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

Three mouse monoclonal antibodies (Moabs) have been obtained with specificity for the 7B2 protein, a proposed member of the granin family of neuroendocrine proteins. Bacterially produced hybrid proteins of 7B2 were used as immunogens. The Moabs were designated MON-100, MON-101, and MON-102. Furthermore, we report the construction of 35 deletion mutants of the glutathione S-transferase-7B2 (GST-7B2) fusion-gene using recombinant DNA technology. The hybrid proteins encoded by eleven of these mutants were used in epitope mapping experiments and the results of these studies strongly suggested that recognition of 7B2 by all three Moabs involved the same 16 amino acid region of 7B2 (from amino acid residue 128-135). This was further substantiated by the observation that MON-101 and MON-102 specifically recognized a conjugate between bovine serum albumin and the synthetic peptide Phe-Glu-Pro-Glu-His-Asp-Tyr-Pro-Gly-Leu-Gly-Lys based upon the deduced amino acid sequence of the predicted epitope region in 7B2. In an approach to generate a series of 7B2-specific Moabs targeted against another epitope region in the 7B2 protein, the hybrid protein encoded by deletion mutant pPV32 was used as the immunogen. This protein lacked the epitope region recognized by the first series of Moabs. A second series of three Moabs, designated MON-142, MON-143, and MON-144, was obtained and, in all three cases, the region of 7B2 from amino acid residue 64-94 appeared to be involved in specific recognition by the Moabs. The whole panel of six anti-7B2 antibodies appeared to be useful in immunoprecipitation and Western blot analysis of the 7B2 protein and specifically stained neuroendocrine cells in immunohistochemical experiments. Using a double determinant sandwich enzyme immunoassay, 7B2 protein levels in rat pituitary were determined as 20 ng/mg tissue.
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PMID:Application of recombinant DNA technology in epitope mapping and targeting. Development and characterization of a panel of monoclonal antibodies against the 7B2 neuroendocrine protein. 171 98

S-(4-Bromo-2,3-dioxobutyl)glutathione (S-BDB-G), a reactive analogue of glutathione, has been synthesized and characterized by UV spectroscopy and thin-layer chromatography, as well as by bromide and primary amine analysis. Incubation of S-BDB-G (200 microM) with the 4-4 isoenzyme of rat liver glutathione S-transferase at pH 6.5 and 25 degrees C results in a time-dependent inactivation of the enzyme. The kobs exhibits a nonlinear dependence on S-BDB-G concentration from 50 to 1000 microM, with a kmax of 0.078 min-1 and K1 = 66 microM. The addition of 5 mM S-hexylglutathione, a competitive inhibitor with respect to glutathione, completely protects against inactivation by S-BDB-G. About 1.3 mol of [3H]S-BDB-G/mol of enzyme subunit is incorporated concomitant with 100% inactivation, whereas only 0.48 mol of reagent/mol of subunit is incorporated in the presence of S-hexylglutathione when activity is fully retained. Modified enzyme, prepared by incubating glutathione S-transferase with [3H]S-BDB-G in the absence or in the presence of S-hexylglutathione, was reduced with NaBH4, carboxymethylated, and digested with trypsin. The tryptic digest was fractionated by reverse-phase high-performance liquid chromatography. Two radioactive peptides were identified: Lys82-His-Asn-Leu-X-Gly-Glu-Thr-Glu-Glu-Glu-Arg93, in which X is modified Cys86, and Leu109-Gln-Leu-Ala-Met-CmCys-Y-Ser-Pro-Asp-Phe-Glu-Arg121 , in which Y is modified Tyr115. Only the Lys82-Arg93 peptide was modified in the presence of S-hexylglutathione when the enzyme retained full activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:S-(4-Bromo-2,3-dioxobutyl)glutathione: a new affinity label for the 4-4 isoenzyme of rat liver glutathione S-transferase. 195 60

The C-terminal region of rat glutathione S-transferase P (GST-P) was deleted by either carboxypeptidase (CPase) A and B or site-specific truncation to evaluate the role of the region in the catalytic mechanism. The C-terminal sequence from the 201st to 209th amino-acid residues is Arg-Pro-Ile-Asn-Gly-Asn-Gly-Lys-Gln. When seven of the C-terminal amino-acid residues from the C-terminus were removed by the CPases, the catalytic activity decreased in parallel with the amino-acid removal, amounting to less than 5% of that of the wild-type GST-P. On the other hand, a decrease of the catalytic activity was observed in a different manner when the C-terminal sequence was site-specifically truncated. The VmaxGSH/KmGSH values of the mutants withthree (GSTd207-209), four (GSTd206-209) and seven (GSTd203-209) C-terminal amino-acid residues deleted, were comparable or similar to that of the wild-type GST-P, whereas those of five (GSTd205-209), six (GSTd204-209), and eight (GSTd202-209) amino-acid residue-truncated mutants decreased to 43%, 40%, and 19% of that of the wild-type GST-P, respectively. Similar results were obtained as for VmaxCDNB/KmCDNB. The nine amino-acid residue-truncated mutant showed no catalytic activity. Heat treatment at 50 degrees C for 5 min had little effect on the catalytic activities of the wild-type GST-P and GSTd204-209, whereas those of GSTd207-209, GSTd206-209, GSTd203-209 and GSTd202-209 decreased to 22%, 27%, 18% and 10%, respectively, compared to the catalytic activity of the non-treated enzymes. Considering these results, it is concluded that the C-terminal region, Arg201-Gln209, has an important role in stabilizing the active-site conformation.
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PMID:The C-terminal region, Arg201-Gln209, of glutathione S-transferase P contributes to stability of the active-site conformation. 757 28

The glutathione S-transferases play a pivotal role in the detoxification of toxic and carcinogenic electrophiles. We have previously reported the isolation of two actively transcribed murine pi-class glutathione S-transferase genes. In this study the two proteins encoded by these genes, Gst p-1 and Gst p-2, were expressed in Escherichia coli and found to exhibit profoundly different catalytic activities, the activity of Gst p-2 toward a panel of electrophilic substrates being 1-3 orders of magnitude lower than that of Gst p-1. In order to establish the basis for the difference between these highly homologous proteins, mutants were generated where specific amino acids had been exchanged. Kinetic analysis of the wild-type and mutant enzymes revealed that the amino acid differences occurring at positions 10 (Val/Ser), 11 (Arg/Pro), and 104 (Val/Gly) are responsible for the reduced enzymatic activity of Gst p-2. This analysis together with computer graphics modeling for Gst p-2 indicated that these changes affected both substrate and glutathione binding to the enzyme.
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PMID:Amino acid differences at positions 10, 11, and 104 explain the profound catalytic differences between two murine pi-class glutathione S-transferases. 761 99

Transcriptional activation of the soybean (Glycine max) GH2/4 gene (also referred to as Gmhsp26-A) and increase in abundance of the GH2/4 mRNA (also referred to as pCE54) have been previously shown to occur following treatment of soybean seedlings with auxins, nonauxin analogs, heavy metals, and a variety of other agents. To determine whether the GH2/4 promoter is responsive to an array of different agents, we have analyzed the inducibility of the GH2/4 promoter fused to the beta-glucuronidase reporter gene in transgenic tobacco (Nicotiana tabacum) plants. We have shown that a wide variety of chemical agents induce this promoter in a tissue-specific and concentration-dependent manner. In addition, we have used an affinity-purified antibody raised against recombinant GH2/4 protein to show that the GH2/4 protein increases in response to auxin application and is localized in the cytosol of soybean cells. Recombinant GH2/4 protein can be purified to homogeneity on a glutathione-agarose resin, and the purified protein has glutathione S-transferase activity when assayed with the substrate 1-chloro-2,4-dinitrobenzene.
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PMID:The soybean GH2/4 gene that encodes a glutathione S-transferase has a promoter that is activated by a wide range of chemical agents. 763 Sep 72

A chimeric enzyme (GST121) of the human alpha-glutathione S-transferases GST1-1 and GST2-2, which has improved catalytic efficiency and thermostability from its wild-type parent proteins, has been crystallized in a space group that is isomorphous with that reported for crystals of GST1-1. However, a single-site (G82R) mutant of GST121, which exhibits a significant reduction both in vitro and in vivo in protein thermostability, forms crystals that are not isomorphous with GST1-1. The mutant protein crystallizes in space group P2(1)2(1)2(1), with cell dimensions a = 49.5, b = 92.9, c = 115.9 A, and one dimer per asymmetric unit. Preliminary crystallographic results show that a mutation of the surface residue Gly 82 from a neutral to a charged residue causes new salt bridges to be formed among the GST dimers, suggesting that the G82R mutant might aggregate more readily than does GST121 in solution, resulting in a change of its solution properties.
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PMID:A surface mutant (G82R) of a human alpha-glutathione S-transferase shows decreased thermal stability and a new mode of molecular association in the crystal. 789 74

Hepatitis delta virus (HDV) encodes two proteins, the small hepatitis delta antigen (SHDAg) and large hepatitis delta antigen (LHDAg). Both proteins are identical except for the presence of additional 19 amino acids at the C terminus of LHDAg. While SHDAg is required for HDV RNA replication, LHDAg inhibits replication and is required together with hepatitis B surface antigen for the assembly of HDV. The C-terminal last 4 amino acids of LHDAg (Cys-Arg-Pro-Gln) is an isoprenylation motif. It has previously been shown that the mutation of the Cys inhibited the assembly of HDV. In order to discern whether this effect is due to change of amino acid residue or abolition of isoprenylation, we constructed several LHDAg mutants of the terminal three amino acid residues and tested their abilities to be packaged with HBsAg by cotransfection experiments. We also made GST-fusion proteins of these mutants and tested their abilities to be isoprenylated in rabbit reticulocyte lysate system. We found that some, but not all, of the substitutions of the amino acid residues other than the Cys also inhibited isoprenylation and that the status of isoprenylation of these mutant proteins correlated well with their abilities to be packaged with HBsAg into virions. This result indicates that isoprenylation, rather than the primary amino acid sequence, is required for LHDAg packaging. Furthermore, we found that the attachment of an isoprenylation motif to SHDAg did not enable it to be packaged with HBsAg and that the deletions of any 5 amino acids in the last 15 amino acids (amino acids 196 to 210) unique to the LHDAg abolished the packaging ability. In contrast, the deletion of 33 amino acids (amino acids 163 to 195) upstream of the last C-terminal 19 amino acids of LHDAg did not interfere with its packaging ability. Therefore, we conclude that the 15 amino acids upstream of the isoprenylation site of LHDAg are also essential for HDV assembly, and a large portion of the alleged C-terminal Pro/Gly-rich region (amino acids 146 to 195) is not required for the assembly process.
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PMID:Isoprenylation of large hepatitis delta antigen is necessary but not sufficient for hepatitis delta virus assembly. 811 40

Rat glutathione transferase (GST) 8-8 displays high catalytic activity with alpha, beta-unsaturated carbonyl compounds, including lipid peroxidation products such as 4-hydroxyalkenals. The catalytic efficiency of the related class Alpha GST 1-1 is substantially lower with the same substrates. Chimeric enzymes were prepared by replacing N-terminal subunit 8 segments of different lengths (6, 25, or 100 residues) with corresponding sequences from subunit 1 using recombinant DNA techniques. The chimeric subunit r1(25)r8, containing 25 amino acid residues from subunit 1, had the same low activity with alkenal substrates as that displayed by subunit 1. Mutation of Ala-12 into Gly in r1(25)r8 gave rise to the high alkenal activity characteristic of subunit 8, showing the importance of amino acid residue 12 for the activity. However, other structural determinants are also essential, as demonstrated by the corresponding Ala-12-->Gly mutation in subunit 1, which did not afford high alkenal activity. The results show that a single point mutation in a GST subunit may give rise to a 100-fold increase in catalytic efficiency with certain substrates. Introduction of such mutations may have contributed to the biological evolution of GST isoenzymes with altered substrate specificities and may also find use in the engineering of GSTs for novel functions.
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PMID:The high activity of rat glutathione transferase 8-8 with alkene substrates is dependent on a glycine residue in the active site. 853 Mar 59

LIM domains, Cys-rich motifs containing approximately 50 amino acids found in a variety of proteins, are proposed to direct protein*protein interactions. To identify structural targets recognized by LIM domains, we have utilized random peptide library selection, the yeast two-hybrid system, and glutathione S-transferase fusions. Enigma contains three LIM domains within its carboxyl terminus and LIM3 of Enigma specifically recognizes active but not mutant endocytic codes of the insulin receptor (InsR) (Wu, R. Y., and Gill, G. N. (1994) J. Biol. Chem. 269, 25085-25090). Interaction of two random peptide libraries with glutathione S-transferase-LIM3 of Enigma indicated specific binding to Gly-Pro-Hyd-Gly-Pro-Hyd-Tyr-Ala corresponding to the major endocytic code of InsR. Peptide competition demonstrated that both Pro and Tyr residues were required for specific interaction of InsR with Enigma. In contrast to LIM3 of Enigma binding to InsR, LIM2 of Enigma associated specifically with the receptor tyrosine kinase, Ret. Ret was specific for LIM2 of Enigma and did not bind other LIM domains tested. Mutational analysis indicated that the residues responsible for binding to Enigma were localized to the carboxyl-terminal 61 amino acids of Ret. A peptide corresponding to the carboxyl-terminal 20 amino acids of Ret dissociated Enigma and Ret complexes, while a mutant that changed Asn-Lys-Leu-Tyr in the peptide to Ala-Lys-Leu-Ala or a peptide corresponding to exon16 of InsR failed to disrupt the complexes, indicating the Asn-Lys-Leu-Tyr sequence of Ret is essential to the recognition motif for LIM2 of Enigma. We conclude that LIM domains of Enigma recognize tyrosine-containing motifs with specificity residing in both the LIM domains and in the target structures.
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PMID:Specificity of LIM domain interactions with receptor tyrosine kinases. 866 33

The present study proposes the participation of both carboxylate groups of the glutathione molecule as functional entities in the catalytic apparatus of human glutathione transferase (GST) A1-1. Functional studies in combination with structural data provide evidence for the alpha-carboxylate of the Glu residue of glutathione acting as a proton acceptor in the catalytic mechanism. The Glu carboxylate is hydrogen-bonded to a protein hydroxyl group and a main-chain NH, as well as to a water molecule of low mobility in the active site region. The Glu alpha-carboxylate of glutathione is bound in a similar manner to the active sites of mammalian glutathione transferases of classes Alpha, Mu, and Pi, for which three-dimensional structures are known. Mutation of the hydroxyl group that is hydrogen-bonded to the alpha-carboxylate of the Glu residue of glutathione (Thr68->Val) caused a shift of the pH dependence of the enzyme-catalyzed reaction, suggesting that the acidic limb of the pH-activity profile reflects the ionization of the carboxylate of the Glu residue of glutathione. The second carboxylate group of glutathione, which is part of its Gly residue, interacts with two Arg side chains in GST A1-1. One of these residues (Arg45) may influence an ionic interaction (Arg221/Asp42), which appears to contribute to binding of the second substrate by fixing the C-terminal alpha-helix as a lid over the active site. Removal of the Gly residue from the glutathione molecule caused a 13-fold increase in the KM value for the electrophilic substrate. Thus, the Gly carboxylate of glutathione, by way of influencing the topology of the active site, contributes to the binding of the second substrate of the enzyme. Consequently, the glutathione molecule has several functions in the glutathione transferase catalyzed reactions, not only as a substrate providing the thiol group for different types of chemical reactions but also as a substrate contributing a carboxylate that acts as a proton acceptor in the catalytic mechanism and a carboxylate that modulates binding of the second substrate to the enzyme.
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PMID:Involvement of the carboxyl groups of glutathione in the catalytic mechanism of human glutathione transferase A1-1. 867 73


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