EC:3.1.26.9 - FACTA Search

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Query: EC:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Following irradiation of bovine pancreatic ribonuclease in aqueous solution with 60Co gamma-rays protein aggregates are formed. The nature of the bonds linking these radiation-induced aggregates together has been investigated by chromatographic and electrophoretic methods. Thin-layer gel filtration and polyacrylamide gel electrophoresis, both in the presence of sodium dodecyl sulphate, demonstrated the existence of covalent crosslinks between the aggregates. However, non-covalent crosslinking also plays a role in the radiolysis of ribonuclease. Thin-layer gel filtration with and without 6 M urea and 2 per cent beta-mercaptoethanol added to the gel, revealed that only part of the covalent bonds between the aggregates consisted of disulphide linkages. By separation of the reduced aggregates by thin-layer gel filtration and electrophoresis, both with SDS, this finding was substantiated. Densitometric measurements indicated for example that the percentage of covalently linked dimers held together by disulphide bridges amounted to about 40-45 per cent, whereas the remaining 55-60 per cent of the dimers must be linked by other covalent bonds. The existence of covalent crosslinks other than disulphide bonds was also confirmed by isoelectric focusing. By this method definite differences were established between the proteolytic hydrolysates of the reduced aggregates and the reduced monomer of gamma-irradiated ribonuclease.
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PMID:Structural investigation of radiation-induced aggregates of ribonuclease. 660 18

Inhibitors of neutral ribonuclease have been purified to homogeneity from beef, pig, sheep, mouse, and rat liver by affinity chromatography on Sepharose-RNase A with overall yields ranging from 60-80%. Each of the purified inhibitors presents a single band by SDS-gel electrophoresis; molecular weight estimates by SDS-gel electrophoresis and by gel filtration are ca. 50 000. Each of the inhibitors forms a complex with beef pancreatic RNase A with a molecular weight of ca. 64 000, suggestive of 1:1 binding on a molar basis. The inhibitors from liver are very similar in properties and amino acid composition to the previously isolated inhibitor from human placenta (Blackburn et al. (1977) J. Biol. Chem. 252, 5904) and beef brain (Burton et al. (1980) Int. J. Peptide Protein Res. 16, 359). Pig liver offers an alternative to human placenta as a source for an RNase inhibitor of this type (yield, ca. 8 mg/kg of tissue). Immunological similarities were examined using antiserum directed against human placental RNase inhibitor. Cross reactivity of the liver RNase inhibitors with the antiserum raised against placental RNase inhibitor ranged from 15% for mouse RNase inhibitor to as low as 2% for pig and sheep RNase inhibitor.
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PMID:Ribonuclease inhibitors from the livers of five mammalian species. 711 7

Human liver ribonuclease (RNase) was purified 36000-fold into an electrophoretically homogeneous state by column chromatography on phosphocellulose, gel filtration, poly(G) affinity chromatography, and heparin affinity chromatography. The molecular weight of the RNase estimated by SDS disc electrophoresis was 19,500. RNase was a heat- and pH-stable protein, and optimum activity was obtained at pH 7.0. The radioimmunoassay (RIA) for human liver RNase has been developed and the assay was shown to be sensitive (20 ng/ml), reproducible and specific. A good parallel relationship was observed between the standard curve and the dilution curves for serum and urine. No cross-activity was demonstrated between human liver and pancreatic RNase (less than 1%). In 44 normal subjects, the mean serum concentration of liver RNase determined by the RIA was found to be 99.4 ng/ml (SD +/- 66.3).
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PMID:Purification, characterization and development of radioimmunoassay of human liver ribonuclease. 712 39

Fumarase (EC 4.2.1.2) and mitochondrial L-malate dehydrogenase (EC 1.1.1.37) were both inhibited by NaAuCl4 and KAuBr4. The inhibition for both was measured as a function of gold complex concentration and aquation time, and the NaAuCl4 inhibition was also measured in the presence of 0.15 M NaCl. Regeneration of the enzyme activity after NaAuCl4 inhibition using L-cysteine, L-methionine and NaCN was also investigated. Sodium dodecyl sulfate (SDS) acrylamide gel electrophoresis and amino acid analysis was performed on the NaAuCl4 inhibited enzymes as well as on ribonuclease A (EC 3.1.26.2), lysozyme (EC 3.2.1.17) and liver alcohol dehydrogenase (EC 1.1.1.1). It was observed that the inhibition was proportional to the gold complex concentration but decreased markedly after aquation of the complex. In the presence of NaCl the initial rate of inactivation is essentially unaffected unless the complex has been aquated and then the initial rate is increased. Gel electrophoresis on gold complex-enzyme mixtures show polymerization for ribonuclease and lysozyme and amino acid analysis indicates that no oxidation has taken place. From these results, a binding mechanism is postulated for the inhibition of the dehydrogenases by direct displacement of a halide ligand, probably by two groups on the enzyme, at least one of which may be a sulfur containing acid.
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PMID:Inhibition of two mitochondrial enzymes by gold (III) halo complexes. Evidence for a binding mechanism. 715 Dec 34

A ribonuclease inhibitor from bovine brain has been purified 27 000-fold by affinity chromatography on Sepharose-RNase A with an overall yield of 46% (ca. 0.4 mg/kg tissue). The purified inhibitor gives a single band by SDS-gel electrophoresis. By gel filtration the molecular weight is ca. 50 000; the molecular weight of the complex with bovine pancreatic RNase A is ca. 62 000, indicative of 1:1 binding on a molar basis. The inhibition of the action of RNase A on yeast RNA by the inhibitor is noncompetitive with a Ki of 7 x 10(-10) M. The protein is very similar in its properties, including amino acid composition, to the inhibitor previously isolated from human placenta. The amount of inhibitor per g of protein in bovine brain is about one-seventh of the value for human placenta. No difference was found in the distribution of inhibitor between white and gray matter; one-tenth of the inhibitor present is bound to a brain ribonuclease which is released in active form after reaction with p-hydroxymercuribenzoate. Essentially no free neutral ribonuclease activity could be detected in brain homogenates in the absence of p-hydroxymercuribenzoate.
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PMID:Ribonuclease inhibitor from bovine brain. 721 11

RNA and protein interaction in the structure of influenza virus ribonucleoprotein (RNP) was studied by ultraviolet (UV) irradiation. After UV-irradiation of virion RNP for 1 hour only 6% of 3H-uridine-labeled RNA was found to go into the aqueous phase upon phenol-detergent extraction. Pretreatment of RNP with small doses of pancreatic RNase before RNA extraction slightly increased (up to 18%) the amount of RNA going into the aqueous phase. About 90% RNA was found after extraction in the aqueous phase in the nonirradiated material. As a result of UV-irradiation of RNP, RNA in RNP became more resistant to RNase: the residual acid-insoluble radioactivity was 21% whereas with nonirradiated RNP it was 3.2%. The results of the analysis of RNP labeled for protein in polyacrylamide gel and SDS-sucrose gradient after UV-irradiation and ribonuclease treatment indicate the formation of UV-induced linkages between RNA and NP protein.
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PMID:[RNA-protein interactions in influenza virus A ribonucleoprotein detected by UV radiation]. 733 92

n-Hexane is metabolized to the gamma-diketone 2,5-hexanedione (2,5-HD), a derivative that covalently binds to lysine residues in neurofilament (NF) protein to yield 2,5-dimethylpyrrole adducts. Studies comparing the pyrrole-forming potential and neurotoxic potency of gamma-diketones have demonstrated that pyrrolylation is an absolute requirement in the neuropathogenesis. Autoxidative cross-linking of pyrrolylated NF proteins occurs and is proposed as a second required event. In the present study, the role of nucleophilic thiols and amines in the pyrrole-mediated cross-linking reaction was investigated. When pyrrolylated ribonuclease was incubated with N-acetyllysine, N-acetylcysteine, or glutathione in physiologic buffer (pH 7.4) under air, pyrrole-to-pyrrole cross-linking was inhibited only by the thiol-containing compounds. Stable thiol--pyrrole conjugates containing a bridge from the pyrrole ring at C-3 to the sulfur atom of the thiol were characterized by thermospray LC/MS and 1H-NMR spectroscopy. In contrast to low-molecular-mass thiols, SDS--PAGE studies indicated that, under the same incubation conditions, free thiols present in proteins did not undergo reaction with pyrrole adducts to form cross-links. Further experiments using a low-molecular-mass pyrrole derivative indicated that glutathione may also able to suppress pyrrole dimerization without conjugate formation, possibly via inhibition of a free radical-dependent mechanism. The results suggest the following: (1) 2,5-HD-induced protein cross-linking is mediated primarily by pyrrole-to-pyrrole bridging under physiologic conditions, and (2) glutathione and other low-molecular-mass thiols may inhibit the pyrrole dimerization reaction by two distinct pathways. These findings have significant implications for the mechanism of gamma-diketone neuropathy.
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PMID:Inhibition of 2,5-hexanedione-induced protein cross-linking by biological thiols: chemical mechanisms and toxicological implications. 754 60

Ribonucleases are widely found on the tissues of living organisms, but the functions of individual ribonucleases are not clear. To facilitate characterization of individual ribonucleases, I have developed a rapid method to separate and identify each ribonuclease from a crude sample by gel electrophoresis instead of by time-consuming purification steps. The ribonucleases in a crude sample are first separated by RNA-cast SDS-polyacrylamide gel electrophoresis and then eluted from the gel after ethidium bromide staining. To determine the base specificity of each ribonuclease, a 5' labelled oligonucleotide with known sequence is added to the enzyme eluate and the digested products are analyzed by denaturing gel electrophoresis. The base specificity of bovine pancreatic ribonuclease (RNase A), bullfrog oocyte-specific ribonuclease (RC-RNase), human serum ribonucleases and sweet potato leaf ribonucleases were determined by this method. Other properties of individual ribonucleases, e.g. substrate preference, may also be determined from crude samples by this method without further purification steps.
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PMID:Determination of base specificity of multiple ribonucleases from crude samples. 756 55

Protein folding, associated with isomerization of disulfide bonds, was studied using the mixed disulfide between glutathione and reduced ribonuclease T1 (GS-RNase T1) as a stable soluble and homogeneous starting material; conditions were selected to model those within the lumen of the endoplasmic reticulum where native disulfide bonds are formed in protein biosynthesis. Folding was initiated by addition of free glutathione (GSH +/- GSSG) to promote thiol-disulfide interchange and was monitored by intrinsic protein fluorescence, appearance of native ribonuclease activity, HPLC, and nonreducing SDS-PAGE. All the analyses indicated that native RNase T1 was recovered in high yield in a variety of redox conditions. Appearance of native activity followed first-order kinetics; kinetic analysis of the intrinsic fluorescence changes indicated an additional rapid process in some conditions, interpreted as the formation of a nonnative intermediate state. Analysis by HPLC and SDS-PAGE also indicated the formation of transient intermediates. In 1.5 M NaCl, GS-RNase T1 adopts a compact native-like conformation; refolding by thiol-disulfide interchange in these conditions was accelerated approximately 2-fold. Refolding of GS-RNase T1 was catalyzed by protein disulfide isomerase (PDI); substoichiometric quantities of PDI accelerated refolding several-fold. GS-RNase T1 refolding was inhibited by BiP; refolding was completely blocked in presence of a 5-fold molar excess of BiP, and the yield of refolding was substantially reduced by equimolar concentrations of BiP; the refolding was then restored by the addition of ATP. GS-RNase T1 is a convenient model substrate for studying protein folding linked to native disulfide formation in conditions comparable to those within the lumen of the endoplasmic reticulum.
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PMID:Refolding by disulfide isomerization: the mixed disulfide between ribonuclease T1 and glutathione as a model refolding substrate. 762 8

We have purified a high molecular weight ribonuclease (hmRNase) from human milk by a two-step column chromatographic procedure and characterized the enzyme. The molecular mass of hmRNase is 80 kDa as determined from SDS-polyacrylamide gel electrophoresis. The pH optimum of the enzyme is in the range of 7.5-8.0, similar to other secretory RNases. hmRNase is pyrimidine-specific and cleaves the phosphodiester bond 3' to a pyrimidine residue. It selectively degrades the pyrimidine strand in poly(rA):poly(rU) and poly(dA):poly(rU) double stranded substrates. The extent of degradation for naturally occurring RNAs vary in the order tRNA < rRNA < mRNA at low enzyme concentrations. hmRNase shows allosteric behavior with positive cooperativity in its reaction on polynucleotide substrates. The activity of the enzyme is enhanced in the presence of monoribonucleotides. Antiserum obtained against purified hmRNase did not cross-react with low molecular weight RNase which is also present in milk. In addition, an immunologically cross-reacting species could not be detected in the serum, suggesting the origin of hmRNase in the mammary gland but not blood.
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PMID:Purification and characterization of a high molecular weight ribonuclease from human milk. 768 36

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