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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)
The extraction of a template-dependent and template-specific
RNA-dependent RNA polymerase
(nucleosidetriphosphate:RNA nucleotidyltransferase, EC 2.7.7.6) from a eukaryotic source is described. The enzyme, extracted from barley leaves infected with brome mosaic virus (BMV), is capable of incorporating high levels of radioactivity into trichloroacetic acid-insoluble products. The purification procedure included solubilization with nonionic detergent and precipitation with polyethylene glycol. The enzyme was more than 50 times more active than was a comparable preparation from mock-inoculated leaves and was stimulated more than 15-fold by the addition of BMV RNA to the reaction. Other viral RNA templates were less than 25% as efficient as was BMV RNA in stimulating
UMP
incorporation; poly(A), tRNA, and mRNA gave little stimulation and rRNA was inactive. Autoradiographic analysis after electrophoretic separation of the radioactive products from reaction mixtures containing BMV RNA template revealed prominent bands that coelectrophoresed with replicative forms of BMV RNAs. When BMV RNA template was enriched in RNA3 or RNA4, larger proportions of the products were replicative forms of RNA3 or RNA4, respectively.
...
PMID:Highly active template-specific RNA-dependent RNA polymerase from barley leaves infected with brome mosaic virus. 29 12
To facilitate further studies of flavivirus transcription, cell extraction methods and in vitro reaction conditions which increased West Nile virus (WNV)
RNA-dependent RNA polymerase
activity were determined. Subcellular fractions from WNV-infected BHK-21/W12 cells were characterized with regard to their protein and RNA content and in vitro polymerase activity. In both a cytoplasmic fraction, designated S1, and a fraction enriched for outer nuclear membranes, designated S2, seven virus-specific proteins, NS5 (96 kilodaltons [kDa]), NS3 (67 kDa), E (48 kDa), NS1 (47 kDa), ns4a (26 kDa), ns2a (17 kDa), and ns2b (14.5 kDa), were detected. The fractions also contained virus-specific RNA and cellular rRNA and mRNA. Polymerase activity in S1 and S2 fractions from WNV-infected cells was concentrated by pelleting and consisted of two types of enzyme activities: the WNV
RNA-dependent RNA polymerase
and terminal transferases of cellular origin. Enhanced levels of WNV polymerase activity were obtained from these cell fractions by altering several of the in vitro reaction conditions. Although Mg2+ was the divalent cation preferred by WNV polymerase, virus-specific in vitro transcription was detected at reduced levels when Mn2+ (0.05 or 0.5 mM) was present as the sole divalent cation. Product analysis revealed that the viral polymerase incorporated radiolabeled ribonucleotides into three distinct RNA species. Free single-stranded genome-sized RNA which was LiCl insoluble and RNase sensitive was found by fingerprint analysis to have an oligonucleotide pattern similar to that of WNV genomic RNA. RNA molecules which comigrated as a broad band near the top of the gel were separable into LiCl-insoluble, partially RNase-sensitive replicative-intermediate RNA and LiCl-soluble, RNase-resistant replicative-form RNA. The cellular transferases added
UMP
or AMP residues to the 3'-termini of cellular mRNA, tRNA, and 18S and 28S rRNA. Although a cellular terminal transferase has been reported to function in initiation of poliovirus transcription, no labeling of the WNV RNA by either of these cellular enzymes was detected. Therefore, they appear to play no specific role in flavivirus RNA synthesis.
...
PMID:Characterization of West Nile virus RNA-dependent RNA polymerase and cellular terminal adenylyl and uridylyl transferases in cell-free extracts. 302 63
Influenza B/LEE/40, B/Rome/1/67, B/Hong Kong/8/73, and B/Victoria/98926/70 viruses have a similar polypeptide composition as analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis. These viruses are composed of six or seven polypeptides, depending on whether one or two high-molecular-weight polypeptides are resolved, ranging in molecular weights from 27,000 to 90,400. Three of these polypeptides, namely the heavy and light hemagglutinin chains and the neuraminidase, have attached carbohydrate. Highly purified influenza B/LEE/40 and B/Rome/1/67 virus preparations have
RNA-dependent RNA polymerase
activity equivalent to the incorporation of 100 and 30 pmol, respectively, of (3)H-
UMP
per mg of virus protein per h at 37 C, which is demonstrated only in detergent-treated virus suspensions. However, no RNA-dependent DNA polymerase enzyme activity was detected in the two viruses although virus suspensions were "activated" by heat, alpha-chymotrypsin, and detergents. Other enzymatic activities were associated with purified preparations of influenza B virus and were attributed to minor contamination of virus with host cell enzymes. Thus, nucleoside and deoxynucleoside phosphohydrolase enzymes were active in the absence of detergents and catalyzed the release of 1,200 and 1,800 nmol of P(i) per mg of virus protein in 30 min at 37 C from ATP and dATP substrates. Thin-layer chromatography indicated that the products of the phosphohydrolase enzymes of influenza B/LEE/40 were mainly nucleoside diphosphate and monophosphate. The latter enzymes were tightly bound to influenza B/LEE/40 virus and could not be removed completely by repeated centrifugation, including centrifugation of the virus to equilibrium in density gradients of 25 to 40% (wt/vol) cesium chloride. A low degree of RNase (approximately 0.01 mug% contamination) and phosphatase (10-30 nmol of P(i) released per mg of virus protein per 30 min) activity was detected in some, but not all, influenza B/LEE/40 virus preparations.
...
PMID:Polypeptide composition of Influenza B viruses and enzymes associated with the purified virus particles. 435 55
A soluble
RNA-dependent RNA polymerase
was purified from the cytoplasm of poliovirus-infected HeLa cells. A single virus-specific protein designated as p63 (or NCVP4) copurified with this activity. The purified polymerase was free of ribonuclease activity and was shown to copy poliovirion RNA when oligo(U) was added to the in vitro reaction mixture. Characterization of the product RNA by electrophoresis in methylmercury (II) hydroxide-agarose gels showed that genome-sized copies of poliovirion RNA were synthesized in vitro by the purified polymerase. The product RNA was shown to be heteropolymeric, complementary to virion RNA, and covalently linked to oligo(U). The product RNA contained the expected distribution of
UMP
and GMP containing dinucleotide pairs which included a very low frequency of CpG pairs. The amount, size distribution, and rate of synthesis of product RNA was very dependent on the in vitro reaction conditions. Full sized product RNA was synthesized in about 6 min when reaction conditions were used that yielded maximum elongation rates (pH 8.0, 7 mM Mg2+, 37 degrees C). Under these conditions, most of the product RNA recovered from a 1-h reaction was full sized. Thus, the polymerase was found to specifically initiate synthesis at the 3'-end of the template using an oligo(U) primer and to carry out an elongation reaction at about 1250 nucleotides/min that resulted in the synthesis of full sized product RNA.
...
PMID:Genome-length copies of poliovirion RNA are synthesized in vitro by the poliovirus RNA-dependent RNA polymerase. 627 40
The presence of terminal nucleotidyl transferase activities catalyzing the addition of AMP, CMP, GMP, and
UMP
residues to the 3' ends of oligonucleotide primers was detected in healthy tomato plants. These enzyme activities copurify with
RNA-dependent RNA polymerase
during the initial stages of purification. Their separation from
RNA-dependent RNA polymerase
is finally achieved by DEAE chromatography: terminal transferase activities are retained on DEAE while
RNA-dependent RNA polymerase
does not bind in the presence of 20 mM MgCl2. Elution by a linear gradient of 0 to 400 mM NH4Cl releases all four terminal transferase activities from the DEAE column at a concentration of 270 mM NH4Cl, thus suggesting that they may belong to one enzyme molecule; this question, however, needs further clarification. The enzyme activities are completely dependent on the presence of an RNA primer and are strongly influenced by its base composition as well as its chain length. Characterization of the respective reaction products by electrophoresis on 15% polyacrylamide sequencing gels reveals striking differences as to the number of nucleotides added to a given primer. In the case of
UMP
transfer to U8 or A8 and in the case of GMP transfer to A8 only 1 to 6 nucleoside monophosphates are added to the 3' terminus of the oligonucleotide primer, whereas in the case of AMP transfer to A8 or U8, the CMP transfer to A8, and the GMP transfer to U8, longer chains of minimally 30 nucleotides are added to the respective primer. After gradient elution from DEAE the transferase preparation displays no nucleolytic activity when incubated in the presence of 3H-labelled ribosomal RNA or [3H]poly(A) X poly(U). Only in the case of [3H]poly(A) and [3H]poly(U) or [3H]poly(C) 10 to 15% of the radioactivity is transferred to acid-soluble counts.
...
PMID:Simultaneous presence of terminal adenylyl, cytidylyl, guanylyl, and uridylyl transferase in healthy tomato leaf tissue: separation from RNA-dependent RNA polymerase and characterization of the terminal transferases. 628 7
The catalytic properties of electrophoretically homogeneous
RNA-directed RNA polymerase
(RdRP,
EC 2.7.7.48
) from tomato leaf tissue were studied with the aid of oligonucleotides of defined sequence. It was found that RdRP catalyzes in vitro the transcription of short single-stranded RNA and DNA molecules into precisely complementary RNA copies up to the full length of these templates. The transcription of RNA- and DNA-oligonucleotide templates was equally effective. Differences in transcription efficiency were found to depend on nucleotide sequence rather than on the RNA or DNA nature of the single-stranded nucleic acid. Double-stranded nucleic acids such as poly(A).poly(U) and a double-stranded DNA 14-mer were not transcribed. The RdRP-directed transcription could be primed because RNA and DNA dinucleotides and trinucleotides complementary to the 3'-terminal nucleotides of the template were extended by the enzyme. The unprimed transcription was shown to start preferentially at the 3'-terminal nucleotides of the template. RdRP is capable of adding a single noncomplementary nucleotide to the 3' terminus of about 50% of the runoff transcripts. AMP was preferred over GMP, whereas CMP and
UMP
were terminally added at very low frequency.
...
PMID:RNA-directed RNA polymerase from tomato leaves. II. Catalytic in vitro properties. 768 23
Hepatitis C virus (HCV) non-structural protein 5B (NS5B) is an
RNA replicase
. We expressed full-length NS5B (591 amino acid residues) in Escherichia coli as a fusion protein with maltose binding protein (MBP-NS5B). MBP-NS5B was recovered in the soluble fraction after centrifugation at 40,000 x g and affinity-purified with amylose resin. The purified MBP-NS5B had a high-level of poly (A), oligo (U)-dependent
UMP
incorporation with a Km of 2 microM for UTP. Surprisingly, the enzymatically active MBP-NS5B was sedimented by ultracentrifugation at 160,000 x g. The pellet contained 16S and 23S ribosomal RNAs, suggesting that ribosomes were associated with MBP-NS5B. Ribosomes and MBP-NS5B were subsequently co-purified on amylose resin. Deletion study revealed that either the N-terminal (amino acid residues 1-107) or the C-terminal (amino acid residues 498-591) region of NS5B were sufficient for this association with ribosomes. We further found that NS5B also bound with human ribosomes. Our results implicate a novel mechanism of coupling between replication and translation of the viral genome in the life cycle of HCV.
...
PMID:Hepatitis C virus NS5B RNA replicase specifically binds ribosomes. 1094 40
The HeLa cell terminal uridylyltransferase (TUTase) that specifically modifies the 3'-end of mammalian U6 small nuclear RNA (snRNA) was characterized with respect to ionic dependence and substrate requirements. Optimal enzyme activity was obtained at moderate ionic strength (60 mm KCl) and depended on the presence of 5 mm MgCl2. In vitro synthesized U6 snRNA without a 3'-terminal
UMP
residue was not accepted as substrate. In contrast, U6 snRNA molecules containing one, two or three 3'-terminal
UMP
residues were filled up efficiently, generating the 3'-terminal structure with four
UMP
residues observed in newly transcribed cellular U6 snRNA. In this reaction, the addition of more than one
UMP
nucleotide depended on higher UTP concentrations. The analysis of internally mutated U6 snRNA revealed that the fill-in reaction by the U6-TUTase was not controlled by opposite-strand nucleotides, excluding an
RNA-dependent RNA polymerase
mechanism. Furthermore, electrophoretic mobility-shift analyses showed that the U6-TUTase was able to form stable complexes with the U6 snRNA in vitro. On the basis of these findings, a protocol was developed for affinity purification of the enzyme. In agreement with indirect labeling results, PAGE of a largely purified enzyme revealed an apparent molecular mass of 115 kDa for the U6-TUTase.
...
PMID:Biochemical characterization of a U6 small nuclear RNA-specific terminal uridylyltransferase. 1260 30
Picornavirus RNA replication is initiated by the covalent attachment of a
UMP
molecule to the hydroxyl group of a tyrosine in the terminal protein VPg. This reaction is carried out by the viral
RNA-dependent RNA polymerase
(3D). Here, we report the X-ray structure of two complexes between foot-and-mouth disease virus 3D, VPg1, the substrate UTP and divalent cations, in the absence and in the presence of an oligoadenylate of 10 residues. In both complexes, VPg fits the RNA binding cleft of the polymerase and projects the key residue Tyr3 into the active site of 3D. This is achieved by multiple interactions with residues of motif F and helix alpha8 of the fingers domain and helix alpha13 of the thumb domain of the polymerase. The complex obtained in the presence of the oligoadenylate showed the product of the VPg uridylylation (VPg-
UMP
). Two metal ions and the catalytic aspartic acids of the polymerase active site, together with the basic residues of motif F, have been identified as participating in the priming reaction.
...
PMID:The structure of a protein primer-polymerase complex in the initiation of genome replication. 1645 46
The template dependence of
RNA-dependent RNA polymerase
from brome mosaic virus (BMV)-infected barley was greatly increased by micrococcal nuclease digestion of the endogenous RNA. [32P]
UMP
incorporation by the nuclease-treated enzyme was stimulated 20-fold when BMV RNA was added as template, while incorporation by the untreated enzyme was stimulated only 5-fold by the addition of BMV RNA. Other properties of BMV polymerase were not changed significantly by nuclease digestion. The extract remained highly active and template specific. Analysis of the products of the reaction showed that separated BMV RNA components could be replicated independently to yield full-length replicative-form RNAs. These data provide strong evidence that the extract is capable of initiating RNA synthesis and that it includes the intact viral replicase. This method should be of general use, allowing the study of cell-free replication of any viral nucleic acid without requiring purification or solubilization of the replicase.
...
PMID:Use of micrococcal nuclease in the purification of highly template dependent RNA-dependent RNA polymerase from brome mosaic virus-infected barley. 1863 91
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