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)

The enzyme peptide methionine sulfoxide reductase catalyzes the conversion of methionine sulfoxide residues in proteins to methionine. The 636 nucleotide coding region of the peptide methionine sulfoxide reductase gene has been amplified from a genomic clone using the polymerase chain reaction and the product was subcloned into plasmid pGEX-2T downstream of the glutathione S-transferase gene under control of the tac promoter. Escherichia coli XL1-Blue cells transformed with this plasmid and induced with isopropylthio-beta-galactoside expressed high levels of the fusion protein. The protein was soluble and was purified to homogeneity by affinity binding to a glutathione-agarose resin followed by cleavage of the fusion protein with thrombin. Both the fusion protein and the purified peptide methionine sulfoxide reductase protein showed high peptide methionine sulfoxide reductase activity.
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PMID:High level expression and purification of peptide methionine sulfoxide reductase in Escherichia coli. 146 11

The Drosophila glutathione S-transferase 1-1 is a dimer of a 209 amino acid subunit, designated DmGST1. DmGST1 is encoded by a member of a multigene family. Sequence analysis of a genomic clone for GST1 revealed that it is encoded by an intronless gene. We designate this gene and its other family members the GST D genes in the glutathione S-transferase gene superfamily. The Drosophila GST D genes are mapped by in situ hybridization to chromosome 3R at 87B of the polytene chromosome, which is flanked by the two clusters of hsp70 genes at 87A7 and 87C1. Cytogenetic data in the literature indicated that a puff occurred in this region under heat shock. We report that the glutathione S-transferase activity in Kco cells as determined by conjugation with 1-chloro-2,4-dinitrobenzene is elevated slightly to two-fold under heat shock. The implication of this finding is discussed.
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PMID:The Drosophila glutathione S-transferase 1-1 is encoded by an intronless gene at 87B. 187 39

Liver cytosol from mice fed on a normal diet contains Alpha-class glutathione S-transferase (GST) subunits of Mr 25,800, Mu-class GST subunits of Mr 26,400 and Pi-class GST subunits of Mr 24,800. Feeding female mice with a diet containing the anticarcinogenic antioxidant butylated hydroxyanisole (BHA) causes induction of the constitutively expressed Mu-class and Pi-class subunits. BHA also induces an Alpha-class GST comprising subunits of Mr 25,600, which is not expressed at detectable levels in normal mouse liver [McLellan & Hayes (1989) Biochem. J. 263, 393-402]. Data are now presented that show that administration of the anticarcinogen beta-naphthoflavone (BNF), like BHA, induces the Alpha-class 25,600-Mr subunits but not the constitutive Alpha-class GST with subunits of Mr 25,800. The effects of BNF on expression of hepatic GST were studied in both DBA/2 and C57BL/6 mice; these studies revealed a preferential induction of the Alpha-class 25,600-Mr subunits and of the Pi-class 24,800-Mr subunits in those mice in possession of a functional Ah receptor. The BHA/BNF-inducible Alpha-class GST can be resolved into two separate, non-interconvertible peaks by reverse-phase h.p.l.c. Automated amino acid sequence analysis of CNBr-derived peptides from each of these h.p.l.c.-purified peaks showed that the peaks contained at least two very similar subunits. These have been named Ya1 and Ya2. The amino acid sequence of the Ya1 subunit was compared with sequences deduced from a genomic clone, lambda mYa1 (Daniel, Sharon, Tichauer & Sarid (1987) DNA 6, 317-324], and a cDNA clone, pGT41 [Pearson, Reinhart, Sisk, Anderson & Adler (1988) J. Biol. Chem. 263, 13324-13332]. Our data suggest that the Ya1 subunit represents the subunit encoded by the genomic clone, lambda mYa1. Sequence analysis of the constitutive Alpha-class Ya3 subunit (Mr 25,800) shows that, although it is a member of the same gene family as the Ya1 and Ya2 subunits, it represents a distinct sub-family of Alpha-class GST, containing subunits that are more similar to rat Yc. Our data indicate that, of these Alpha-class GST subunits, the two with Mr 25,600 (Ya1 and Ya2) are selectively induced by BHA or BNF in mouse liver; neither BHA nor BNF induces significantly the GST subunit with Mr 25,800 (Ya3).
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PMID:Regulation of mouse glutathione S-transferases by chemoprotectors. Molecular evidence for the existence of three distinct alpha-class glutathione S-transferase subunits, Ya1, Ya2, and Ya3, in mouse liver. 204 74

An intron fragment of a rat glutathione S-transferase P (GST-P) genomic clone was used to assign the chromosomal localization of the GST-P gene. In situ hybridization analysis with the genomic DNA indicated that the GST-P gene was localized on band q43 of rat chromosome 1.
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PMID:Localization of the gene for glutathione S-transferase P on rat chromosome 1 at band q43. 309 12

A mouse glutathione S-transferase gene encoding the Ya subunit was isolated and sequenced. The gene spans about 11 kb, contains seven exons, and encodes an mRNA of 841 nucleotides. Promoter elements, TATA and CAAT box sequences, were located 32 and 70 nucleotides upstream from the initiation of transcription site. The mRNA coding sequences of the mouse gene were highly homologous to a rat liver Ya mRNA species detected by cDNA cloning. The mouse Ya gene produces a 223-amino-acid polypeptide that differs from the 222-amino-acid rat Ya by 10 amino acid substitutions and a carboxyl terminus Phe-Lys-Ile-Gln instead of Phe-Lys-Phe. A genomic clone containing the last three exons of the rat Ya gene was also isolated, sequenced, and compared with the mouse Ya gene. An extensive sequence conservation (70-80%) in the 50 to 200 bases of introns at the exon-intron junctions as well as in the region beyond the cleavage-polyadenylation site of pre-mRNA was observed.
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PMID:Mouse glutathione S-transferase Ya subunit: gene structure and sequence. 365 5

Extracellular elicitor proteins (elicitins) from Phytophthora species induce local and distal defense responses specifically in plants of the Solanaceae and Cruciferae. Based on elicitin amino acid sequences, elicitin-coding sequences from P. parasitica were amplified by the polymerase chain reaction. A genomic clone containing a complete elicitin gene, parA1, was isolated and sequenced. Elicitin was confirmed to be encoded as a precursor protein containing a 20-amino acid signal peptide that is processed before secretion. Bacterial expression of the cloned elicitin gene as a translational fusion protein containing glutathione S-transferase yielded a biologically active protein capable of inducing a hypersensitive response in tobacco, suggesting that fungus-specific postranslational modifications of elicitin are not required for its activity. Southern blot analysis indicated that elicitin genes occur as a multigene family (at least two to 10 copies) in P. parasitica, P. capsici, P. citricola, P. citrophthora, P. cryptogea, P. drechsleri, P. megasperma, and P. palmivora. Some isolates of P. parasitica that did not produce elicitins still contained elicitin-coding sequences but did not accumulate elicitin mRNA.
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PMID:A gene encoding a host-specific elicitor protein of Phytophthora parasitica. 827 71

We report the sequences of two coordinately induced murine glutathione transferase genes, mGSTM1 (GT8.7, Yb1) and mGSTM3 (GT9.3). Genomic clones covering the entire mGSTM1 gene were isolated; comparison of the mGSTM1 gene with genomic sequences from rat class-mu glutathione transferase genes suggests that the mGSTM1 gene is orthologous to the rGSTM1 (rat3, Yb1) gene. The start of mGSTM1 mRNA transcription was mapped by primer extension and RNase protection to 37 nucleotides upstream from the initiation codon. The 160 nucleotides 5'-proximal to the start of transcription match exactly the 5'-end of the class-mu glutathione transferase cDNA clone pmGT10. An mRNA transcript was found approximately 2.0 kb upstream from the start of mGSTM1 transcription; its sequence does not show significant similarity to other sequences in the DNA or protein sequence databases. The mGSTM1 gene contains a TATAAA sequence at -31 nucleotides upstream from the start of transcription, but no exact match to the antioxidant response element (RGTGACNNNGC), the xenobiotic response element (TNGCGTG), or the AP-1 consensus (TGASTMA) is found in the 5'-flanking region, although near matches are found in the 5'-flanking region, in intron 1, and in other parts of the gene. A genomic clone containing the first five exons of the mGSTM3 gene was also isolated. The mGSTM3 gene contains several repetitive elements--two upstream from the start of transcription and one within intron 2--that disrupt its similarity with the mGSTM1 gene. The 5'-flanking sequence of the mGSTM3 gene does not contain a TATAAA sequence or any exact matches to ARE or XRE consensus sequences, although an Sp1 binding site is found at -66. mGSTM3 and mGSTM1 diverge substantially outside their exons and share less than 60% sequence identity in the 5'-flanking region. Thus, it is likely that the mGSTM1-mGSTM3 gene duplication predates the rat-mouse divergence. The strongest region of conservation between the mGSTM1 gene and the mGSTM3 gene occurs in exon 3, intron 3, and exon 4; this region also shares strong similarity with the rGSTM1 (rat3, Yb1) and rGSTM2 (rat4, Yb2) genes.
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PMID:The structure of two murine class-mu glutathione transferase genes coordinately induced by butylated hydroxyanisole. 851 23

As a first step towards understanding the mechanism underlying the differential gene expression of the two variants of the rat proteinase-inhibitor alpha1-inhibitor 3 (alpha1-I3) corresponding genomic clones were isolated. The 100% similarity between the sequence of one genomic clone and that of the alpha1-13 variant I cDNA strongly suggested that its 5'-sequence represented the upstream region of the corresponding gene. Several putative cis-regulatory elements were identified as well as a polypyrimidine tract located between the transcription start site of the alpha1-I3 variant I mRNA and the AUG codon. The polypyrimidine tract functions as a positive cis-element in a heterologous promoter. By electrophoretic mobility shift assays (EMSA) we have shown that a GST (glutathione S-transferase) fusion of the rat polypyrimidine tract binding protein (PTB) has a high affinity for the pyrimidine-rich sense strand but not for the complementary sequence of the 5'-untranslated region of the alpha1-I3 variant I gene.
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PMID:A high affinity binding site for the polypyrimidine tract binding protein (PTB) is located in the 5'-untranslated region of the rat proteinase alpha1-inhibitor 3 variant I gene. 1059 85

In this study, we have isolated the genomic clone of the murine GSTM2 gene and determined its sequence. Consistent with the class mu genefamily, the mGSTM2 gene consists of eight exons. The exon-intron boundaries and the distribution of coding sequences within the exons of the known GST class mu family members were found to follow a similar pattern suggesting that various members of this family have originated from a single primordial gene by duplication and the structure has been closely maintained through evolution. By primer extension, the start of transcription was determined to be 40 bp upstream of the initial AUG codon. To gain an understanding of the mGSTM2 regulation, we have also cloned and analyzed its promoter region. Maximal activity was observed in a 170 bp 5'-flanking region. The activity was decreased by 3-fold in a 402 bp 5'-flanking region suggesting the presence of repressor elements. While no TATA box was identified, the presence of an SP1 site at position -38 was noted. Deletion of this SP1 site completely abrogated promoter activity. The promoter contained eight putative Myb responsive elements and its transcriptional activity was upregulated by t-Myb but not by c-Myb.
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PMID:Genomic organization and characterization of the promoter region of murine GSTM2 gene. 1140 19

Arginine decarboxylase (ADC, EC 4.1.1.9) is a key enzyme in the biosynthesis of polyamines in higher plants, whereas ornithine decarboxylase represents the sole pathway of polyamine biosynthesis in animals. Previously, we characterized a genomic clone from Dianthus caryophyllus, in which the deduced polypeptide of ADC was 725 amino acids with a molecular mass of 78 kDa. In the present study, the ADC gene was subcloned into the pGEX4T1 expression vector in combination with glutathione S-transferase (GST). The fusion protein GST-ADC was water-soluble and thus was purified by sequential GSTrap-arginine affinity chromatography. A thrombin-mediated on-column cleavage reaction was employed to release free ADC from GST. Hiload superdex gel filtration FPLC was then used to obtain a highly purified ADC. The identity of the ADC was confirmed by immunoblot analysis, and its specific activity with respect to (14)C-arginine decarboxylation reaction was determined to be 0.9 CO(2) pkat mg(-1) protein. K(m) and V(max) of the reaction between ADC and the substrate were 0.077 +/- 0.001 mM and 6.0 +/- 0.6 pkat mg(-1) protein, respectively. ADC activity was reduced by 70% in the presence of 0.1 mM Cu(2+) or CO(2+), but was only marginally affected by Mg(2+), or Ca(2+) at the same concentration. Moreover, spermine at 1 mM significantly reduced its activity by 30%.
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PMID:Characterization of arginine decarboxylase from Dianthus caryophyllus. 1512 Jan 15

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