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

The release of protein disulfide isomerase by activated platelets was hypothesized on the basis of reported intermolecular and intramolecular thiol-disulfide exchange and disulfide reduction involving released thrombospondin in the supernatant solution of activated platelets (Danishefsky, Alexander, Detwiler: Biochemistry, 23:4984, 1984; Speziale, Detwiler: J Biol Chem, 265:17859, 1990; Speziale, Detwiler: Arch Biochem Biophys 286:546, 1991). Protein disulfide isomerase activity, measured by catalysis of the renaturation of ribonuclease inactivated by randomization of disulfide bonds, was detected in the supernatant solution after platelet activation. The activity was inhibited by peptides known to inhibit protein disulfide isomerase; the peptides also inhibited formation of disulfide-linked thrombospondin-thrombin complexes. The reaction catalyzed by the supernatant solution showed a pH dependence distinct from that of the uncatalyzed reaction. The activity was excluded by a 50-Kd dialysis membrane, and it was eluted in the void volume of a gel-filtration column, indicating that it was associated with a macromolecule. The activity was not removed by centrifugation at 100,000 g for 150 minutes indicating that it was not associated with membrane microvesicles. Possible functions for the release of protein disulfide isomerase by activated platelets are discussed.
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PMID:Protein disulfide isomerase activity is released by activated platelets. 157 38

It has been proposed that dithiol-disulfide interchange and oxidation-reduction reactions may play a role in hormone-induced receptor activation. Inspection of the sequences of the gonadotropic hormones revealed a homologous tetrapeptide (Cys-Gly-Pro-Cys) between the beta subunit of lutropin (LH) and the active site of thioredoxin (TD). The beta subunit of follitropin (FSH) has a similar sequence (Cys-Gly-Lys-Cys). Thioredoxin is a ubiquitous protein serving as an electron donor for ribonucleotide reductase, but it also exhibits disulfide isomerase activity. The catalytic activity of TD was assayed by its ability to reactivate reduced and denatured ribonuclease. In this assay, the purified ovine FSH and bovine LH preparations tested were approximately 60 and approximately 300 times, respectively, as active as TD on a molar basis. This heretofore unsuspected catalytic property of FSH and LH may be important in understanding their mechanism of receptor activation and signal transduction.
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PMID:Evidence for a novel thioredoxin-like catalytic property of gonadotropic hormones. 210 78

Protein disulfide isomerase (PDI) is a multifunctional microsomal enzyme that participates in the formation of protein disulfide bonds. PDI catalyzes the reduction of protein disulfide bonds in the presence of excess reduced glutathione and has been implicated in the reductive degradation of insulin; E. coli thioredoxin is homologous to two regions in PDI and can also degrade insulin. PDI activity, measured by 125I-insulin degradation or reactivation of randomly oxidized RNase in the presence of reduced glutathione, is non-competitively inhibited by estrogens; half-maximal inhibition was observed at approximately 100 nM estrogen. Other steroid hormones at 1 microM had little or no effect. PDI segment 120-163 (which corresponds to exon 3 of the PDI gene) and 182-230 have significant similarity with estrogen receptor segments 350-392 and 304-349, respectively, located in the estrogen binding domain but not with the steroid domains of the progesterone and glucocorticoid receptors or with thioredoxin, which is insensitive to estrogens. We propose the hypothesis that enzymes can acquire sensitivity to a hormone via exon shuffling to the enzyme gene from the DNA region coding for the hormone binding domain of the hormone's receptor.
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PMID:Selective inhibition of protein disulfide isomerase by estrogens. 266 79

A cytosol thioltransferase was purified 37,000-fold from bovine liver by essentially the same procedure as reported for rat liver enzyme by Axelsson et al. [1978) Biochemistry 17, 2978-2984). The purified enzyme appears to be homogeneous on sodium dodecyl sulfate (SDS)-gel electrophoresis and has a molecular weight (Mr) of 11,000, an isoelectric point (pI) of 8.1, and an optimum pH with S-sulfocysteine and GSH as substrates of 8.5. It is specific for disulfides including L-cystine, S-sulfocysteine, ribonuclease A, trypsin, soybean kunitz trypsin inhibitor, soybean Bowman Birk trypsin inhibitor and insulin, and converts Bowman Birk trypsin inhibitor to an inactive form. The enzyme does not act as a protein : disulfide isomerase, as measured by reactivation of "scramble" ribonuclease and Kunitz soybean trypsin inhibitor. Thioltransferase activity was found in cytosol of various bovine tissues.
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PMID:Purification and some properties of bovine liver cytosol thioltransferase. 646 49

Molecular chaperones, protein-disulfide isomerases, and peptidyl prolyl cis-trans isomerases assist protein folding in both prokaryotes and eukaryotes. The DnaJ protein of Escherichia coli and the DnaJ-like proteins of eukaryotes are known as molecular chaperones and specific regulators of DnaK-like proteins and are involved in protein folding and renaturation after stress. In this study we show that DnaJ, like thioredoxin, protein-disulfide isomerase, and DsbA, possesses an active dithiol/disulfide group and catalyzes protein disulfide formation (oxidative renaturation of reduced RNase), reduction (reduction of insulin disulfides), and isomerization (refolding of randomly oxidized RNase). These results suggest that, in addition to its known function as a chaperone, DnaJ might be involved in controlling the redox state of cytoplasmic, membrane, or exported proteins.
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PMID:A novel function of Escherichia coli chaperone DnaJ. Protein-disulfide isomerase. 755 85

Two conserved Trp-Cys-Gly-His-Cys (WCGHC) sequences are assigned to act as catalytic sites for protein disulfide isomerase. Peptides containing the active site sequence, Ala-Pro-Trp-Cys-Gly-His-Cys-Lys(APWCGHCK), were synthesized both in a mono-molecular form and on multiple antigen peptide (MAP) resin or Wang resin by the 9-fluoroenylmethoxycarbonyl (Fmoc)-based solid-phase method. With scrambled RNase as a substrate, the (APWCGHCK)8-MAP was first shown to mimic the PDI activity, which was one thousandth of that of bovine PDI and comparable to that of thioredoxin. APWCGPCK and APWCGHCK, however, did not display a disulfide isomerase activity even at a concentration 8 times higher than that of (APWCGHCK)8-MAP. It was assumed that a sterically proper proximity of at least two active site peptides with CXXC motif was required for the expression of PDI activity.
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PMID:Active site peptides with CXXC motif on map-resin can mimic protein disulfide isomerase activity. 765 33

Protein disulfide isomerase (PDI) is an enzyme that catalyzes the formation as well as the isomerization of disulfide bonds. In this study, antibodies against PDI were used to show PDI antigen on the platelet surface by indirect immunofluorescence microscopy and by flow cytometry. The platelets were not activated, as evidenced by the absence of staining by an antibody against P-selectin. Permeabilized platelets showed little cytosolic PDI by indirect immunofluorescence microscopy, suggesting that the majority of platelet PDI is localized to the platelet surface. PDI activity against "scrambled" RNase was shown with intact platelets. The activity was inhibited by inhibitors of PDI and by an antibody against PDI. Other blood cells showed little PDI. Platelet surface PDI may play a role in the various physiological and pathophysiologic processes in which platelets are involved.
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PMID:Localization of protein disulfide isomerase to the external surface of the platelet plasma membrane. 766 65

Protein disulfide isomerase (PDI), which catalyses the folding of newly synthesized or denatured proteins through correct disulfide formation, was purified from soybean (Glycine max). The enzyme was purified 12,000-fold over crude extracts to apparent homogeneity in six purification steps: 60-70% ammonium sulfate fractionation, and chromatography on DEAE Toyopearl 650M, Q-Sepharose Fast Flow, Hiload Superdex 200 pg, Phenyl Sepharose HP, and TSK G-3000 SW. The native enzyme had a molecular weight of 120 kDa on gel filtration. Subunit molecular weight was estimated as 63 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis, thus indicating the enzyme to be comprised of two identical subunits. The enzyme pH optimum was 8.0 with reactivation of scrambled RNase, and the pI 7.65. The N-terminal amino acid sequence of soybean PDI was homologous to that of mature alfalfa as deduced from the cDNA sequence. Two identical active site sequences, APWCGHCK, were obtained from different proteolytic peptide fragments of soybean PDI. Soybean PDI facilitated reactivation not only of scrambled RNase, but denatured and reduced lysozyme and the Bowman Birk soybean trypsin inhibitor as well. This is the first report to appear on the the purification, characterization and amino acid sequence analysis of the active site of a plant PDI.
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PMID:Purification and characterization of protein disulfide isomerase from soybean. 777 91

Protein disulfide isomerase (PDI), a foldase of the endoplasmic recticulum, is a multifunctional protein that catalyzes the formation and isomerization of disulfide bonds during protein folding. The wild-type protein contains two redox active thiol/disulfide sites near the N and C terminus that are homologous to the redox center of thioredoxin. Using site-directed mutagenesis, both cysteines of each of the thioredoxin-like centers, (C35S,C38S) and (C379S,C382S) were replaced by serines. In addition, a mutant PDI was constructed with all four of the active cysteines mutated to serine (C35S,C38S,C379S,C382S). The activity of the wild-type and mutant proteins in the oxidative renaturation of reduced, denatured RNase was analyzed over a wide range of RNase concentrations, PDI concentrations, and glutathione redox buffers compositions. All mutants, including the construct with no functional thioredoxin centers, have measurable disulfide isomerase activity. Both of the thioredoxin-like sites contribute some to apparent steady-state binding (Km) and catalysis at saturating substrate concentrations (kcat); however, their contributions are not equivalent. At saturating concentrations of RNase, the mutant with an inactivated C-terminal active site (kcat = 0.72 +/- 0.06 min-1) retains near wild-type activity (kcat = 0.76 +/- 0.02 min-1), while the N-terminal mutant exhibits a significantly lower kcat (0.24 +/- 0.01 min-1). The Km for RNase is elevated for the C-terminal mutant (Km = 29 +/- 4 microM) while the N-terminal mutant (Km = 7.1 +/- 1.1 microM) exhibits a wild-type Km (6.9 +/- 0.8 microM). The larger Km for the C-terminal mutant (4.2 times wild-type) and the lower kcat of N-terminal mutant (32% of wild-type) suggest that the C-terminal region contributes more to apparent steady-state substrate binding, and the N-terminal region contributes more to catalysis at saturating concentrations of substrate. Despite their complementary roles in catalysis, the thioredoxin-like centers exhibit the same dependence on the glutathione redox buffer composition as evidenced by the equivalent K(ox) values for the wild-type (47 +/- 1 microM), N-terminal mutant (43 +/- 3 microM), and C-terminal mutant (44 +/- 1 microM). The mutant with both thioredoxin sites mutated displays a low but detectable level of disulfide-isomerase activity (0.5% of wild-type) that can be observed at high PDI concentrations. At high RNase concentrations (> or = 26 microM), wild-type PDI and all of the mutants catalyze intermolecular RNase aggregation in a nucleation growth reaction that is first order in PDI but fourth order with respect to RNase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mutations in the thioredoxin sites of protein disulfide isomerase reveal functional nonequivalence of the N- and C-terminal domains. 798 29

Protein disulfide isomerase (PDI) catalyzes the formation and rearrangement of disulfide bonds during protein folding. PDI coupled to cyanogen bromide-activated agarose retains its catalytic activity, and a column of this material increases both the rate and the yield for folding disulfide-containing proteins. For reduced, denatured ribonuclease, the overall yield of fully active ribonuclease isolated from the PDI column in one pass was 85-98% of the applied protein. Under the same conditions in the absence of PDI, ribonuclease regained only 16% of its native activity. The oxidative folding of reduced denatured lysozyme is complicated by aggregation so that in the absence of PDI optimal yields of only < or = 25% are obtained at lysozyme concentrations of 1.6 mg/ml. When reduced, denatured lysozyme (1.6 mg/ml) is passed over a PDI column in 1-2 M urea in the presence of a glutathione redox buffer, the specific activity of the recovered lysozyme is identical to that of the native enzyme and the total recovery of the applied protein is 50-65%.
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PMID:Catalysis of protein folding by agarose-immobilized protein disulfide isomerase. 805 46


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