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)

1. Treatment of rat liver polysomes in a buffer containing 2.5mm-magnesium chloride with T(1) ribonuclease at a concentration of 330units/ml. of reaction medium at 37 degrees for 2hr. leads to the production of an insoluble nucleoprotein. 2. On the bases of analysis for protein and RNA and of u.v.-absorption spectra the nucleoprotein appears to have lost approx. 60% of the structural RNA originally present in the ribosome. Degradation of (3)H-labelled polysomes (structural RNA labelled with orotic acid) with T(1) ribonuclease leads to nucleoprotein preparations retaining approx. 30% of the radioactivity originally present in the polysomes. By means of sucrose-density-gradient centrifugation it is shown that the nucleoprotein preparations are free of single 73s ribosomes and ribosomal subunits. No evidence for the presence of 28s and 18s structural RNA was obtained on examination of extracted nucleoprotein-particle RNA by means of sucrose-density-gradient centrifugation. 3. Digestion of washed polysomes carrying (14)C-labelled nascent peptide chains with T(1) ribonuclease gives a nucleoprotein particle that retains approx. 70% of the original labelled chains. Treatment of labelled nucleoprotein particles with 1mm-puromycin in the absence of transfer factors releases 20% of the labelled chains. Addition of GTP (0.48mumole) increases this release to 37%. 4. Treatment of nucleoprotein particles carrying (14)C-labelled peptide chains with either EDTA (50mm) or ammonium chloride (0.5m) brings about a small release of labelled material (approx. 15%). 5. Disruption of nucleoprotein particles carrying (14)C-labelled peptide chains with either sodium dodecyl sulphate or 2m-lithium chloride, followed by addition of transfer RNA as marker and chromatography on Sephadex G-200, show in both cases that considerable amounts of labelled peptide material move well ahead of the added transfer RNA marker. Further, if nucleoprotein particles carrying labelled peptide chains are treated with 0.3m-potassium hydroxide at 20 degrees for 24 hr., neutralized to pH7.6, and then chromatographed on Sephadex G-200, the labelled peptide material moves much closer to the added transfer RNA marker. These results suggest that a proportion of the nascent (14)C-labelled peptides on the nucleoprotein are attached to transfer RNA or large fragments of transfer RNA. 6. [(3)H]Polyuridylic acid binds to nucleoprotein particles in 1mm-magnesium chloride. The rate of binding is rapid when measured at 20 degrees .
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PMID:Studies on a nucleoprotein prepared from rat liver polysomes by digestion with T1 ribonuclease. 498 23

Salivary gland nuclei of Drosophila hydei, isolated by a modification of the procedure described by Boyd et al. (9), retain their normal morphology during the isolation and subsequent incubation procedure. RNA synthesis was studied in isolated nuclei by biochemical and cytological techniques. In radioautographs 70% of the nuclei displayed a distribution of labeled RNA over the nuclear constituents similar to the distribution obtained after in vivo incorporation of radioactive precursor. Chromosome puffs and the nucleoli were specifically labeled. The remaining 30% of the nuclei showed a weak to very weak incorporation of radioactive precursor. In these nuclei most of the radioautographic grains were concentrated over the nucleolus, and a few grains were randomly distributed over the chromosomes. Actinomycin D and the absence of ATP, GTP, and CTP in the medium inhibited incorporation of radioactive precursor. The radioactive product was sensitive to combined pronase and RNase digestion. Addition of E. coli RNA polymerase to the incubation medium enhanced the specific labeling over the puffed regions. The sedimentation behavior of the RNA synthesized in isolated nuclei was different from that of RNA synthesized during a 20 min pulse of radioactive precursor administered to whole glands in vivo and in vitro. Neither the steroid ecdysterone nor a temperature treatment was effective in inducing new puffs in isolated nuclei.
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PMID:Structural and functional properties of polytene nuclei isolated from salivary glands of Drosophila hydei. 578 75

We employed the photoaffinity probe 8-azido-adenosine 5'-triphosphate (aATP) to identify the nuclear envelope (NE) nucleosidetriphosphatase activity (NTPase) implicated in control of RNA transport. The photoprobe was hydrolyzed at rates comparable to those for ATP, with a Michaelis constant of 0.225 mM. Photolabeling was dependent upon UV irradiation (300-nm max) and was not affected by quercetin. Unlabeled ATP or GTP competed with [32P]aATP in photolabeling experiments, and UTP was a less effective competitor, paralleling the substrate specificity of the NTPase. Incubation of NE with aATP led to a UV, time, and concentration dependent irreversible inactivation of NTPase. The inactivation could be blocked by ATP or GTP. Polyacrylamide gel electrophoresis and autoradiography of photolabeled NE showed selective, UV-dependent labeling of a 46-kDa protein with both [gamma-32P]aATP and [alpha-32P]aATP. This band was not labeled with [gamma-32P]ATP. Since the NE NTPase implicated in RNA transport is modulated by RNA, we examined the effects of RNA on the labeling process. Removal of RNA from the NE preparations (by RNase/DNase digestion) reduced NTPase by 30-40% and eliminated photolabeling of the 46-kDa band. Addition of yeast RNA to such preparations increased NTPase activity to control levels and selectively reinstated photolabeling of the 46-kDa band. These results suggest that the 46-kDa protein represents the major NTPase implicated in RNA transport.
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PMID:Photoaffinity labeling of the major nucleosidetriphosphatase of rat liver nuclear envelope. 608 95

Cytochemical tests for nucleosidetriphosphatase (NTPase) and Bernhard's preferential staining for ribonucleoproteins (RNP) were applied to isolated rat liver nuclei. The strongest and most easily reproducible positive reaction for NTPase was detected at pH 7.7 with ATP and GTP. This reaction was activated by Mg2+ and Ca2+ and inhibited by Be2+, Zn2+, quercetin, and ribonuclease. The major sites of enzyme reaction were intranuclear RNA-containing structures. Incubation of nuclei in ATP-stimulated RNA-release medium eliminated a considerable part of the material showing both NTPase reaction and staining for RNP; the perichromatin granules disappeared, while interchromatin granules remained. NTPase activity in the nuclear envelope seems to be associated with the annular part of nuclear pore complexes (permanent component) and with RNP particles translocated through nuclear pores or attached to the surface of nuclei (transitional component). From a morphological point of view, these observations support previous biochemical data suggesting the existence of a connection between NTPase activity and the translocation of RNP particles through the nuclear envelope.
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PMID:Cytochemical studies on the relation of nucleoside triphosphatase activity to ribonucleoproteins in isolated rat liver nuclei. 615 90

Ternary transcription complexes have been formed with a HeLa cell extract, a specific DNA template, and nucleoside triphosphates. The assay depends on the formation of sarkosyl-resistant initiation complexes which contain RNA polymerase II, template DNA, and radioactive nucleoside triphosphates. Separation from the other elements in the in vitro reaction is achieved by electrophoresis in agarose - 0.25% sarkosyl gels. The mobility of the ternary complexes in this system cannot be distinguished from naked DNA. Formation of this complex is dependent on all parameters necessary for faithful in vitro transcription. Complexes are formed with both the plasmid vector and the specific adenovirus DNA insert containing a eucaryotic promoter. The formation of the complex on the eucaryotic DNA is sequence-dependent. An undecaribonucleotide predicted from the template DNA sequence remains associated with the DNA in the ternary complex and can be isolated if the chain terminator 3'-0-methyl GTP is used, or after T1 ribonuclease treatment of the RNA, or if exogenous GTP is omitted from the in vitro reaction. This oligonucleotide is not detected in association with the plasmid vector. Phosphocellulose fractionation of the extract indicates that at least one of the column fractions required for faithful runoff transcription is required for complex formation. A large molar excess of abortive initiation events was detected relative to the level of productive transcription events, indicating a 40-fold higher efficiency of transcription initiation vs. elongation.
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PMID:RNA polymerase II ternary transcription complexes generated in vitro. 619 89

An experimental approach was used to determine, and compare, the higher-order structure within domain VI of the 23 S ribosomal RNAs from Escherichia coli and Bacillus stearothermophilus. This domain, which encompasses approximately 300 nucleotides at the 3' end of the RNAs, consists of two large subdomains. The 5' subdomain has been conserved during evolution and appears to be functionally important for the binding of the EF-1 X GTP X aminoacyl-tRNA complex in eukaryotes. The 3' subdomain has diverged widely between eubacteria and eukaryotes, and has produced the 4.5 S RNA in the chloroplast ribosomes of flowering plants. The structure of domain VI within the eubacterial RNAs was probed with chemical reagents in order to establish the degree of stacking and/or accessibility of each adenosine, cytidine and guanosine residue; the double-helical segments were localized with the cobra venom ribonuclease from Naja naja oxiana, and the relatively unstructured and accessible sequences were detected with the single-strand-specific ribonucleases A, T1 and T2. The data enabled the three secondary structural models, proposed for the E. coli 23 S RNAs, to be examined critically and it was concluded that many of their structural features are correct. Various differences between the models were considered and evidence is provided for additional structuring in the RNA including the stacking of juxtaposed purines into double helices. The 5' subdomain constitutes a compact and resistant structure whereas the 3' subdomain is relatively accessible and contains most of the potential protein binding sites. Moreover, comparison of our results with the published results on 4.5 S RNA suggests that the latter forms essentially the same structure as the 3' subdomain, in contrast to earlier conclusions. A high level of structural conservation has occurred throughout the RNA domain during the evolution of the Gram negative and Gram positive bacteria although the thermophile was generally more stable at base-pairs adjacent to the terminal loops.
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PMID:Higher-order structure in the 3'-terminal domain VI of the 23 S ribosomal RNAs from Escherichia coli and Bacillus stearothermophilus. 620 6

CV1 cells were made permeable by treatment with lysolecithin and incubated in a transcription mixture containing ribonucleoside triphosphates including ATP or GTP 32P-labeled either in the alpha or beta position. 5'-terminal cap structures (7mGpgamma pbeta palpha X) on newly synthesized RNA were analyzed by digestion with nuclease P1 or with ribonuclease T2/bacterial alkaline phosphatase. Cap structures obtained after labeling with alpha-32P-GTP show that the 32P is found only adjacent to the 7mG residue (i.e., in the gamma position) and adjacent to the penultimate Gm or G nucleotide (i.e., in the alpha position). Analysis of RNA synthesized in the presence of beta-32P-ATP, however, shows GpppA cap structures which are labeled only in the beta position. In the presence of beta-32-p-GTP, only GpppG structures are labeled; these findings exclude the hypothesis that caps are synthesized from GTP and a monophosphate 5'-terminal RNA molecule. The results imply that the initial transcripts are used for cap formation, which indicates that the large majority (if not all) of capping sites correspond to initiation sites for transcription. In cells infected with wild-types SV40 the distribution of virus-specific caps is similar when labeled either with beta-32P-ATP or with alpha-32P-GTP or with 32p-phosphate. Thus, evidence is presented that heterogeneity of the cap structures in late SV40 is a consequence of independent initiation events and not of processing of a primary transcript followed by capping of the 5' ends generated.
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PMID:Initiation of transcription by RNA polymerase II in permeable, SV40-infected or noninfected, CVI cells; evidence for multiple promoters of SV40 late transcription. 625 23

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

The relative affinities of all Escherichia coli amino-acyl-tRNAs for E. coli elongation factor (EF) Tu-GTP have been measured by two independent applications of the competition form of the ribonuclease resistance assay. The set of aminoacyl-tRNAs includes at least one tRNA for each of the 20 amino acids as well as purified isoacceptor tRNA species for arginine, glycine, leucine, lysine, and tyrosine. In the first competition study, [3H]Phe-tRNA was used as the competing aminoacyl-tRNA against [14C]aminoacyl-tRNA in the set of all tRNAs; in the second study, [3H]Leu-tRNALeu4 was used as the competing aminoacyl-tRNA. The relative order of aminoacyl-tRNA affinities for EF-Tu-GTP was the same in each study. The results indicate that the affinity of EF-Tu-GTP at 4 degrees C, pH 7.4, is strongest for Gln-tRNA and weakest for Val-tRNA. Both Gly-tRNA and Pro-tRNA bind very strongly to EF-Tu-GTP relative to other aminoacyl-tRNAs. Various models of ternary complex interactions are discussed in light of the new data. Although the properties of the amino acid substituent are primarily responsible for the differences in relative affinities among the noninitiator aminoacyl-tRNAs, the results for the four isoacceptor species of Leu-tRNALeu indicate that the secondary structural features of the tRNA are also influential.
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PMID:Relative affinities of all Escherichia coli aminoacyl-tRNAs for elongation factor Tu-GTP. 637 Sep 98

The addition of detergent-solubilized influenza C virus to a reaction mixture containing ATP, CTP, GTP, [3H]UTP, and Mg2+ leads to the synthesis of an acid-insoluble, radioactive product, which is ribonuclease-sensitive. The dinucleoside monophosphate ApG clearly enhances the reaction rate, a fact which indicates that influenza C viruses follow the same strategy of transcription as influenza A and B viruses, the other members of the orthomyxovirus family.
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PMID:Influenza-C-virion-associated RNA-dependent RNA-polymerase activity. 654 51

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