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)

Three forms of glutathione transferase (GST) with an apparent isoelectric point of pH 4.65 (GST I), 4.75 (GST II) and 4.9 (GST III) were resolved from the monkey (Macaca fascicularis) placenta after GSH-affinity chromatography followed by chromatofocusing. Substrate specificity, immunological reactivity, as well as N-terminal aminoacid sequences indicate that the three enzymes belongs to the pi class of GST. Reverse phase HPLC analysis indicates that the three GST arise from the combination of two different subunits eluting respectively at 29.60 +/- 0.10 min and 32.43 +/- 0.13 min. GST I is an homodimer of the 29.60 +/- 0.10 min subunit, GST III is an homodimer of the 32.43 +/- 0.13 min subunit, whereas the GST II is an heterodimer of the 29.60 +/- 0.10 min and 32.43 +/- 0.13 min subunits. Our results strongly suggest that unlike human, multiple forms of pi class GST exist in monkey placenta.
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PMID:Purification and characterization of three Pi class glutathione transferase from monkey (Macaca fascicularis) placenta. 884 May 13

The oxidation of protein sulphydryls to disulphides and their reduction back to sulphydryls is an early cellular response to oxidative stress. Hydrogen-peroxide-mediated oxidation of class-pi glutathione S-transferase results in the formation of disulphide bonds, which inhibits its catalytic function yet allows it to retain its non-substrate-ligand-binding properties. The overall hydrodynamic volume of the oxidised class-pi glutathione S-transferase type-1 homodimer (GSTP1-1) is decreased, and its tertiary-structural and secondary-structural elements are changed with respect to the native protein. Structural differences appear to be prominent in domain 1 of oxidised GSTP1-1, in that the exposure of both tryptophan residues is increased, while the electric potential about one of them is altered. Treatment of the oxidised protein with dithiothreitol or glutathione restores its enzymatic capabilities, albeit with lower specific activities for 1-chloro-2,4-dinitrobenzene and ethacrynic acid. The hydrophobic binding site (H-site) for electrophilic substrates is negatively affected in that the K(m) and catalytic-efficiency values are diminished significantly with respect to those values obtained for the native protein. The dithiothreitol-treated oxidised GSTP1-1 is able to regain its overall hydrodynamic volume; however, both its secondary-structural and tertiary-structural elements remain modified with respect to the native protein, as do both tryptophanyl environments. Furthermore, the oxidised glutathione S-transferase and dithiothreitol-treated oxidised glutathione S-transferase are less thermostable (tM = 55.5 degrees C and 56.3 degrees C, respectively) than the native enzyme (tM = 59 degrees C). These results indicate that the class-pi glutathione S-transferase is unable to regain its native conformation after oxidative inactivation.
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PMID:Class-pi glutathione S-transferase is unable to regain its native conformation after oxidative inactivation by hydrogen peroxide. 897 47

Oocysts of Cryptosporidium parvum showed relatively low levels of SOD activity. The SOD which had a pI of 4.8 and an approximate molecular weight of 35 kDa appeared to be iron dependent. Catalase, glutathione transferase, glutathione reductase and glutathione peroxidase activity could not be detected, nor could trypanothione reductase. No NADH or NADPH oxidase activity could be detected, nor could peroxidase activity be demonstrated using o-dianisidine, guaiacol, NADPH or NADH as co-substrates. However, an NADPH-dependent H2O2 scavenging system was detected in the insoluble fraction.
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PMID:Anti-oxidant enzymes in Cryptosporidium parvum oocysts. 901 Oct 70

The status of lipid peroxidation was investigated in rats fed M. Koenigii (curry leaf) and B. juncea (Mustard). Concentration of malondialdehyde showed a significant decrease, while hydroperoxides and conjugated dienes were significantly increased in liver and heart of both the experimental groups. SOD and catalase activity was found to be increased in liver and heart of both the spices administered groups. Glutathione levels in liver, heart and kidney were lowered in rats administered these spices. Glutathione reductase, glutathione peroxidase and glutathione S-transferase activity showed a sharp increase in the experimental groups compared to the controls.
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PMID:Role of Murraya koenigii (curry leaf) and Brassica juncea (Mustard) in lipid peroxidation. 906 11

To obtain recombinant human coproporphyrinogen oxidase (CPX), a cDNA for the coding region of mature human CPX has been expressed in E. coli. CPX was produced as a fusion protein with glutathione S-transferase followed by the hexapeptide recognition site for thrombin cleavage just preceding first amino acid of the CPX protein. The human CPX was found to be in the soluble fraction. This previously unobtainable human heme synthetic enzyme was purified to electrophoretic homogeneity with a specific activity of 4200 nmol/hr./mg of protein using a Glutathione Sepharose 4B column and gel filtration. Recombinant human CPX exhibits homogeneous behavior during high performance liquid chromatography (HPLC) and the N-terminal sequence, confirmed by protein sequencing, revealed a single polypeptide chain. In its active form, human CPX is a homodimer. According to the hydrodynamic properties derived from analytical ultracentrifugation, dimeric CPX has a nearly globular shape. Additionally, naturally occurring Arg to Trp (R231W)-mutated CPX has been also expressed in E. coli and further characterized. The mutated enzyme has a Km value of 0.55 microM as compared to 0.30 microM for the wild type. The catalytic efficiency (specificity constant, kcat/Km) of the mutated CPX was four fold lower than wild-type enzyme. The activity measurement of the mutated enzyme showed higher thermal sensitivity as compared with wild type CPX. The measured pI for mutated CPX is 5.65, compared to 6.40 for wild type. The pH optima for the mutated and wild-type protein are 6.6 and 6.8, respectively. The R231W mutation of CPX does not affect dimer formation and both normal and mutated CPX exhibit identical sedimentation properties. The thermal denaturation of both wild type and mutant CPX was found to be irreversible. The mutated CPX contained a significant amount of tightly bound porphyrin coproporphyrin. No metal association was found either in wild type or in mutated CPX. The availability of the recombinant human CPX will aid in structural and mechanistic studies.
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PMID:Human coproporphyrinogen oxidase. Biochemical characterization of recombinant normal and R231W mutated enzymes expressed in E. coli as soluble, catalytically active homodimers. 907 88

We have expressed, purified, and analyzed the iron-containing superoxide dismutase (FeSOD) of Escherichia coli with mutations directed at tyrosine position 34 to introduce phenylalanine (SODY34F), serine (SODY34S), or cysteine (SODY34C). FeSOD and mutant enzymes were purified from SOD-deficient cells using a GST-FeSOD fusion protein intermediate which was subsequently cleaved with thrombin and repurified. Specific activities were measured using the xanthine-xanthine oxidase method and gave 3148 u/mg for wild-type FeSOD. The SODY34S mutation virtually inactivates the enzyme (42 u/mg); mutation to cysteine greatly reduces activity (563 u/mg), but the SODY34F mutant retains nearly 40% of the activity of wild type (1205 u/mg). Fusion protein intermediates were also shown to be active and were demonstrated to protect SOD-deficient E. coli cells from the induced effects of oxidative stress, with growth rates directly proportional to the specific activities of the expressed mutant enzymes. SODY34F exhibited decreased thermal stability, reduced activity at high pH, and a pronounced increase in sensitivity to the inhibitor sodium azide compared with wild-type FeSOD. These results suggest that tyrosine at position 34 is multifunctional and plays a structural role (probably through hydrogen bonding to glutamine at position 69) in maintaining the integrity of the active site, a stabilizing role at high pH, and a steric role in obstructing access to the active site of both substrate and inhibitor molecules.
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PMID:The conserved residue tyrosine 34 is essential for maximal activity of iron-superoxide dismutase from Escherichia coli. 912 14

Antioxidant enzymes from S. mansoni, cytosolic Cu-Zn superoxide dismutase (CT-SOD), signal-peptide-containing SOD (SP-SOD), glutathione peroxidase (GPX), and glutathione transferase (GST) were compared for their relative levels of transcript expression throughout development in a semiquantitative reverse transcriptase-polymerase chain reaction assay. All of the antioxidant enzymes exhibited a similar pattern of developmental regulation. Adult worms have the highest level of specific mRNA compared with larval stages. GST shows the highest level of expression, being approximately 10-fold more abundant than CT-SOD and SP-SOD and 100-fold more abundant than GPX. This order of expression was nearly consistent for all the developmental stages studied. To localize the antioxidant enzymes, immunofluorescence staining was performed on 3-hr schistosomula and adult worms. GPX, SP-SOD, and CT-SOD were all found to be associated with the adult tegument and gut epithelium. SP-SOD was also associated with organelle and cell membranes of parenchymal cells and interestingly with the spines of adult worms. Schistosomula, on the other hand, showed little immunofluorescence. These studies further demonstrate the developmental regulation of antioxidant enzymes and localize them to the host-parasite interface, supporting the notion that they have a role in allowing adult worms to evade immune attack.
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PMID:Schistosoma mansoni: the developmental regulation and immunolocalization of antioxidant enzymes. 914 42

Six cytosolic GSTs from porcine liver were purified by a combination of glutathione affinity chromatography and ion-exchange HPLC. The isoenzymes were characterized by SDS-PAGE, gel filtration, isoelectric focusing, immunoblotting analysis and determination of substrate specificities and inhibition characteristics. The purified GSTs belong to the alpha and mu classes, respectively. No class pi isoenzyme was isolated or detected. The class alpha GST pA1-1* exists as a homodimer (M(r) = 25.3 kDa), whereas GST pA2-3* consists of two subunits with different M(r) values (27.0 and 25.3 kDa). The estimated pI values were 9.5 and 8.8, respectively. Furthermore, four class mu porcine GSTs, pM1-1*, pM1-2*, pM3-?* and pM4-?*, were isolated. The isoenzyme pM1-1* possesses a relative molecular mass of 27.2 kDa and a pI value of 6.2. Additional pM1 isoenzymes hybridize with the subunit pM2* (M(r) = 25.2) to furnish a heterodimer, which shows a pI value of 5.8. The other class mu isoenzymes are heterodimers with pI values of 5.45 and 5.05. Substrate specificities and inhibition characteristics correlate very well with those of the corresponding human isoenzymes. The results are discussed with regard to the usefulness of porcine GSTs as an in vitro testing model.
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PMID:Purification and characterization of class alpha and Mu glutathione S-transferases from porcine liver. 914 93

Nitric oxide synthase (EC 1.14.13.39) is a homodimer. Limited proteolysis has previously shown that it consists of two major domains. The C-terminal or reductase domain binds FMN, FAD and NADPH. The N-terminal or oxygenase domain is known to bind arginine, (6R)-5,6,7,8-tetrahydro-l-biopterin (tetrahydrobiopterin) and haem. The exact residues of the inducible nitric oxide synthase (iNOS) protein involved in binding to these molecules have yet to be identified, although the haem moiety is known to be co-ordinated through a cysteine thiolate ligand. We have expressed two forms of the haem-binding domain of human iNOS (residues 1-504 and 59-504) in Escherichia coli as glutathione S-transferase (GST) fusion proteins. The iNOS 1-504 and 59-504 fusion proteins bound similar amounts of haem, Nomega-nitro-l-arginine (nitroarginine) and tetrahydrobiopterin, showing that the first 58 residues are not required for binding these factors. Using site-directed mutagenesis we have mutated Cys-200, Cys-217, Cys-228, Cys-290, Cys-384 and Cys-457 to alanine residues within the iNOS 59-504 haem-binding domain. Mutation of Cys-200 resulted in a complete loss of haem, nitroarginine and tetrahydrobiopterin binding. Mutants of Cys-217, Cys-228, Cys-290, Cys-384 or Cys-457 showed no effect on the haem content of the fusion protein, no effect on the reduced CO spectral peak (444 nm) and were able to bind nitroarginine and tetrahydrobiopterin at levels equivalent to the wild-type fusion protein. After removal of the GST polypeptide, the wild-type iNOS 59-504 domain was dimeric, whereas the C200A mutant form was monomeric. When the mutated domains were incorporated into a reconstructed full-length iNOS protein expressed in Xenopus oocytes, only the Cys-200 mutant showed a loss of catalytic activity: all the other mutant iNOS proteins showed near wild-type enzymic activity. From this systematic approach we conclude that although Cys-217, Cys-228, Cys-290, Cys-384 and Cys-457 are conserved in all three NOS isoforms they are not essential for cofactor or substrate binding or for enzymic activity of iNOS, and that Cys-200 provides the proximal thiolate ligand for haem binding in human iNOS.
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PMID:Cysteine-200 of human inducible nitric oxide synthase is essential for dimerization of haem domains and for binding of haem, nitroarginine and tetrahydrobiopterin. 917 73

Seasonal variation in the activity of antioxidant enzymes (superoxide dismutase (EC 1.15.1.1.; SOD), catalase (EC 1.11.1.6; CAT), glutathione peroxidase (EC 1.11.1.9; GSH-Px), glutathione reductase (EC 1.6.4.2; GR), glutathione-S-transferase (EC 2.5.1.18; GST) and low-molecular-weight antioxidants: ascorbic acid (AsA), vitamin E (VIT E) and glutathione (CSH+GSSG) were examined in the brain of the ground squirrels (Citellus citellus) maintained at 30 degrees C during the whole year. The highest activity (per mg protein) of antioxidant defense (AD) enzymes was found in the spring and was much lower in the summer. A further decrease in activity of CAT, GSH-Px and GST was observed in the winter. The highest levels of AsA and glutathione were recorded in winter in comparison with spring and summer. AD system in the brain of the ground squirrel and rates (maintained at thermoneutrality) exposed to low temperature (4 degrees C) for 3, 6 or 24 hr during the summer was studied as well. Summer was chosen as a period of stable euthermia for ground squirrels and in thermoregulation similar to rats. Consumption of free fatty acid and glucose during the acute exposure to low temperature was found to be species specific. In the ground squirrel, an increase in the specific activities of SOD, after 3, 6 and 24 hr, CAT after 3 and 6 hr and GR after 6 hr of exposure to low temperature was detected. When activities were expressed in U/g wet mass, an increase of SOD after 3, 6 and 24 hr (P < 0.02, P < 0.02, P < 0.005) and CAT and GSH-Px 3 hr (P < 0.01) upon exposure to low temperature was observed. In the rats, no changes in the specific activities of these enzymes after exposure to low temperature were recorded and only an increase in GST activity (U/g wet mass) after 6 hr exposure was registered. Low-molecular-weight AD components in both animal species were unchanged upon short-term exposure to low temperature. The species-specific differences in brain AD between the rats and the ground squirrels after short exposure to low temperature may be ascribed to seasonal changes of the brain activity in the latter.
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PMID:Seasonal variation in the antioxidant defense system of the brain of the ground squirrel (Citellus citellus) and response to low temperature compared with rat. 921 14

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