EC:2.5.1.18 - FACTA Search

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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Poly(A)-containing rat liver mRNA isolated from animals injected with phenobarbital and uninjected controls was translated efficiently in a wheat-germ system. The synthesis of ligandin (glutathione S-transferase B; glutathione transferase; RX-gluathione R-transferase, EC 2.5.1.18) was detected by immunoprecipitation with a highly purified monospecific ligandin antibody and analysis by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The extent of incorporation of [35S]methionine into ligandin in the translation system was similar for poly(A)-containing messages from un-infected animals and those treated with phenobarbital.
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PMID:Translation in vitro of rat liver messenger RNA coding for ligandin (glutathione S-transferase B). 26 12

There are two enzymes in rat liver with glutathione peroxidase activity when cumene hydroperoxide is used as substrate. One is the selenium-requiring glutathione peroxidase (glutathione:hydrogen-peroxide oxidoreductase, EC 1.11.1.9) and the other appears to be independent of dietary selenium. Activities of the two enzymes vary greatly among tissues and among animals. The molecular weight of the enzyme with selenium-independent glutathione peroxidase activity was estimated by gel filtration to be 35 000, and the subunit molecular weight was estimated by dodecyl sulfate-polyacrylamide gel electrophoresis to be 17 000. Double reciprocal plots of enzyme activity as a function of substrate concentration produced intersecting lines which are suggestive of a sequential reaction mechanism. The Km for glutathione was 0.20 mM and the Km for cumene hydroperoxide was 0.57 mM. The enzyme was inhibited by N-ethylmaleimide, but not by iodoacetic acid. Inhibition by cyanide was competitive with respect to glutathione and the Ki for cyanide was 0.95 mM. This selenium-independent glutathione peroxidase also catalyzes the conjugation of glutathione to 1-chloro-2,4-dinitrobenzene. Along with other similarities to glutathione S-transferase, this suggests that the selenium-independent glutathione peroxidase and glutathione S-transferase activities in rat liver are of the same enzyme.
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PMID:Glutathione peroxidase activities from rat liver. 62 91

Partial purification from rat liver of an enzyme which catalyzes defluorination of methoxyflurane is described. Fractionation of liver homogenates by protamine sulfate and ammonium sulfate precipitation and by Sephadex G-100 chromatography results in a 10-fold purification with 53% recovery. The enzyme requires glutathione for activity, and other sulfhydrhyl compounds cannot be substituted. The enzyme appears to be a glutathione S-transferase, possibly one of several which have recently been characterized.
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PMID:Defluorination of methoxyflurane by a glutathione-dependent enzyme. 84 92

The ras-related protein, CDC42Hs, is a 22-kDa GTP-binding protein which is the human homolog of a Saccharomyces cerevisiae yeast-cell-division cycle protein. In attempting to isolate and biochemically characterize mammalian proteins capable of regulating various activities of CDC42Hs, we have identified an activity in bovine brain cytosol which effectively inhibits the dissociation of [3H]GDP from the platelet- or the Spodoptera frugiperda-expressed CDC42Hs protein. The purification of this activity was achieved by a series of steps which included ammonium sulfate fractionation, DEAE-Sephacel, Mono-Q, and Mono-S chromatographies. The purified CDC42Hs regulatory protein has an apparent molecular weight of 28,000, and cyanogen bromide-generated peptide sequences of this protein were identical to sequences from the carboxyl-terminal portion of rho-GDP-dissociation inhibitor (rho-GDI) (Fukumoto, Y., Kaibuchi, K., Hori, Y., Fujioka, H., Araki, S., Ueda, T., Kikuchi, A., and Takai, Y. (1990) Oncogene 5, 1321-1328). In addition, an Escherichia coli-expressed, glutathione S-transferase-rho-GDI fusion protein fully substitutes for the GDI which we have purified from bovine brain in its ability to inhibit GDP dissociation from CDC42Hs. These findings suggest either that a common regulatory protein (GDI) is capable of inhibiting GDP dissociation from the rho and CDC42Hs proteins or that these two GTP-binding proteins interact with GDI proteins of very similar structure. The purified brain GDI protein shows little ability to inhibit GDP dissociation from the E. coli-expressed CDC42Hs and is capable of only a very weak inhibition of the dissociation of [35S]guanosine 5'-3-O-(thio)triphosphate (GTP gamma S) from the Spodoptera frugiperda-expressed CDC42. However, brain GDI very effectively inhibits the ability of the human dbl oncogene product to catalyze GDP dissociation from CDC42Hs. In addition to influencing guanine nucleotide association with CDC42Hs, the purified brain GDI protein also appears to catalyze the dissociation of CDC42Hs from the plasma membranes of human placenta and human epidermoid carcinoma (A431) cells. This effect by the GDI protein is observed whether the membrane-associated CDC42Hs is preincubated with GDP, GTP gamma S, or no guanine nucleotides, and occurs over a similar concentration range as that necessary for the inhibition of the intrinsic GDP dissociation.
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PMID:The identification and characterization of a GDP-dissociation inhibitor (GDI) for the CDC42Hs protein. 142 34

Crystals of the recombinant 28 kDa glutathione S-transferase from Schistosoma mansoni have been obtained by the hanging-drop method of vapor diffusion from ammonium sulfate solutions. The successful crystallization of this enzyme required the presence of a reducing agent and S-hexylglutathione. The crystals belong to the cubic space group P4(1)32 (or P4(3)32), with unit cell dimensions a = 122.6 A and contain one molecule in the asymmetric unit. The crystals diffract to at least 2.8 A resolution and are suitable for X-ray crystallographic structure analysis.
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PMID:Crystallization and preliminary X-ray diffraction studies of a protective cloned 28 kDa glutathione S-transferase from Schistosoma mansoni. 156 Apr 66

The study investigated the relationship between lipid peroxidation and enzyme inactivation in rat hepatic microsomes and whether prior inactivation of aldehyde dehydrogenase (ALDH) exacerbated inactivation of other enzymes. In microsomes incubated with 2.5 microM iron as ferric sulfate and 50 microM ascorbate, ALDH, glucose-6-phosphatase (G6Pase) and cytochrome P450 (Cyt-P450) levels decreased rapidly and concurrently with increased levels of thiobarbituric acid-reactive substances. Microsomal glutathione S-transferase and nicotinamide adenine dinucleotide phosphate-cytochrome c reductase were little affected during 1 hr of incubation. Addition of reduced glutathione partially protected and N,N'-diphenyl-p-phenylenediamine and butylated hydroxytoluene completely protected microsomes against inactivation of ALDH, G6Pase and Cyt-P450, as well as lipid peroxidation induced by iron and ascorbate. ALDH was more susceptible than G6Pase to inactivation by iron and ascorbate, and was thus an excellent marker for oxidative stress. Inhibition of ALDH by cyanamide injection of rats exacerbated the inactivation of G6Pase in microsomes incubated with 0.1 mM, but not 25 microM 4-hydroxynonenal (4-HN). 4-HN did not stimulate lipid peroxidation. Thus, 4-HN may play a minor role in microsomal enzyme inactivation. In contrast, lipid peroxyl radicals play an important role in microsomal enzyme inactivation, as evidenced by the prevention of both lipid peroxidation and enzyme inactivation by chain-breaking antioxidants.
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PMID:Glutathione and antioxidants protect microsomes against lipid peroxidation and enzyme inactivation. 160 2

The mechanism of oxygen radical-dependent activation of hepatic microsomal glutathione S-transferase by hydrogen peroxide was studied. Glutathione S-transferase activity in liver microsomes was increased 1.5-fold by incubation with 0.75 mM hydrogen peroxide at 37 degrees C for 10 min, and the increase in activity was reversed by incubation with dithiothreitol. Purified glutathione S-transferase was also activated by hydrogen peroxide after incubation at room temperature, and the increase in the activity was also reversed by dithiothreitol. Immunoblotting with anti-microsomal glutathione S-transferase antibodies after sodium dodecyl sulfate-polyacrylamide gel electrophoresis of hydrogen peroxide-treated microsomes or purified glutathione S-transferase revealed the presence of a glutathione S-transferase dimer. These results indicate that the hydrogen peroxide-dependent activation of the microsomal glutathione S-transferase is associated with the formation of a protein dimer.
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PMID:Activation of rat liver microsomal glutathione S-transferase by hydrogen peroxide: role for protein-dimer formation. 163 48

Full-length cDNA clones for the CBF-A and CBF-B subunits of the CCAAT binding mammalian heteromeric transcription factor (CBF) have previously been isolated from both rat and mouse. Whereas recombinant CBF-B binds to DNA after complementation with a highly purified CBF-A fraction, recombinant CBF-A was unable to bind to DNA after complementation with either purified CBF-B or recombinant CBF-B. However, when recombinant CBF-A, synthesized as a fusion protein with glutathione S-transferase was denatured together with a highly purified fraction containing CBF-A in the presence of 5.5 M guanidine hydrochloride and subsequently renatured, the recombinant CBF-A bound to DNA after complementation with CBF-B. This binding of recombinant CBF-A could not be detected if recombinant CBF-A was not mixed during the denaturation-renaturation process together with the purified fraction containing the 32-kDa CBF-A. Using a Southwestern blot we demonstrated that a polypeptide of approximately 40 kDa, present in the purified CBF-A fraction, bound to DNA after complementation with both recombinant CBF-A and CBF-B. After fractionation of the purified CBF-A preparation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a species of approximately 40 kDa was eluted from the gel and shown to have DNA binding activity after complementation with both recombinant CBF-A and CBF-B. Our results indicate that a third polypeptide, designated CBF-C, forms a tight complex with CBF-A. Together with CBF-A and CBF-B, CBF-C is required for the DNA binding activity of CBF.
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PMID:Three different polypeptides are necessary for DNA binding of the mammalian heteromeric CCAAT binding factor. 164 37

Human placental glutathione S-transferase was purified to apparent homogeneity by direct application of the crude homogenate into glutathione linked sepharose affinity chromatography. Chromatofocusing analysis in the presence of reduced glutathione resolved the enzyme into three acidic peaks eluted at pH 6.0, 5.7 and 5.5. About 36% of the initial activity was recovered in the isozyme fraction eluted at pH 6.0 whereas the isozymes eluted at pH 5.7 and 5.5 accounted for 20% and 25% of the activity respectively. Disc gel electrophoresis in the presence of sodium dodecyl sulfate revealed the presence of a single protein band in all the three separated isozymes. These isozymes were homodimers with an apparent relative molecular mass of 44.000 and subunit molecular mass of 21.000. The isozymes were immunologically related to each other and to the enzyme from goat and sheep placentae. Mother age had no influence in the placental glutathione S-transferase activity, albeit the activity was slightly higher in placenta obtained from younger women.
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PMID:Studies on human placental glutathione S-transferase. Multiplicity and mother age influence. 170 71

Human recombinant apolipoprotein (apo) A-I was produced by Chinese hamster ovary (CHO) cells and Escherichia coli with expression vectors containing cDNAs encoding preproapoA-I or apoA-I, respectively. The apoA-I from CHO cells was purified from the culture medium by ammonium sulfate precipitation, phenyl-Sepharose chromatography, and affinity purification on anti-apoA-I immunoabsorber. Human apoA-I was produced in E. coli as a fusion protein with glutathione S-transferase. A four amino acid linker, which separated the two proteins, was specifically recognized and cut by Factor Xa. The purification was accomplished by chromatography of E. coli extracts on glutathione-Sepharose and digestion with Factor Xa. The highest production level was found to be 0.5 micrograms/ml of culture medium per 48 h for a clone of stable transformant of CHO cells, whereas E. coli could produce as much as 20 micrograms/ml of bacterial culture. These apoA-I forms were compared in terms of molecular weight, isoelectric point, and expression of several epitopes. Recombinant apoA-I obtained from CHO cells appears intact and its isoelectric point is compatible with that of the mature form and the proform of apoA-I, whereas a part of the apoA-I produced by E. coli does not contain the COOH-terminus. Also, two of six epitopes are expressed to a greater extent in apoA-I obtained from E. coli than in apoA-I obtained from human plasma.
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PMID:Expression of recombinant human apolipoprotein A-I in Chinese hamster ovary cells and Escherichia coli. 182 1

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