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Query: EC:2.7.7.48 (
transcriptase
)
9,479
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the presence of Mg(2+) and a specific primer, ApG or GpG, the influenza WSN virion
transcriptase
synthesizes large, polyadenylic acid-containing complementary RNA (cRNA) (Plotch and Krug, J. Virol., 21:24-34, 1977). After removal of its polyadenylic acid with RNase H in the presence of polydeoxythymidylic acid, the in vitro cRNA distributed into seven discrete bands during electrophoresis in acrylamide gels containing 6 M
urea
. The eight known segments of virion RNA (vRNA) also distributed into seven bands under these conditions as two, rather than the expected three, large-sized segments were resolved. Each of the in vitro cRNA segments migrated slightly faster than the corresponding vRNA segment. To determine whether this difference in mobility reflects a difference in size between cRNA and vRNA, the double-stranded RNA formed by annealing labeled in vitro cRNA to unlabeled vRNA was subjected to various nuclease treatments and was analyzed by gel electrophoresis. Hybrids treated with RNase T2 or a combination of RNase T2 and RNase H migrated slightly faster than those treated only with RNase H, indicating that RNase T2 removed an RNA sequence other than polyadenylic acid, most probably a short sequence of vRNA not hydrogen bonded to cRNA. These results suggest that the in vitro cRNA segments are shorter than, and thus incomplete transcripts of the corresponding vRNA segments. All eight hybrids were resolved by gel electrophoresis, indicating that all eight vRNA segments are transcribed into cRNA in vitro. We also present evidence suggesting that the ApG primer initiates in vitro transcription exactly at the 3' end of vRNA.
...
PMID:Segments of influenza virus complementary RNA synthesized in vitro. 62 84
Phage Qbeta
RNA replicase
consists of four nonidentical subunits three of which are required for poly(C)-directed synthesis of poly(G): a phage-coded polypeptide and the two host-supplied protein biosynthesis elongation factors EF-Tu and EF-Ts. After denaturation of the enzyme in 8 M
urea
, poly(G) polymerase activity can be renaturated by dilution of the denatured subunits into a high ionic strength buffer with glycerol. The renaturation reaction has a broad temperature optimum between 11 and 21 degrees. The extent of renaturation is dependent on enzyme concentration: at low enzyme concentrations and 21 degrees renaturation proceeds for more than 3 h with greater than 40% recovery of activity, whereas at high enzyme concentrations the reaction is complete by 1 h with less than 10% of the poly(G) polymerase activity regained. Activities catalyzed by the elongation factors can be measured while they are part of the replicase complex. Study of rates of renaturation of EF-Tu and EF-Ts dependent activities alone and in the replicase complex revealed that virtually 100% of the EF-Ts activity was recovered more rapidly than could be assayed at temperatures as low as 2 degrees, while the rate of recovery of EF-Tu activity was comparable to that of the poly(G) polymerase activity and was independent of either EF-Tu concentration or the presence of other enzyme subunits. The rate of recovery of the poly(G) polymerase activity was found to be limited by the renaturation of EF-Tu, since the rate was dramatically increased by the addition of undenatured EF-Tu.
...
PMID:Renaturation of a multisubunit multiactivity enzyme complex: recovery of phage Qbeta RNA replicase, EF-Tu, and EF-Ts activities after denaturation in urea. 76 66
Influenza virus RNA polymerase catalyzes multiple step reactions in transcription and replication of the genome RNA. The core enzyme is composed of each one of the three P proteins, PB1, PB2 and PA (Honda et al. (1990) J. Biochem. 107, 624-628). For detailed analysis of the role of each P protein and of the functional domains on each P polypeptide, we expressed individual P proteins in cultured insect cells after infection with recombinant baculoviruses. PB1 and PB2 accumulated in cell nuclei whereas PA stayed in cytoplasm. Both the PB1 and
PB2 proteins
were purified from aggregates in the respective nuclear extract, and the PA was partially purified from the cytoplasm. RNA polymerase was reconstituted by mixing the three P proteins in a
urea
solution and then dialyzing against a reconstitution buffer. The reconstituted enzyme was able to transcribe model RNA templates. Minus-sense RNA was a better template than plus-sense RNA.
...
PMID:Reconstitution of influenza virus RNA polymerase from three subunits expressed using recombinant baculovirus system. 162 19
RNA-dependent RNA polymerase
(
RDRP
) activity was characterized in a cytoplasmic extract of Kunjin virus-infected Vero cells at 24 hr. The activity was influenced, possibly indirectly, by the length of prior treatment of infected cells with actinomycin D; however, 6 micrograms/ml actinomycin D and 10(-5) M alpha-amanitin in the
RDRP
assay had no effect. The replication complex was membrane-bound and Mg2+ was essential for
RDRP
activity. Incorporation was more dependent on exogenous UTP and GTP than ATP or CTP. The specific activity was low, and rate of incorporation of GMP decreased as the period of assay was increased; however, incorporation of label lasted for at least 60 min. RNA products were fractionated by LiCl precipitation, and kinetic studies showed that the sequence of accumulation of label was the same as that observed in vivo, viz., RI----RF----44 S RNA; limited reinitiation was also observed. This sequence of labeling also indicated that the in vitro
RDRP
activity was due to an enzyme capable of elongation, release, and reinitiation of Kunjin RNA synthesis and not merely end labeling or elongating preexisting RNA molecules. No labeled bands in
urea
-polyacrylamide gels were observed using extracts from mock-infected cells and hence the three RNA products of assays were readily identified in a single gel. The replication complex was still active after treatment with nonionic detergent, but no labeled 44 S RNA was detected in gels, even in the presence of RNasin in the assay which inhibited some nuclease activity. Antibodies to flavivirus-specific nonstructural proteins were preincubated with infected cell extracts in the presence and absence of detergent but no inhibition of
RDRP
activity was observed. However, anti-dsRNA plus detergent blocked activity by as much as 78% and label was found only in RF.
...
PMID:Characterization of Kunjin virus RNA-dependent RNA polymerase: reinitiation of synthesis in vitro. 302 75
Previous in vitro data on type I collagen self-assembly into fibrils suggested that the amino acid 776-796 region of the alpha1(I) chain is crucial for fibril formation because it serves as the recognition site for the telopeptide of a docking collagen monomer. We used a natural collagen mutation with a deletion of amino acids 766-801 to confirm the importance of this region for collagen fibril formation. The proband has type III osteogenesis imperfecta and is heterozygous for a COL1A1 IVS 41 A(+4) --> C substitution. The intronic mutation causes splicing of exon 41, confirmed by sequencing of normal and shorter reverse transcriptase-PCR products. Reverse
transcriptase
-PCR using RNA from proband dermal fibroblasts and clonal cell lines showed the mutant cDNA was about 15% of total alpha1(I) cDNA. The mutant transcript is translated; structurally abnormal alpha chains are demonstrated in the cell layer of proband fibroblasts by SDS-
urea
-PAGE. The proportion of mutant chains in the secreted procollagen was determined to be 10% by resistance to digestion with MMP-1, since chains lacking exon 41 are missing the vertebral collagenase cleavage site. Secreted proband collagen was used for analysis of kinetics of binding of alpha1(I) C-telopeptide using an optical biosensor. Telopeptide had slower association and faster dissociation from proband than from normal collagen. Purified proband pC-collagen was used to study fibril formation. The presence of the mutant molecules decreases the rate of fibril formation. The fibrils formed in the presence of 10-15% mutant molecules have strikingly increased length compared with normal collagen, but are well organized, as demonstrated by D-periodicity. These results suggest that some collagen molecules containing the mutant chain are incorporated into fibrils and that the absence of the telopeptide binding region from even a small portion of the monomers interferes with fibril growth. Both abnormal fibrils and slower remodeling may contribute to the severe phenotype.in
...
PMID:Procollagen with skipping of alpha 1(I) exon 41 has lower binding affinity for alpha 1(I) C-telopeptide, impaired in vitro fibrillogenesis, and altered fibril morphology. 1170 4
A naturally occurring atrazine-resistant cyanobacterial isolate, strain SG2, was isolated from an atrazine-containing wastewater treatment system at the Syngenta atrazine production facility in St. Gabriel, La. Strain SG2 was resistant to 1,000 microg of atrazine per ml but showed relatively low resistance to diuron [3-(3,4-dichlorophenyl)-1,1-dimethyl
urea
]. Analyses of 16S ribosomal DNA indicated that strain SG2 falls into the Synechocystis/Pleurocapsa/Microcystis group. Photosynthetically driven oxygen evolution in strain SG2 was only slightly inhibited (about 10%) by 2,000 microg of atrazine per ml, whereas in the control strain Synechocystis 6803, oxygen evolution was inhibited 90% by 1,000 microg of atrazine per ml. No atrazine accretion, mineralization, or metabolites were detected when strain SG2 was grown with [(14)C]atrazine. Strain SG2 contained three copies of the psbA gene, which encodes the D(1) protein of the photosystem II reaction center. Nucleotide sequence analyses indicated that the psbA2 and psbA3 genes encoded predicted proteins with the same amino acid sequence. However, the psbA1 gene product contained five extra amino acids, which were not found in PsbA proteins from five other cyanobacteria. Moreover, the PsbA1 protein from strain SG2 had an additional 13 amino acid changes compared to the PsbA2/PsbA3 proteins and contained 10 amino acid alterations compared to conserved residues found in other cyanobacteria. Reverse
transcriptase
PCR analysis indicated that the psbA1 gene and the psbA2/psbA3 gene(s) were expressed in photosynthetically grown cells in the presence of atrazine. These results suggest that strong selection pressure conferred by the continual input of atrazine has contributed to the evolution of a herbicide-resistant, yet photosynthetically efficient, psbA gene in a cyanobacterium.
...
PMID:Novel psbA1 gene from a naturally occurring atrazine-resistant cyanobacterial isolate. 1187 88
Based on the integral role that argininosuccinate synthase (AS) plays in the production of nitric oxide in vascular endothelial cells and
urea
in liver, an analysis was carried out to determine whether signals reside in the AS mRNA to account for tissue differences in AS function and location. Reverse
transcriptase
-PCR and sequence analysis showed that the AS mRNA coding region was the same for both endothelial cells and liver; however, 5'-RACE analysis (rapid amplification of cDNA ends) identified AS mRNA species in endothelial cells in addition to a major 43-nucleotide (nt) 5'-untranslated region (UTR) AS mRNA with overlapping extended 5'-UTRs of 66 and 92 nt. Comparison to the genomic sequence immediately upstream of the reported transcription start site for the human and mouse AS gene suggested that expression of all three species of bovine endothelial AS mRNA are driven by a common promoter and that 5'-UTR diversity in endothelial cells results from three transcriptional initiation sites within exon 1. RNase protection analysis and real-time reverse transcriptase-PCR verified and quantitated the differential expression of the extended 5'-UTR species relative to the major 43-nt 5'-UTR AS mRNA. In vitro translation studies showed a less pronounced but similar discordant expression. Sequential deletions starting from the 5' terminus of the 92-nt 5'-UTR construct resulted in a corresponding increase in translational efficiency, but the most pronounced effect resulted from mutation of an upstream open reading frame, which restored translational efficiency of the 92-nt 5'-UTR AS mRNA. When the different AS mRNA 5'-UTRs, cloned in front of a luciferase reporter gene, were transfected into endothelial cells, the pattern of luciferase expression was nearly identical to that observed for the different 5'-UTR AS mRNAs in endothelial cells. Given the different roles ascribed for argininosuccinate synthase,
urea
versus NO production, these results suggest that sequence in the AS gene represented by position -92 to -43 nt from the translation start site in the extended AS mRNA 5'-UTRs plays an important role in differential and tissue-specific expression.
...
PMID:Endothelial argininosuccinate synthase mRNA 5'-untranslated region diversity. Infrastructure for tissue-specific expression. 1196 59
Results regarding the nitric oxide (NO) system in uraemia are contradictory. L-arginine, the precursor of NO, is also metabolized by arginase to form ornithine and
urea
. In the present study, endothelial NO production and arginine metabolism in uraemia were assessed. In addition an in vivo model was used to examine excess consumption of NO in uraemia. NO and amino acid measurements were made from basal and stimulated (by bradykinin) uraemic and control endothelial cells. Reverse-
transcriptase
PCR was used to assess endothelial NO synthase (eNOS) and inducible NOS (iNOS) expression. Finally, aortae of uraemic rats were stained for nitrotyrosine (a marker of peroxynitrite). Basal uraemic cells produced more NO than the control cells. L-arginine levels were greater in uraemic (supernatants/cells), but ornithine levels were higher in control (supernatants/cells). Following stimulation, NO levels in supernatants were similar, but the rise in NO production was greater in control compared with uraemic cells; l-arginine levels still remained higher in uraemic supernatants/cells. Differences in ornithine concentration (supernatants/cells) disappeared following bradykinin stimulation, due to a rise in ornithine levels in the uraemic group. There was no difference in eNOS expression, nor was iNOS detected in either group. Only aortae from uraemic rats showed evidence for nitrotyrosine staining. These studies demonstrated increased basal NO release in uraemic endothelial cells, perhaps by inhibition of arginase and hence diversion of arginine to the NO pathway. The increased NO produced under basal conditions may be inactive due to excessive consumption, resulting in peroxynitrite formation. Interestingly, bradykinin appears to restore arginase activity in uraemia, resulting in normalization of NO production.
...
PMID:Altered L-arginine metabolism results in increased nitric oxide release from uraemic endothelial cells. 1209 1
By passing wild type bovine viral diarrhoea virus (BVDV) in increasing concentrations of DPC-A69280-29, a thiazole
urea
class compound that inhibits BVDV replication, we were able to select several variants of BVDV that exhibited decreased susceptibility to this compound. When the non-structural genes of these variants were sequenced and compared with wild type, only one change was common to all the variants that also exhibited resistance to DPC-A69280-29 (>10-fold increase in IC50). This change was a T-to-A transversion at position 11198 of the BVDV genome, which would cause a predicted substitution of isoleucine for phenylalanine at amino acid 78 of the
RNA-dependent RNA polymerase
(RdRp). This substitution would occur in a region of the BVDV RdRp which has been proposed to be important for the formation of the RdRp homodimer that is essential for the activity of the enzyme. However, since DPC-69280-29 inhibits BVDV replication by interfering with the initiation of viral RNA synthesis, we discuss the possibility that this region of the BVDV RdRp also may play a role in the initiation process. Furthermore, since this region is located fairly close to the template RNA, we also propose that the role it plays may involve either template selection, stabilization or processivity.
...
PMID:Selection of a thiazole urea-resistant variant of bovine viral diarrhoea virus that maps to the RNA-dependent RNA polymerase. 1263 Jun 80
In this study we tried to find the role of some waterborne viruses in repeated abortion of women. The study includes maternal blood serum and fetal tissue. The serum of full-term delivered women was taken as a control. All collected samples were inoculated on BGM and Hep2G cells to detect entero and Hepatitis E viruses. Enzyme-linked immunosorbent assay was also carried out for IgM and IgG antibodies against HEV in all serum samples. HEV-Ag was determined by dot-ELISA, which used also for enterovirus typing. Reverse
transcriptase
polymerase chain reaction was used for detection of entero and HE virus RNAs in the collected serum samples. To follow up the source of virus transmission, the wastewater treatment plant which serves the area of samples population was studied at the intake and the final effluent for the presence of hepatitis E virus and enteroviruses with special reference to coxsackieviruses. Wastewater samples were collected for 1 year and for enterovirus concentration the adsorption-elution on nitrocellulose membrane was used and for HEV, two methods of virus concentration were used,
urea
arginine phosphate buffer (U-APB) and PEG8000. The results of HEV investigation of aborted women sera was 22% for IgG, 3% for IgM, 20% HEV-Ag, and 16% of HEV-RNA by RT-PCR. For fetal tissue, HEV-Ag was detected in 5% of the collected samples. The detected enteroviruses were coxsackieviruses types 2, 3,4 and 5 in all serum samples and wastewater samples. The results showed also, that virus concentration by U-APB is much better than PEG-8000 but not highly efficient.
...
PMID:Waterborne viruses associated with repeated abortion. 1721 39
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