion by
RNase A
, this residue allows the formation of a tightly folded RNA molecule. The high affinity between A.fulgidus SRP 19 and RNA molecules that contain both helices 6 and 8 suggests that A159 is likely to initiate archaeal SRP assembly by forming a conserved tertiary RNA-RNA interaction.
...
PMID:The conserved adenosine in helix 6 of Archaeoglobus fulgidus signal recognition particle RNA initiates SRP assembly. 1581 Apr 37
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