Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0272170 (SDS)
 50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The possible involvement of oxidative activation of liver microsomal glutathione (GSH) S-transferase by the cytochrome P450 system was investigated. When rats were given phenobarbital (PB) intraperitoneally for 3 days, liver microsomal GSH S-transferase activity was stimulated 1.3-1.4-fold and the effect of PB on the transferase was potentiated by combination with a catalase inhibitor, 3-amino-1,2,4-triazole. Immunoblotting of microsomal proteins from PB-treated rats with anti-microsomal GSH S-transferase antibody after SDS-PAGE showed the presence of a dimer of the transferase. When microsomal suspensions prepared from PB-treated rats were placed on ice without GSH, the microsomal GSH S-transferase activity gradually increased with time and reached 200% of the initial level at 3 hr when activation of the transferase by N-ethylmaleimide was lost. The time-dependent increase in GSH S-transferase activity in PB-treated microsomes was prevented by addition of 0.1 mM GSH. The increase in microsomal GSH S-transferase activity by NADPH was depressed by cytochrome P450 inhibitors such as SKF 525-A (2-diethylaminoethyl-2,2-diphenylvalerate), metyrapone or isoniazid in agreement with the concomitant decrease in generation of hydrogen peroxide in microsomes. These results indicate that the increase in GSH S-transferase activity in liver microsomes by PB treatment of rats is due to the oxidative modification of the enzyme by reactive oxygen species which are concomitantly increased following induction of cytochrome P450.
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PMID:Increase in liver microsomal glutathione S-transferase activity by phenobarbital treatment of rats. Possible involvement of oxidative activation via cytochrome P450. 825 Sep 59

High intracellular levels of heat shock proteins and enhanced protein glycosylation are two phenomena closely associated with the cellular stress response. GP50 is the major heat-induced glycoprotein in Chinese hamster ovary (CHO) cells; however, GP50 is not well characterized, and its function is unknown. J6 is a gene originally identified in F9 murine teratocarcinoma cells after exposure to retinoic acid. In this study we show that J6 is heat-inducible and codes for a protein that shares characteristics with GP50. Western blotting of CHO cell homogenates, using a J6 polyclonal antibody, showed a single band with a molecular weight identical to that of GP50. Thermotolerant cells showed increased levels of the J6/GP50 protein. Heat-shocked CHO cells also accumulated transiently high levels of J6 mRNA between 2 and 7 h following 10 min at 45 degrees C. These induction kinetics are similar to those for GP50 labeling with D-[3H]mannose and to the activation of major heat shock genes, e.g., hsp70. Hybrid selection of J6 mRNA from CHO cells, followed by in vitro translation, produced a single band on SDS-PAGE with a molecular weight identical to that of deglycosylated GP50. Neither cellular proliferation (exponential growth versus plateau phase) nor the specific heat shock temperature (41.5 degrees C versus 45 degrees C) had significant effects on J6 induction by heat stress. Stress conditions other than hyperthermia, including ethanol, arsenite, and hypoxia, increased J6 mRNA levels. Conversely, J6 mRNA was reduced by quercetin, brefeldin A, okadaic acid, uv, and hydrogen peroxide. Our data support the hypothesis that J6 is a heat shock gene with a gene product identical to the polypeptide moiety of GP50.
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PMID:Heat shock glycoprotein GP50: product of the retinoic acid-inducible J6 gene. 829 16

Glutathione peroxidase was purified from the total membrane fractions of a yeast, Hansenula mrakii IFO 0895. The purified enzyme gave a single protein band with a molecular mass of 28 kDa on SDS-PAGE. The enzyme showed activity to various lipid hydroperoxides and their methyl esters. The enzyme was also active toward phosphatidylcholine hydroperoxide and cholesterol hydroperoxide. Since the enzyme was not active on hydrogen peroxide, the enzyme was thought to be a kind of glutathione S-transferase, although the purified enzyme did not show the glutathione-conjugating activity with electrophilic compounds such as 1-chloro-2,4-dinitrobenzene and o-dinitrobenzene, which are used as the substrate of glutathione S-transferase in yeast. The glutathione peroxidase in H. mrakii was then suggested to be a novel type of glutathione peroxidase in substrate specificity and intracellular localization, being different from those of other sources purified so far.
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PMID:Oxidative stress response in yeast: purification and some properties of a membrane-bound glutathione peroxidase from Hansenula mrakii. 832 47

Proton transport in microsomal vesicles derived from medullary bone of laying hens was observed to be inhibited in a dose-dependent manner with fusidic acid, 7-chloro-4-nitrobenz-2-oxa-1,3-diatzole (NBD-Cl), duramycin and dicyclohexylcarbodiimide (DCCD). The IC50 values were 570 microM, 4.5 microM, 10 micrograms/ml and 32 microM for fusidic acid, NBD-Cl, duramycin and DCCD, respectively. 14C-DCCD labeled a single protein band of 15-17 kDa from bone-derived microsomes in SDS-electrophoresis. A protein of this size is a proton-conducting subunit of the vacuolar ATPases. Further, the proton transport was found to be electrogenic, thus it generates the membrane potential across the vesicle membrane. The generation of membrane potential was inhibited using 100 nM bafilomycin A1, which in low concentrations is a specific inhibitor of vacuolar ATPases. The presence of Cl- was essential for maximal proton transport activity. These results confirm the electrogenicity and extend the characterization of the osteoclastic H(+)-ATPase.
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PMID:Characterization of ATP-dependent proton transport in medullary bone-derived microsomes. 838 39

Human term placental peroxidase [donor: hydrogen peroxide (H2O2) oxidoreductase] from non-smoking women was purified by extraction of the membrane fraction with 0.5 M Ca2+ followed by affinity chromatography on concanavalin A, hydrophobic chromatography on phenyl sepharose CL-4B and gel filtration chromatography on sephacryl S-200 columns. The final enzyme preparation was 110-fold pure when compared to the Ca2+ extract and the overall recovery of the procedure was 55 per cent. SDS-PAGE of the final product showed the presence of four protein staining bands of molecular weights 30, 32.5, 35 and 55 KDa. The purified peroxidase eluted as a single peak from the sephacryl S-200 column suggesting apparent homogeneity of the protein. The purified placental peroxidase oxidized thiobenzamide to its sulfoxide. The highest rate of TB S-oxidation under optimum conditions was 18 +/- 2.15 mumoles/min/mg protein. The H2O2-dependent thiobenzamide S-oxidation catalysed by the placental peroxidase was inhibited by KCN and NaN3 with IC50 values of 16.9 and 34 microM respectively.
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PMID:Placental peroxidase--further purification of the enzyme and oxidation of thiobenzamide. 839 51

Well before the existence of starter bacteria was recognized, their activities were instrumental in preserving dairy foods. During growth in fermented products, dairy starters, including lactobacilli, lactococci, leuconostocs, streptococci, and propionibacteria, produce inhibitory metabolites. Inhibitors include broad-spectrum antagonists, organic acids, diacetyl, and hydrogen peroxide. Some starters also produce bacteriocins or bactericidal proteins active against species that usually are related closely to the producer culture. Several bacteriocins have been biochemically and genetically characterized. Evaluating properties of the Lactobacillus acidophilus bacteriocin, lactacin B, led to a new purification protocol. Purified lactacin B migrates in SDS-PAGE as a single 8100-Da band with inhibitory activity after Coomassie blue staining. Production of lactacin B is enhanced by cultivation of the producer with the sensitive indicator, Lactobacillus delbrueckii ssp. lactis 4797; understanding this interaction may increase knowledge of production of bacteriocins in heterogeneous cultures. Bacteriocins have been recently identified in dairy propionibacteria. Jenseniin G, a bacteriocin produced by Propionibacterium jensenii P126, has narrow activity; propionicin PLG-1 produced by Propionibacterium thoenii P127 inhibits propionibacteria, some fungi, Campylobacter jejuni, and additional pathogens. Better understanding of these antagonists may lead to targeted biocontrol of spoilage flora and foodborne pathogens.
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PMID:Antibiosis revisited: bacteriocins produced by dairy starter cultures. 840 70

We previously reported that rat glutathione transferase P-form (GST-P) is inactivated by hydrogen peroxide (H2O2). This involves formation of intra- or intersubunit disulfides, at least three extra bands with molecular masses of 21.5, 18, and 37 kDa being exhibited in addition to the native subunit band of 23.5 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) under nonreducing conditions. In the present study, GST-P mutants whose cysteine residues were independently substituted with alanine (C14A, C47A, C101A, and C169A) by site-directed mutagenesis were used to identify the cysteine residues responsible for the disulfide bond formation. C14A and C169A were much more inactivated than native GST-P by 1 mM H2O2, whereas C47A and, especially, C101A appeared insensitive to H2O2. On SDS-PAGE, the 21.5-kDa band was not detected in either C47A or C101A. Hydrogen peroxide treatment of mouse GST II, highly homologous to rat GST-P but possessing glycine instead of cysteine at the 101st residue, did not result in generation of the 21.5-kDa band and was also associated with less inactivation. This band was therefore considered to be due to an intrasubunit disulfide bond between Cys-47 and Cys-101. The 37-kDa band was suggested to be due to the formation of intersubunit disulfide bonds between Cys-47 residues in different subunits. Thus the Cys-47 residue together with Cys-101 may be located in an important region for GSH binding, disulfide bond formation between these residues resulting in steric hindrance.
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PMID:Identification of cysteine residues involved in disulfide formation in the inactivation of glutathione transferase P-form by hydrogen peroxide. 842 45

Hydrogenase from Chlamydomonas reinhardtii was purified to homogeneity by five column-chromatography steps under strict anaerobic conditions. The cells were disrupted by mild treatment with detergent. The enzyme was purified 6100-fold, resulting in a specific activity for H2 evolution of 935 mumol.min-1.mg protein-1 at 25 degrees C, using reduced methyl viologen as electron donor. The optimal temperature for hydrogen evolution is 60 degrees C, the optimal pH value is 6.9. The Km value for methyl viologen is 0.83 mM, for ferredoxin, 35 microM. From SDS/PAGE gels, the protein was judged to be pure. On non-denaturing gels, run under nitrogen, a single band was detected after activity staining. This band corresponded to the single band observed on denaturing SDS gels, which had an apparent molecular mass of 48 kDa. If the band was cut out of the native gel and incubated with reduced methyl viologen, hydrogen evolution could be measured. The purified enzyme contains 4 Fe atoms/mol. The amino acid composition and the N-terminal amino acid sequence (24 residues) of the protein were determined. No significant amino acid sequence homologies could be found to any sequences from prokaryotic hydrogenases.
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PMID:Isolation, characterization and N-terminal amino acid sequence of hydrogenase from the green alga Chlamydomonas reinhardtii. 851 97

The major components of protein extracts from the cattle tick Boophilus microplus eggs and larvae of various ages were characterized by molecular sieving chromatography, ion exchange chromatography and SDS-PAGE. The fractions analysed showed a changing chromatographic pattern development. A serum raised against the components of a fraction showing characteristics of vitellin strongly reacted in Western blots with the major peptides of extracts from eggs, larvae, gut and ovary. Comparison of patterns obtained by electrophoresis in non-denaturing PAGE, stained with Coomassie blue or with benzidine/hydrogen peroxide, revealed that the major proteins of these extracts are haemoproteins, possibly in different aggregation states or heterogeneous in composition.
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PMID:Changing patterns of vitellin-related peptides during development of the cattle tick Boophilus microplus. 852 46

Glutaredoxin (Grx) (12 kDa) is a hydrogen donor for ribonucleotide reductase and also a general GSH-disulfide reductase of importance for redox regulation. To overexpress human glutaredoxin in Escherichia coli, a cDNA encoding human Grx was modified and cloned into the vector pET-3d and expressed in E. coli BL21 (DE3) by IPTG induction. High-level expression of Grx was verified by GSH-disulfide oxidoreductase activity, SDS-PAGE and immunoblotting analysis. The recombinant human Grx in its reduced form was purified to homogenity with 50% yield and exhibited the same dehydroascorbate reductase and hydrogen donor activity for ribonucleotide reductase (Km approximately 0.2 microM) as the human placenta protein. Human Grx contains a total of 5 half-cystine residues including a non-conserved Cys7 residue and is easily oxidized to form dimers during storage. A Grx mutant Cys7 to Ser was generated by site-directed mutagenesis and the protein was purified to homogeneity. The mutant protein showed full activity and exhibited a much reduced tendency to form dimers compared with the wild type protein. Peptide sequencing confirmed the mutation and removal of the N-terminal Met residue in both wild type and mutant proteins. Fluorescence spectra demonstrated only tyrosine fluorescence in human Grx with a peak at 310 nm which increased 20% upon reduction and decreased by addition of GSSG demonstrating that glutathione-containing disulfides are excellent substrates.
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PMID:High-level expression of fully active human glutaredoxin (thioltransferase) in E. coli and characterization of Cys7 to Ser mutant protein. 854 5


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