Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A method is described for purification of sulfhydryl oxidase from bovine milk which consistently yields preparations with greater than 3000-fold purification over skim milk. A concentration-dependent association-dissociation of the enzyme was adapted to the development of an isolation procedure. Purified preparations exhibited two zones, both of which displayed activity, upon polyacrylamide disc gel electrophoresis, but only one zone following disc gel electrophoresis in sodium dodecyl sulfate. Its mobility indicated a subunit weight of 89,000. Several lines of evidence suggest that iron is an integral part of the enzyme. Treatment of the enzyme with EDTA resulted in complete loss of activity which could be subsequently restored by dialysis against 1 muM ferrous sulfate. Furthermore, atomic absorption analysis and neutron activation analysis of separate enzyme preparations each indicated 0.5 atom of iron per subunit. Chemical analyses of sulfhydryl oxidase accounted for 97% of the sample weight, of which 89% could be attributed to amino acid residues and 11% to carbohydrate residues. Five half-cystine residues per subunit were indicated by cysteic acid analysis and by sulfhydryl group determination following reaction with sodium borohydride. Comparison of this value to the total sulfhydryl groups without reduction tentatively suggests the presence of one disulfide bond. Sulfhydryl oxidase was found to catalyze the oxidation of sulfhydryl groups in both small compounds and proteins, using O2 as oxidant and producing, in equimolar quantities, H2O2 and the corresponding disulfide. A Michaelis constant of 90 muM was obtained using reduced glutathione as substrate, under conditions of optimal pH and temperature, viz., pH 7.0 and 35 degrees. Substrate inhibition was apparent at GSH concentrations above 0.8 mM. In the presence of sulfhydryl oxidase, reductively denatured RNase was reoxidized and fully reactivated within 1 hour, whereas in the absence of the oxidase under otherwise identical conditions, full recovery of RNase activity required 24 hours. The presence of reducing agent was not required for this activity, nor was prior reduction of the sulfhydryl oxidase. Based on the observed activity, it appears that the enzyme could be involved in the biosynthesis of disulfide bonds in certain proteins.
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PMID:Isolation and characterization of sulfhydryl oxidase from bovine milk. 112 23

Poly(dG-dC) and poly(I) form particularly stable complexes with Cu(I): thus characteristic UV absorbance changes enabled demonstration of Cu(I) transfer from poly(dA-dT) to poly(dG-dC), or from DNA to poly(I). Using pulse radiolysis to generate Cu(I), a rate constant of approximately 4 x 10(7) dm3 mol-1 s-1 (per base unit) was estimated for association of Cu(I) to native DNA, and slightly higher values were found for poly(dA-dT), poly(C), poly(dG-dC) and poly(G). For native DNA and for the models poly(dA-dT) and poly(dG-dC) the addition of Cu(I) was followed by secondary absorbance changes in the time scale of 10 ms, probably due to internal Cu(I) transfer; such secondary reactions were not detectable in heat-denatured DNA or in the homopolymers of A, C, G, and I. Extraction of Cu(I) from the DNA by EDTA is slow, 0.019 s-1, and independent of EDTA concentration, indicating that dissociation of the DNA-Cu(I) complex is the rate-determining step. A tentative value can hence be given for the DNA-Cu(I) stability constant: K = k (forward)/k (reverse) approximately 2 x 10(9) dm3 mol-1. Addition of H2O2 to solutions of gamma-radiolytically generated DNA-Cu(I), at Cu(I)/base less than 0.01, resulted in DNA degradation, comparable in yield to .OH-induced degradation. In the case of poly(dA-dT) and poly(dG-dC) the reaction of H2O2 with the corresponding Cu(I) complexes produced even more damage than the reaction of .OH. The formation of DNA-Cu(I), and the deleterious reaction with H2O2, were hardly affected by RNase or BSA, when added at equal (w/v) concentration. Dismutation of O2.- by (Cu,Zn)-SOD was partly inhibited by DNA and even more by poly(I) at pH 4.4, but not at pH 7, probably by competitive complexation of Cu(I), occurring in the catalytic cycle of SOD.
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PMID:Interaction of copper(I) with nucleic acids. 197 71

Protein disulfide-isomerase was isolated as a homogeneous protein from 15-day-old chick embryos. The enzyme has a molecular weight of 56,000 in SDS-polyacrylamide gel electrophoresis. Its Km value for randomly cross-linked ribonuclease, a protein used as a substrate for the enzyme, was 0.3 microM, and the Km value for DTT was 1.0 microM. Its optimum pH was 7.5 and its optimum temperature, 33 degrees C. The maximal velocity of pure protein disulfide-isomerase from chick embryos under optimal conditions was about 29,000 units/g. Protein disulfide-isomerase was able to activate purified prolyl 4-hydroxylase 2- to 3-fold, the activation being higher for enzyme stored for a longer time. This activation is probably due to the repairing of disulfide exchanges occurring in the prolyl 4-hydroxylase structure during purification and storage. Prolyl 4-hydroxylase activity was very stable in microsomes, however, and protein disulfide-isomerase was unable to increase the microsomal prolyl 4-hydroxylase activity, suggesting that prolyl 4-hydroxylase retains its native conformation in microsomes. Protein disulfide-isomerase was able to reactivate prolyl 4-hydroxylase inactivated by mild H2O2 treatment. The activity obtained after this treatment and protein disulfide-isomerase incubation corresponded to the amount of prolyl 4-hydroxylase tetramer found after H2O2 treatment. The data suggest that protein disulfide-isomerase is able to activate only the tetramer part of the enzyme preparation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein disulfide-isomerase retains procollagen prolyl 4-hydroxylase structure in its native conformation. 302 99

RNA was labeled with iodine in the reaction catalyzed with lactoperoxidase (LP). Labeling of RNA requires additional purification of LP on Sephadex G-100 and application of RNase inhibitors. Immobilized LP shows lower activity than a soluble enzyme but still it is sufficient to label RNA to 7% IC. Immobilized enzyme is easy to remove from the post-reaction mixture and can be used many times. Optimum conditions for enzymatic labeling were as follows: concentration ratio C/KI for the soluble enzyme equal to 7.5 (for the immobilized enzyme--12). The oxidizing agent (H2O2) used in the enzymatic method of labeling at the concentrations required in the reaction (3.5 X 10(-5) M) does not cause the degradation of nucleic acids as opposed to the oxidizing agent (TlCl3) used in the chemical method. The degree of RNA degradation increases with the amount of incorporated iodine. The RNA preparations of high degree of labeling (10% iodocytosine) by means of the chemical and enzymatic methods do not differ much. At lower labeling the enzymatic method produces less degraded preparations.
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PMID:Labeling of ribosomal ribonucleic acid with iodine 125I. 620 90

The effect of varying LET over a wide range (0.2-1570 eV/nm) on the radiation-induced inactivation of the enzyme papain in dilute aqueous solution has been investigated. Measurements of total, reparable and non-reparable inactivation G values in oxygen, nitrous oxide and argon saturated solutions have allowed the contributions to inactivation from radicals and hydrogen peroxide to be evaluated. At high LET the results demonstrate an increasing component due to reaction of the superoxide radical, formed from oxygen produced in the track as a primary radiolysis product. This effect was not observed in our previous study with ribonuclease due to the insensitivity of ribonuclease to inactivation by superoxide and hydrogen peroxide. The results obtained with papain clearly demonstrate a maximum in G (H2O2) at an LET of approximately 140 eV/nm. Generation of O2 within the track as a primary radiolysis product at high LET now appears to be confirmed as an important mechanism leading to reduction in the oxygen enhancement ratio for cellular systems exposed to high LET radiations (Baverstock and Burns 1981).
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PMID:The inactivation of papain by high LET radiations. 633 8

Treatment of spectrin, insulin, glucagon and ribonuclease with ozone results in covalent cross-linking of these proteins. This cross-linking is not reversed by treatment with dithiothreitol and thus can not be ascribed to -S-S- bond formation. A concomitant O,O'-dityrosine formation is observed by spectrofluorometric analysis of the protein and by amino acid analysis and thin-layer chromatography of hydrolyzed protein samples. It is highly probable that the observed protein cross-linking should be attributed to interpeptide O,O'-dityrosine bonds. Several authors have shown before that oxidation of proteins with horseradish peroxidase and H2O2 also leads to O,O'-dityrosine formation. Peroxidase-induced O,O'-dityrosine formation in galactose oxidase (d-galactose:oxygen 6-oxidoreductase, EC 1.1.3.9) causes a strong increase of enzyme activity. In accordance with these observations ozone treatment of galactose oxidase also leads to O,O'-dityrosine formation with a concomitant 8-fold increase of enzyme activity.
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PMID:Ozone-induced formation of O,O'-dityrosine cross-linked in proteins. 704 79

Tryptophan residues in ribonuclease from a Rhizopus sp. (RNase Rh) were modified by NBS, H2O2-dioxane, o-nitrophenylsulfenyl chloride (NPS-Cl) and the relation between the extent of modification and enzymatic activity was studied in each case. By extrapolation of the modified tryptophan residue-enzymatic activity curve to a completely inactive state, it was found that modification of 1-2 tryptophan residues is responsible for loss of enzymatic activity. RNase Rh was partly protected from modification by H2O2-dioxane (pH 8.4) and NPS-Cl (pH 3.5) when in the presence of 2'-AMP and the fluorescence emission spectrum of RNase Rh was quenched by adding 2'-AMP. It seems, therefore, that 1 or 2 tryptophan residues are involved in the active site of RNase Rh or are located near the active site. The solvent perturbation difference spectra of RNase Rh were measured using ethylene glycol and D2O as perturbants. The results indicated that 1.2 tryptophan residues for D2O and 1.9 tryptophan residues for ethylene glycol were exposed to the solvents. These data show that about 1.2-1.9 tryptophan residues are exposed to the solvent and their modification causes loss in enzymatic activity.
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PMID:Chemical modification of tryptophan residues in ribonuclease from a Rhizopus sp. 739 Sep 80

Rat seminal vesicle secretion is a rich source of a flavoprotein oxidase that acts upon sulfhydryl compounds. The enzyme was obtained in homogeneous form as previously described [Ostrowski, M. C., Kistler, W. S., & Williams-Ashman, H. G. (1979) Biochem. Biophy. Res. Commun. 87, 171-176] and characterized with respect to prosthetic group, size, reaction stoichiometry, and substrate specificity. On the basis of its behavior during zone sedimentation, gel filtration, and electrophoresis in the presence of sodium dodecyl sulfate, it appears to be a monomeric enzyme of about 66 000 daltons. Acid denaturation liberates 1 mol of flavin adenine dinucleotide (FAD) per mol of enzyme. The reaction catalyzed was shown to be 2RSH + O2 leads to H2O2. Superoxide formation could be demonstrated. Unlike many flavoprotein oxidases, the enzyme failed to form a bleached complex with sulfite. The enzyme accepts a variety of small sulfhydryl compounds as substrates, including glutathione, cysteine, dithiothreitol, and 2-mercaptoethanol. Michaelis-Menten kinetics were obtained with these substrates providing disulfide contamination was initially eliminated by treating thiols with borohydride. The KM for glutathione was 4.4 mM with a Vmax estimated as 660 mumol per min per mg of protein. The enzyme was capable of markedly enhancing the rate of renaturation of fully reduced ribonuclease. The physiological function of the enzyme is not yet clear, though several possibilities are discussed.
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PMID:Properties of a flavoprotein sulfhydryl oxidase from rat seminal vesicle secretion. 739 95

The Escherichia coli rnt gene, which encodes the RNA-processing enzyme RNase T, is cotranscribed with a downstream gene. Complete sequencing of this gene indicates that its coding region encompasses 1,538 amino acids, making it the longest known protein in E. coli. The gene (tentatively termed lhr for long helicase related) contains the seven conserved motifs of the DNA and RNA helicase superfamily II. An approximately 170-kDa protein is observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of 35S-labeled extracts prepared from cells in which lhr is under the control of an induced T7 promoter. This protein is absent when lhr is interrupted or when no plasmid is present. Downstream of lhr is the C-terminal region of a convergent gene with homology to glutaredoxin. Interruptions of chromosomal lhr at two different positions within the gene do not affect the growth of E. coli at various temperatures in rich or minimal medium, indicating that lhr is not essential for usual laboratory growth. lhr interruption also has no effect on anaerobic growth. In addition, cells lacking Lhr recover normally from starvation, plate phage normally, and display normal sensitivities to UV irradiation and H2O2. Southern analysis showed that no other gene closely related to lhr is present on the E. coli chromosome. These data expand the known size range of E. coli proteins and suggest that very large helicases are present in this organism.
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PMID:The gene for the longest known Escherichia coli protein is a member of helicase superfamily II. 755 21

The biochemistry, the molecular biology and the biological activity of the eosinophil granule proteins, major basic protein (MBP), eosinophil cationic protein (ECP), eosinophil-derived neurotoxin (EDN) and eosinophil peroxidase (EPO) are reviewed. MBP is present in the core of the eosinophil granule and is toxic to parasite and host cells. ECP and EDN are proteins in the matrix of the granule and share sequence similarity and ribonuclease activity. These two proteins can provoke the Gordon phenomenon in rabbits and are toxic to parasites. EPO consists of two polypeptide and is a toxin for parasite and host cells with or without H2O2. The common characteristics of these proteins are their high isoelectric points and cytotoxic activities.
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PMID:[Biochemistry and biological activities of eosinophil granule proteins]. 768 96


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