Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

The thioredoxin-like activity of human follicle stimulating hormone (hFSH), hFSH-beta-(83-88) peptide amide (hFSH-beta-(83-88) which has a sequence similar to the thioredoxin active center (-His-Cys-Gly-Lys-Cys-Asp-)) and thioredoxin-(31-36)-peptide amide (TD-(31-36) which contains the redox-active dithiol of thioredoxin (-Trp-Cys-Gly-Pro-Cys-Lys-)) was characterized by their ability to reactivate reduced and denatured bovine pancreatic ribonuclease (RNase). This assay reflects the recently recognized ability of thioredoxin to catalyze disulfide bond formation in proteins. Compared to uncatalyzed refolding of reduced, denatured substrate, hFSH was approximately 10-fold more active than thioredoxin on a molar basis. The catalytic activity of hFSH-beta-(83-88) and TD-(31-36) was equivalent to that of an equimolar concentration of thioredoxin. Screening of 11 overlapping peptide amides representing the entire primary structure of hFSH-beta-subunit indicated that hFSH-beta-(81-95), which contains the sequence similar to the thioredoxin active center within a receptor-binding region of the hFSH-beta-subunit, possesses strong thioredoxin-like activity and was more active than an equimolar concentration of thioredoxin. In contrast, hFSH-beta-(33-53), a thiol-containing peptide which corresponds to a second FSH receptor-binding domain but lacks the sequence similar to the thioredoxin active center, was inactive. Synthetic peptide amides corresponding to other regions of hFSH-beta-subunit were less effective than hFSH-beta-(81-95) in reactivating reduced and denatured RNase. Our data provide evidence that the recently reported thioredoxin-like catalytic activity of FSH may be due, at least in part, to the redox-active dithiol present within a receptor-binding domain of its beta-subunit, and thus may have a physiological role in receptor binding or signal transduction.
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PMID:A synthetic peptide corresponding to hFSH-beta-(81-95) has thioredoxin-like activity. 177 2

A comparison of the sequences of three homologous ribonucleases (RNase A, angiogenin and bovine seminal RNase) identifies three surface loops that are highly variable between the three proteins. Two hypotheses were contrasted: (i) that this variation might be responsible for the different catalytic activities of the three proteins; and (ii) that this variation is simply an example of surface loops undergoing rapid neutral divergence in sequence. Three hybrids of angiogenin and bovine pancreatic ribonuclease (RNase) A were prepared where regions in these loops taken from angiogenin were inserted into RNase A. Two of the three hybrids had unremarkable catalytic properties. However, the RNase A mutant containing residues 63-74 of angiogenin had greatly diminished catalytic activity against uridylyl-(3'----5')-adenosine (UpA), and slightly increased catalytic activity as an inhibitor of translation in vitro. Both catalytic behaviors are characteristic of angiogenin. This is one of the first examples of an engineered external loop in a protein. Further, these results are complementary to those recently obtained from the complementary experiment, where residues 59-70 of RNase were inserted into angiogenin [Harper and Vallee (1989) Biochemistry, 28, 1875-1884]. Thus, the external loop in residues 63-74 of RNase A appears to behave, at least in part, as an interchangeable 'module' that influences substrate specificity in an enzyme in a way that is isolated from the influences of other regions in the protein.
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PMID:A hybrid of bovine pancreatic ribonuclease and human angiogenin: an external loop as a module controlling substrate specificity? 179 6

The mouse pancreatic ribonuclease gene Rib-1 was isolated from a library of mouse genomic DNA and sequenced. This small gene contains a nontranslated exon of 52 base pairs, an intron of 791 base pairs, and a coding exon of 741 base pairs. Rib-1 transcripts were detected in parotid gland as well as in pancreas. The abundance of the transcripts were approximately 200-fold greater in pancreatic RNA than in parotid RNA. The sites of transcription initiation were mapped by primer extension and ribonuclease protection assays. One major initiation site and several minor initiation sites were identified in pancreatic RNA. Transcription in parotid appears to be initiated from the same sites. Parotid-specific transcripts were not detected. The data suggest that Rib-1 is transcribed in pancreas and parotid from the same promoter. This is in contrast with the mechanism for production of amylase in pancreas and parotid, which is accomplished by tissue specific expression of different gene copies.
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PMID:Isolation of the murine ribonuclease gene Rib-1: structure and tissue specific expression in pancreas and parotid gland. 184 Jun 77

We have used equilibrium binding analyses to evaluate the influence of temperature and urea on the affinity of hen egg white lysozyme and bovine pancreatic ribonuclease A for surface-immobilized Cu(II) ions. Linear Scatchard plots suggested that these model proteins were interacting with immobilized metal ions via a single class of intermediate-affinity (Kd = 10-40 microM) binding sites. Alterations in temperature had little or no effect on the immobilized Cu(II) binding capacity of either protein. Temperature effects on the interaction affinity, however, were protein-dependent and varied considerably. The affinity of lysozyme for immobilized Cu(II) ions was significantly decreased with increased temperature (0 degree C-37 degrees C), yet the affinity of ribonuclease did not vary measurably over the same temperature range. The van 't Hoff plot (1n K vs 1/T) for lysozyme suggests a straight line relationship (single mechanism) with a delta H of approximately -5.5 kcal/mol. Urea effects also varied in a protein-dependent manner. A 10-fold reduction in the affinity of lysozyme for the immobilized Cu(II) was observed with the urea concentrations up to 3 M; yet urea had no effect on the affinity of ribonuclease for the immobilized metal ions. Although the interaction capacity of lysozyme with the immobilized Cu(II) ions was decreased by 50% in 3 M urea, ribonuclease interaction capacity was not diminished in urea. Thus, temperature- and urea-dependent alterations in protein-metal ion interactions were observed for lysozyme but not ribonuclease A. The complete, yet reversible, inhibition of lysozyme- and ribonuclease-metal ion interactions by carboxyethylation with low concentrations of diethylpyrocarbonate provided direct evidence of histidyl involvement. The differential response of these proteins to the effects of temperature and urea was, therefore, interpreted based on calculated solvent-accessibilities and surface distributions of His residues, individual His residue pKa values, and specific features of the protein surface structure in the immediate environment of the surface-exposed histidyl residues. Possible interaction mechanisms involved in protein recognition of macromolecular surface-immobilized metal ions are presented.
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PMID:Protein interactions with surface-immobilized metal ions: structure-dependent variations in affinity and binding capacity with temperature and urea concentration. 185 19

Pancreatic RNase injected into Xenopus oocytes abolishes protein synthesis at concentrations comparable to the toxin ricin yet has no effect on oocyte protein synthesis when added to the extracellular medium. Therefore RNase behaves like a potent toxin when directed into a cell. To explore the cytotoxic potential of RNase toward mammalian cells, bovine pancreatic ribonuclease A was coupled via a disulfide bond to human transferrin or antibodies to the transferrin receptor. The RNase hybrid proteins were cytotoxic to K562 human erythroleukemia cells in vitro with an IC50 around 10(-7) M whereas greater than 10(-5) M native RNase was required to inhibit protein synthesis. Cytotoxicity requires both components of the conjugate since excess transferrin or ribonuclease inhibitors added to the medium protected the cells from the transferrin-RNase toxicity. Compounds that interfere with transferrin receptor cycling and compartmentalization such as ammonium chloride decreased the cytotoxicity of transferrin-RNase. After a dose-dependent lag period inactivation of protein synthesis by transferrin-RNase followed a first-order decay constant. In a clonogenic assay that measures the extent of cell death 1 x 10(-6) M transferrin-RNase killed at least 4 logs or 99.99% of the cells whereas 70 x 10(-6) M RNase was nontoxic. These results show that RNase coupled to a ligand can be cytotoxic. Human ribonucleases coupled to antibodies also may exhibit receptor-mediated toxicities providing a new approach to selective cell killing possibly with less systemic toxicity and importantly less immunogenicity than the currently employed ligand-toxin conjugates.
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PMID:Cytotoxic potential of ribonuclease and ribonuclease hybrid proteins. 193 62

Two derivatives of pancreatic ribonuclease and endonuclease of Staphylococcus aureus, insolubilized on corn cob, have been used to reduce the percentage of nucleic acids in single cell protein (SCP) concentrates from yeasts. These derivatives are thermostable and active at 45 degrees C. At these temperatures the contamination by bacteria is negligible. The thermostability is remarkable, since the native nuclease is deactivated at above 39 degrees C. The hydrolysis of the nucleic acids in SCP is carried out first with the ribonuclease derivative followed by the endonuclease derivative. The catalytic activity of the insolubilized derivatives is similar to that of the native enzymes in the hydrolysis of RNA but not of DNA. The percentage of nucleic acids is reduced from 5-15 to 0.5%, with a loss of protein of 6%. These percentages are lower than those previously reported.
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PMID:New insolubilized derivatives of ribonuclease and endonuclease for elimination of nucleic acids in single cell protein concentrates. 196 85

The velocity of the oxidative renaturation of reduced ribonuclease A catalyzed by protein disulfide isomerase (PDI) is strongly dependent on the composition of a glutathione/glutathione disulfide redox buffer. As with the uncatalyzed, glutathione-mediated oxidative folding of ribonuclease, the steady-state velocity of the PDI-catalyzed reaction displays a distinct optimum with respect to both the glutathione (GSH) and glutathione disulfide (GSSG) concentrations. Optimum activity is observed at [GSH] = 1.0 mM and [GSSG] = 0.2 mM. The apparent kcat at saturating RNase concentration is 0.46 +/- 0.05 mumol of RNase renatured min-1 (mumol of PDI)-1 compared to the apparent first-order rate constant for the uncatalyzed reaction of 0.02 +/- 0.01 min-1. Changes in GSH and GSSG concentration have a similar effect on the rate of both the PDI-catalyzed and uncatalyzed reactions except under the more oxidizing conditions employed, where the catalytic effectiveness of PDI is diminished. The ratio of the velocity of the catalyzed reaction to that of the uncatalyzed reaction increases as the quantity [GSH]2/[GSSG] increases and approaches a constant, limiting value at [GSH]2/[GSSG] greater than 1 mM, suggesting that a reduced, dithiol form of PDI is required for optimum activity. As long as the glutathione redox buffer is sufficiently reducing to maintain PDI in an active form [( GSH]2/[GSSG] greater than 1 mM), the rate acceleration provided by PDI is reasonably constant, although the actual rate may vary by more than an order of magnitude. PDI exhibits half of the maximum rate acceleration at a [GSH]2/[GSSG] of 0.06 +/- 0.01 mM.
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PMID:Catalysis of the oxidative folding of ribonuclease A by protein disulfide isomerase: dependence of the rate on the composition of the redox buffer. 198 50

At low concentrations of a glutathione redox buffer, the protein disulfide isomerase (PDI) catalyzed oxidative renaturation of reduced ribonuclease A exhibits a rapid but incomplete activation of ribonuclease, which precedes the steady-state reaction. This behavior can be attributed to a GSSG-dependent partitioning of the substrate, reduced ribonuclease, between two classes of thiol/disulfide redox forms, those that can be converted to active ribonuclease at low concentrations of GSH and those that cannot. With catalytic concentrations of PDI and near stoichiometric concentrations of glutathione disulfide, approximately 4 equiv (2 equiv of ribonuclease disulfide) of GSH are formed very rapidly followed by a slower formation of GSH, which corresponds to an additional 2 disulfide bond equiv. The rapid formation of RNase disulfide bonds and the subsequent rearrangement of incorrect disulfide isomers to active RNase are both catalyzed by PDI. In the absence of GSSG or other oxidants, disulfide bond equivalents of PDI can be used to form disulfide bonds in RNase in a stoichiometric reaction. In the absence of a glutathione redox buffer, the rate of reduced ribonuclease regeneration increases markedly with increasing PDI concentrations below the equivalence point; however, PDI in excess over stoichiometric concentrations inhibits RNase regeneration.
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PMID:Catalysis of the oxidative folding of ribonuclease A by protein disulfide isomerase: pre-steady-state kinetics and the utilization of the oxidizing equivalents of the isomerase. 198 51

A 77Se-containing moiety has been attached to cysteine residues in bovine hemoglobin, reduced ribonuclease A, and glutathione by reaction with [77Se]6,6'-diselenobis(3-nitrobenzoic acid). The resultant species contain Se-S linkages that have 77Se NMR absorptions in the range range of 568-580 ppm. Spectra have been recorded at 4.7 and 9.7 tesla (T). For labeled hemoglobin a line width of 250 Hz is seen at 4.7 T and 1000 Hz at 9.4 T. This quadrupling of line width with doubling of observational field strength is consistent with exclusive relaxation by the chemical shift anisotropy (CSA) mechanism. These line widths are greater than expected for a molecule the size of hemoglobin and indicate some aggregation at the high concentrations used. Upon dissociation and partial unfolding of the hemoglobin subunits, the line widths of the selenium resonance decrease to 35 and 120 Hz at 4.7 and 9.4 T, respectively. The spin-lattice relaxation time (T1) for the dissociated hemoglobin at 9.4 T was found to be 220 ms. Together with a value of 377 ms for the spin-spin relaxation time (T2), determined from the line width, an estimate of the CSA was made. This gave a value of 890 ppm, which is in accord with other values for Se(II) linked only by single bonds. When this value for the CSA is used, together with the CSA contribution to the line width, in estimating a correlation time for seleno(3-nitrobenzoic acid) (SeNB)-labeled glutathione, a value of 4 x 10(-11) s is obtained. For SeNB-labeled denatured ribonuclease, four distinct resonances are resolvable at 4.7 T and five resonances at 9.4 T. From T1 values for these resonances and the value of 890 ppm for the CSA, an appropriate correlation time of 0.1 ns was determined, which should result in 77Se resonances of 0.2-1.0 Hz at 4.7 and 9.4 T, respectively. Much greater apparent line widths are observed, which are attributed to microheterogeneity resulting from formation of inter- and intramolecular disulfide linkages. It is concluded that when there are no complications from protein aggregation or chemical exchange, the CSA values anticipated to exist in glutathione peroxidase or other selenoproteins should result in resonances with line widths in the range from 27 to 170 Hz, depending on field strength. These resonances should therefore be observable in the intact protein, if 77Se-enriched material is available.
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PMID:NMR relaxation properties of 77Se-labeled proteins. 199 5

The interactions of human placental ribonuclease inhibitor (PRI) with bovine pancreatic ribonuclease (RNase) A and human angiogenin, a plasma protein that induces blood vessel formation, have been characterized in detail in earlier studies. However, studies on the interaction of PRI with the RNase(s) indigenous to placenta have not been performed previously, nor have any placental RNases been identified. In the present work, the major human placental RNase (PR) was purified to homogeneity by a five-step procedure and was obtained in a yield of 110 micrograms/kg of tissue. The placental content of angiogenin was also examined and was found to be at least 10-fold lower than that of PR. On the basis of its amino acid composition, amino-terminal sequence, and catalytic properties, PR appears to be identical with an RNase previously isolated from eosinophils (eosinophil-derived neurotoxin), liver, and urine. The apparent second-order rate constant of association for the PR.PRI complex, measured by examining the competition between PR and angiogenin for PRI, is 1.9 X 10(8) M-1 s-1. The rate constant for dissociation of the complex, determined by HPLC measurement of the rate of release of PR from its complex with PRI in the presence of a scavenger for free PRI, is 1.8 X 10(-7) s-1. Thus the Ki value for the PR.PRI complex is 9 X 10(-16) M, similar to that obtained with angiogenin, and 40-fold lower than that measured with RNase A. Complex formation causes a small red shift in the protein fluorescence emission spectrum, with no significant change in overall intensity. The fluorescence quantum yield of PR and the Stern-Volmer constant for fluorescence quenching by acrylamide are both high, possibly due to the presence of an unusual posttranslationally modified tryptophan residue at position 7 in the primary sequence.
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PMID:Interaction of human placental ribonuclease with placental ribonuclease inhibitor. 199 83


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