EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Simian virus 40 large tumor antigen was isolated by immunoaffinity chromatography from monkey or mouse cell cultures undergoing lytic or transforming infection. RNase-treated gel-purified large tumor antigen, on hydrolysis with alkali, gave about equimolar amounts of AMP, GMP, CMP, and UMP. Furthermore, RNA fragments of approximately 45 nucleotides could be isolated from large tumor antigen purified by the same procedure. Mapping of the T1 oligonucleotides showed a high complexity, as indicated by the presence of unique sequences of 15-30 nucleotides and of poly(A). This is compatible with the hypothesis that these RNA fragments are derived from cellular pre-mRNAs or mRNAs. Our results suggest that Simian virus 40 large tumor antigen is a RNA-binding protein and might possibly be involved in regulation of synthesis, maturation, or translation of cellular mRNAs.
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PMID:Simian virus 40 large tumor antigen: a "RNA binding protein"? 617 63

In vitro RNA synthesis by purified virions of a stock of tsG16(I) was aberrant compared with that of wild-type (wt) vesicular stomatitis virus. RNA made in vitro by tsG16(I) contained a larger proportion of A residues in polyadenylic acid [poly(A)] tracts than did RNA synthesized by wt virus, tsG13(I), tsG21(II) or tsG41(IV). Experiments to determine whether the aberrant polyadenylation was correlated with the known thermolability of the tsG16(I) L protein were inconclusive. Total product RNA made by tsG16(I) was methylated to almost the same extent as wt RNA, contained the same major methylated 5' cap structure as wt RNA, and was translated as well in a reticulocyte cell-free system, yielding the same molecular weight proteins in similar ratios. Most polyadenylated [poly(A)+] RNA made by tsG16(I) was considerably larger than wt poly(A)+ RNA and richer in AMP:UMP residues; however, the protein-coding capacities of mutant and wt poly(A)+ RNAs were similar. This suggested that most mRNAs made in vitro by tsG16(I) might possess very long poly(A)+ tracts, and digestion of RNA by T1 RNase supported this. It appeared, therefore, that a virally coded component of vesicular stomatitis virus could affect polyadenylation. This could be the poly(A) polymerase itself, a protein involved in control of polyadenylation, or a protein which affects an event spatially and temporally connected with polyadenylation (such as initiation of the subsequent mRNA).
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PMID:Vesicular stomatitis virus mutant with altered polyadenylic acid polymerase activity in vitro. 619 14

The mechanism of poly ADPR synthesis and the transfer of poly ADPR to histone H1 molecule by electrophoretically homogenous calf thymus poly ADPR polymerase containing DNA was examined. 1) An acid insoluble radioactive complex (I) was obtained after incubation of purified enzyme with [3H] NAD. The stability of (I) was examined by SDS-polyacrylamide gel electrophoresis. The complex (I) was stable against acid, SDS, urea, DNase and RNase, but labile against pronase, trypsin, alkali and snake venom phosphodiesterase treatment. The molecular weight of (I) was about 130 000 daltons estimated by SDS-gel electrophoresis. The radioactive products of successive alkali, venom phosphodiesterase and Pronase hydrolysis of (I) were PR-AMP and AMP. The mean chain length of poly ADPR of (I) was 20--30. These results suggest that the complex (I) is poly ADP-ribosylated poly ADPR polymerase. 2) Besides (I), a second radioactive peak (II) was observed when acid insoluble products obtained from an incubation mixture containing purified poly ADPR polymerase, [3H] NAD and purified histone H1 were analyzed on SDS-polyacrylamide gel electrophoresis. The molecular weight of (II) was estimated to be about 23 000 daltons. The complex (II) is eluted like histone H1 on CM-cellulose columns and hydrolyzed by alkali, trypsin and snake venom phosphodiesterase but not by DNase, or RNase. The comples (II) was extracted selectively by 5 per cent perchloric acid or 5 per cent trichloroacetic acid from mixture of (I) and (II). The mean chain length of poly ADPR of complex (II) and 5--20; these results suggest that the complex (II) is poly ADP-ribosylated histone H1. 3) Results 1) and 2) indicate that purified DNA containing, thus DNA independent, poly ADPR polymerase catalyzes two different reactions, the ADPR transfer onto the enzyme itself and onto histone H1 and the elongation of ADPR chains. Dimeric forms of ADP-ribosylated histone H1 was not observed. Free poly ADPR was observed only when very small quantities of enzyme were used for incubation.
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PMID:Adenosine diphosphate ribosylation of histone H1 by purified calf thymus polyadenosine diphosphate ribose polymerase. 624 65

1) The inactivation of a RNase from Aspergillus saitoi (RNase Ms) was studied to obtain information on its active site. 2) Inactivation of RNase Ms by iodoacetamide was greater at an alkaline pH, and was protected more by 2',(3')-AMP than by 2',(3')-GMP. 3) Analysis of the hydrolysis products with 6 N HCl and alkaline treatment of carboxamidomethylated RNase Ms showed that the sites of reaction were one carboxyl group and one histidine residue. 4) Since the incorporation of a carboxamidomethyl group into carboxylic acid was not protected by 2',(3')-AMP, it was concluded that the formation of N1-carboxamidomethylhistidine was responsible for the loss of enzymatic activity of RNase Ms.
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PMID:Carboxamidomethylation of a ribonuclease from Aspergillus saitoi. 625 63

The effect of thyrotropin (TSH) on the ADP-ribosylation of endogenous thyroid cell acceptor proteins was examined. Cells were "permeabilized" at 4 degrees C in hypotonic medium and then exposed to [(32)P]- or [(3)H-adenine]NAD(+). The net incorporation of labeled ADP-ribose was measured by trichloroacetic acid precipitation. TSH (100 mU/ml) enhanced ADP-ribosylation with a maximum effect after 30-60 min in the majority of experiments. TSH stimulation was observed even when the incubation contained 1,000-fold more exogenous NAD(+) than the amount of NAD(+) contributed by the permeabilized cells, indicating an effect on enzymatic activity rather than an alteration in NAD(+) pool size or specific activity. No incorporation of radioactivity from labeled NAD(+) was observed in cells not rendered permeable to NAD(+) by hypotonic shock. TSH did not increase the rate of disappearance of trichloroacetic-precipitable radioactivity and did not contain intrinsic NAD(+) glycohydrolase activity. Alkali and snake venom phosphodiesterase, but not ribonuclease or deoxyribonuclease digestion of trichloroacetic acid precipitable thyroid cell radioactivity, revealed primarily 5'-AMP, consistent with an effect of TSH on mono-ADP ribosylation. Nicotinamide and thymidine (50 mM) inhibited both basal and TSH-stimulated ADP-ribosylation of thyroid cell protein. Dibutyryl cyclic (c)AMP (0.1 mM) inhibited endogenous ADP-ribosylation by approximately 35% but had no effect at lower concentrations. 0.5 mM isobutylmethylxanthine inhibited this reaction by approximately 60%. We suggest that TSH enhances thyroid cell ADP-ribosylation by a mechanism independent of cAMP as a second messenger, and that ADP-ribosylation plays a role in the expression of TSH.
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PMID:Hormonal stimulation of eucaryotic cell ADP-ribosylation. 626 5

RNase T2 bound to an affinity adsorbent, 5'-adenylate-aminohexyl-Sepharose 4B, specifically at pH 4.5. The colorless enzyme was eluted only by the simultaneous addition of 2'(3')-AMP (1 mM) and NaCl (greater than 1 M) at pH 4.5. By applying this affinity chromatography to the purification of RNase T2, pure enzyme with a specific activity of 60 was obtained in only four steps and the yield was about 10 times higher than that of the previous purification method. This enzyme preparation was found to be heterogeneous in molecular weight and was separated into two fractions on Sephadex G-75 gel filtration. As the smaller enzyme with a molecular weight of 36,000 was identical with RNase T2 in every property examined, we tentatively designated the larger one with an apparent molecular weight of 80,000 as high molecular weight RNase T2 (RNase T2-L). RNase T2-L was still heterogeneous and was separated into five fractions, RNases T2-L 1-5, by repeated Sephadex G-150 gel filtration. The amino acid and carbohydrate analyses revealed that each of these fractions has a protein moiety in common with RNase T2 and the heterogeneities were due to the carbohydrate content, mainly galactose content.
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PMID:An affinity adsorbent, 5'-adenylate-aminohexyl-sepharose. II. Purification and characterization of multi-forms of RNase T2. 627 42

The sub-cellular distribution of low Km cyclic AMP phosphodiesterase (defined as the EDTA-sensitive activity at 1 microM cyclic AMP) was examined using spheroplast lysates and mechanical disintegrates of yeast. Close to 65% of the enzyme was particle-bound in each case. Most of the bound activity in mechanical disintegrates sedimented at 145 000 g in an RNA-rich fraction, and could be solubilised from this fraction by RNase treatment. With spheroplast lysates, however, 50% of the enzyme co-sedimented with DNA at 5 000 g, and the highest specific activity was in purified nuclei with a protein/DNA mass ratio of 16. The results suggest that at least 50% of the enzyme is bound by ribosomes attached to the outer nuclear membrane.
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PMID:Low Km cyclic AMP phosphodiesterase of yeast may be bound to ribosomes associated with the nucleus. 628 8

The substrate specificity of diadenosine 5',5"'-P1,P4-tetraphosphate pyrophosphohydrolase from Physarum polycephalum for dinucleoside polyphosphates has been determined by high-performance liquid chromatography (HP-LC). Elution of a strong anion-exchange resin with a pH and ionic strength gradient of ammonium phosphate separates a series of monoadenosine and diadenosine polyphosphates. Most of the corresponding guanine nucleotides are also resolved on this HPLC system. One mole each of Ap4A and Gp4G is symmetrically hydrolyzed to 2 mol of ADP and GDP, respectively. Ap3A, Ap5A, Ap6A, and Ap4 are hydrolyzed, and in each case ADP is one of the products. Gp3G, Gp5G, Gp6G, and Gp4 are also substrates, and in each case GDP is one of the products. AMP, ADP, ATP, Ap2A, ADPR, GMP, GDP, GTP, NAD+, and NADP+ are not substrates. No hydrolysis of the cap dinucleotides m7Gp3Am and m7Gp3Cm was detected by HPLC. Diadenosine tetraphosphate pyrophosphohydrolase preparations were also assayed for adenylate kinase, nucleotide diphosphate kinase, NAD(P)+ pyrophosphohydrolase, phosphodiesterase, cyclic nucleotide phosphodiesterase, phosphatase, and ribonuclease activities. These enzymic activities were not detectable in diadenosine tetraphosphate pyrophosphohydrolase. The symmetrical hydrolysis of Ap4A and Gp4G is an unique catalytic property that distinguishes diadenosine tetraphosphate pyrophosphohydrolase from P. polycephalum from diadenosine tetraphosphate phosphohydrolases from other organisms.
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PMID:Diadenosine 5',5"'-P1,P4-tetraphosphate pyrophosphohydrolase from Physarum polycephalum. Substrate specificity. 629 57

Examination of double mutants lacking one of the exoribonucleases, RNase II, RNase D, RNase BN, or RNase R, and also devoid of tRNA nucleotidyltransferase has suggested that none of these RNases participates in the end-turnover of tRNA. This prompted a search for and identification of a new exoribonuclease, termed RNase T. RNase T could be detected in mutant Escherichia coli strains lacking as many as three of the known exoribonucleases, and it could be separated from each of the four previously described RNases. RNase T is optimally active at pH 8-9 and requires a divalent cation for activity. The enzyme is sensitive to ionic strengths greater than 50 mM and is rapidly inactivated by heating at 45 degrees C. Its preferred substrate is tRNA-C-C-[14C]A, with much less activity shown against tRNA-C-C. RNase T is an exoribonuclease that initiates attack at the 3' hydroxyl terminus of tRNA and releases AMP in a random mode of hydrolysis. The possible involvement of RNase T in end-turnover of tRNA and in RNA metabolism in general are discussed.
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PMID:Ribonuclease T: new exoribonuclease possibly involved in end-turnover of tRNA. 637 42

The helix content of rRNA species (Escherichia coli, Caldariella acidophila, rat liver) and the G . C content of their bihelical domains have been investigated by chemical modification of uracil and cytosine residues with probes specific for sterically exposed bases. By using radioactively labelled rRNA, G . C base pairs and the sum of A . U plus G . U base pairs have been quantified assuming that they are numerically identical with the unreactive cytosine and uracil rings, respectively. Exposed uracil bases were probed by their conversion to alkali-labile, nonultraviolet-absorbing sulphonated adducts, with 1.33 M bisulfite pH 7, at 20 degrees C; the adducts can be separated from unreacted uracil, and quantified, by cation-exchange chromatography of RNase T2 plus pancreatic RNase digests of bisulfite-modified rRNA. Exposed cytosines were probed by their conversion to methoxyaminated, alkali-stable, derivatives with 1 M methoxyamine, pH 5.5, at 37 degrees C, and quantified by monitoring the CMP/AMP radioactivity ratio after alkaline hydrolysis of modified rRNA. Exposed uracil rings can also be estimated spectrophotometrically by the alkali-catalyzed reversal of the non-ultraviolet-absorbing sulphonated adducts after separation of the latter from unreacted uracil. The cytosine deamination reaction, catalyzed by bisulfite at pH 6, has also been investigated and found to exhibit little specificity for sterically exposed bases of rRNA, the (G + C)-richer rRNA species of C. acidophila being considerably less susceptible to non-specific deamination than the (G + C)-poorer rRNA of E. coli. A high degree of congruence is shown to exist between results obtained by chemical modification and melting hyperchromicity experiments.
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PMID:Characterization of the secondary structure features of Escherichia coli, Caldariella acidophila and mammalian ribosomal RNA species by chemical modification of sterically exposed bases. 675 13

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