Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inner core domain (residues approximately 221-454) of the dihydrolipoamide acetyltransferase component (E2P) of the pyruvate dehydrogenase complex from Saccharomyces cerevisiae has been overexpressed in Escherichia coli strain JM105 via the expression vector pKK233-2. The truncated E2p was purified to apparent homogeneity. It exhibited catalytic activity (acetyl transfer from [1-14C]acetyl-CoA to dihydrolipoamide) very similar to that of wild-type E2p. The appearance of the truncated and wild-type E2p was also very similar, as observed by negative-stain electron microscopy, namely, a pentagonal dodecahedron. These findings demonstrate that the active site of E2p from S. cerevisiae resides in the inner core domain, i.e., catalytic domain, and that this domain alone can undergo self-assembly. The purified truncated E2p showed a tendency to aggregate. Aggregation was prevented by genetically engineered attachment of the interdomain linker segment (residues approximately 181-220) to the catalytic domain. All dihydrolipoamide acyltransferases contain the sequence His-Xaa-Xaa-Xaa-Asp-Gly near their carboxyl termini. By analogy with chloramphenicol acetyltransferase, the highly conserved His and Asp residues were postulated to be involved in the catalytic mechanism [Guest, J. R. (1987) FEMS Microbiol. Lett. 44, 417-422]. Substitution of the sole His residue in the S. cerevisiae truncated E2p, His-427, by Asn or Ala by site-directed mutagenesis did not have a significant effect on the kcat or Km values of the truncated E2p. However, the Asp-431----Asn, Ala, or Glu substitutions resulted in a 16-, 24-, and 3.7-fold reduction, respectively, in kcat, with little change in Km values.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Overexpression and mutagenesis of the catalytic domain of dihydrolipoamide acetyltransferase from Saccharomyces cerevisiae. 227 45

The role of conserved Asp-199 in chloramphenicol acetyltransferase (CAT) has been investigated by site-directed mutagenesis. Substitution of Asp-199 by alanine results in a thermolabile mutant enzyme (Ala-199 CAT) with reduced kcat(13-fold) but similar Km values to wild type CAT. Replacement by asparagine gives rise to a thermostable mutant enzyme (Asn-199 CAT) with much reduced kcat(1500-fold). Furthermore, Asn-199 CAT shows anomalous inactivation kinetics with the affinity reagent 3-(bromo-acetyl)chloramphenicol. These results favor a structural role for Asp-199 rather than a catalytic one, in keeping with crystallographic evidence for involvement of Asp-199 in a tight salt bridge with Arg-18. Replacement of Arg-18 by valine results in a mutant enzyme (Val-18 CAT) with similar properties to Ala-199 CAT. The catalytic imidazole of His-19 appears to be conformationally constrained by hydrogen bonding between N1-H and the carbonyl oxygen of the same residue and by ring stacking with Tyr-25.
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PMID:Substitutions in the active site of chloramphenicol acetyltransferase: role of a conserved aspartate. 306 55

Alanine/glyoxylate aminotransferase 1 (AGT) is peroxisomal in most normal humans, but in some patients with the hereditary disease primary hyperoxaluria type 1 (PH1), AGT is mislocalized to the mitochondria. In an attempt to identify the sequences in AGT that mediate its targeting to peroxisomes, and to determine the mechanism by which AGT is mistargeted in PH1, we have studied the intracellular compartmentalization of various normal and mutant AGT polypeptides in normal human fibroblasts and cell lines with selective deficiencies of peroxisomal protein import, using immunofluorescence microscopy after intranuclear microinjection of AGT expression plasmids. The results show that AGT is imported into peroxisomes via the peroxisomal targeting sequence type 1 (PTS1) translocation pathway. Although the COOH-terminal KKL of human AGT was shown to be necessary for its peroxisomal import, this tripeptide was unable to direct the peroxisomal import of the bona fide peroxisomal protein firefly luciferase or the reporter protein bacterial chloramphenicol acetyltransferase. An ill-defined region immediately upstream of the COOH-terminal KKL was also found to be necessary for the peroxisomal import of AGT, but again this region was found to be insufficient to direct the peroxisomal import of chloramphenicol acetyltransferase. Substitution of the COOH-terminal KKL of human AGT by the COOH-terminal tripeptides found in the AGTs of other mammalian species (SQL, NKL), the prototypical PTS1 (SKL), or the glycosomal PTS1 (SSL) also allowed peroxisomal targeting, showing that the allowable PTS1 motif in AGT is considerably more degenerate than, or at least very different from, that acceptable in luciferase. AGT possessing the two amino acid substitutions responsible for its mistargeting in PH1 (i.e., Pro11-->Leu and Gly170-->Arg) was targeted mainly to the mitochondria. However, AGTs possessing each amino acid substitution on its own were targeted normally to the peroxisomes. This suggests that Gly170-->Arg-mediated increased functional efficiency of the otherwise weak mitochondrial targeting sequence (generated by the Pro11-->Leu polymorphism) is not due to interference with the peroxisomal targeting or import of AGT.
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PMID:Mammalian alanine/glyoxylate aminotransferase 1 is imported into peroxisomes via the PTS1 translocation pathway. Increased degeneracy and context specificity of the mammalian PTS1 motif and implications for the peroxisome-to-mitochondrion mistargeting of AGT in primary hyperoxaluria type 1. 755 90

Phosphorylation of HeLa SII (or TFIIS)-related nuclear protein p21/SIIR was demonstrated in transfected COS-1 cells. To test for a possible functional link between phosphorylation and the previously described Rous sarcoma virus (RSV) long terminal repeat (LTR) repression (Yeh, C.H., and Shatkin, A.J. (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 11002-11006), p21/SIIR mutants were constructed and assayed for phosphorylation level and effect on RSV LTR-driven chloramphenicol acetyltransferase (CAT) reporter expression. A major phosphorylation target in p21/SIIR was localized to the Arg/Ser-rich region between amino acids 12 and 49. Deletion of this region impaired the ability of p21/SIIR to down-regulate RSV LTR promoter function. Four serine pairs, all displaying the Arg/Lys-Ser-Ser motif typical of phosphorylation sites, are present in p21/SIIR between positions 31 and 48. Conversion of these individual serine pairs to alanine resulted in decreased phosphorylation in each case. Mutation of the Ser36-Ser37 pair also diminished by severalfold the repression activity of p21/SIIR. The single tyrosine (Tyr155) in p21/SIIR was not detectably phosphorylated in transfected COS-1 cells, suggesting that the Ser36-Ser37 pair mediates Ser/Thr phosphorylation of p21/SIIR and is critical for LTR repression function.
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PMID:The Ser36-Ser37 pair in HeLa nuclear protein p21/SIIR mediates Ser/Thr phosphorylation and is essential for Rous sarcoma virus long terminal repeat repression. 759 88

The purpose of this research was twofold, a) to directly demonstrate import in vivo of a native plant peroxisomal protein into peroxisomes of transiently transfected mammalian cells, and b) to identify the targeting signal and amino acid substitutions thereof which preserve translocation of this plant protein into these peroxisomes. The protein selected for study was cottonseed isocitrate lyase (ICL), a glyoxylate cycle enzyme which participates in storage oil mobilization in oilseed cotyledons. Cultured mammalian cells were selected as the import system because of previous success by others with transient transfections and import of heterologous (not plant, however) proteins, and because neither a plant in vitro or transient in vivo import system was established. Optimized transient transfections of cultured CV-1 monkey kidney, mouse L, HeLa, and CHO cells resulted in punctate, anticottonseed-ICL-dependent immunofluorescent patterns. Colocalization in a CVH Px110 cell line of ICL with either endogenous catalase or with stably expressed CAT-PMP20/AKL (chloramphenicol acetyltransferase with a C-terminal-appended 12 amino acids ending with Ala-Lys-Leu) demonstrated targeting of ICL to peroxisomes. Direct evidence for translocation of ICL into CHO cell peroxisomes was obtained from digitonin permeabilization experiments. The necessity of the C-terminal tetrapeptide, KARM-COOH, was demonstrated in CHO and CV-1 cells when removal of this tetrapetide (leaving ICL-VVA-COOH) abolished import into peroxisomes. This result is in general agreement with Olsen et al. (The Plant Cell 5, 941-952 (1993)) who demonstrated that the 37 C-terminal amino acids of oilseed rape ICL were necessary for import in vivo in transgenic plants. The findings of Behari and Baker (J. Biol. Chem. 268, 7315-7322 (1993)), however, indicate that the C-terminal portion of castor bean ICL is dispensible for import in vitro. Single or multiple conservative amino acid substitutions at each position of the C-terminal tripeptide of native cottonseed ICL (S for A, K for R, L for M, SK for AR, SKL for ARM) preserved import of the enzyme in vivo into CHO cell peroxisomes. The demonstrated targeting and translocation of plant ICL and C-terminal modifications thereof into mammalian cell peroxisomes provide important additional evidence for evolutionary conservation of peroxisome import machinery, especially relative to the PTS1 sequence.
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PMID:Conservative amino acid substitutions of the C-terminal tripeptide (Ala-Arg-Met) on cottonseed isocitrate lyase preserve import in vivo into mammalian cell peroxisomes. 772 Jul 22

Alteration of the charge of surface lysyl residues of chloramphenicol acetyltransferase (CAT) by site-directed mutagenesis was used to increase the charge difference between the subunits of two naturally occurring enzyme variants (CATI and CATIII). The introduced charge change greatly facilitates the purification of CATI/CATIII and CATIII/CATIII hybrid trimers by ion-exchange chromatography. Hybrids containing only one functional active site per trimer were generated in vitro by reversible denaturation of mixtures of "active" subunits (retention of a catalytic histidine at position 195) and "inactive" subunits (with alanine replacing histidine 195). Such hybrids were used (1) to demonstrate that the previously observed novel binding of a steroidal antibiotic (fusidic acid) by CATI involves amino acid residues at each subunit interface and (2) to identify specific residues contributing to such interactions. A pre-steady-state kinetic characterization of homotrimers containing the H195A substitution also revealed that fusidate binding to CATI may, like chloramphenicol binding, involve a hydrogen bond with the catalytic histidine residue. In addition, confirmation of the fact that His-195 interacts with chloramphenicol in CATI as well as in CATIII makes it likely that it is essential for the catalytic mechanism of all naturally occurring variants of CAT, as first suggested by structural evidence for the type III enzyme (Leslie, 1990).
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PMID:Properties of hybrid active sites in oligomeric proteins: kinetic and ligand binding studies with chloramphenicol acetyltransferase trimers. 775 72

The imidazole N epsilon 2 of His-195 plays an essential part in the proposed general base mechanism of chloramphenicol acetyltransferase (CAT), hydrogen bonding to and a abstracting a proton from the primary hydroxyl group of chloramphenicol. Replacement of His-195 by alanine or glutamine results in apparent decreases in kcat of (9 x 10(5)- and (3 x 10(5))-fold, respectively, whereas Km values for both substrates (chloramphenicol and acetyl-CoA) are similar to those of wild-type CAT. The structure of Gln-195 CAT has been solved at 2.5-A resolution and is largely isosteric with that of wild-type CAT. Substitution of His-195 by glutamate resulted in a (5 x 10(4))-fold decrease in kcat together with a 3-fold increase in the Km for chloramphenicol. Direct determination of binding constants for both substrates demonstrated that these substitutions result in only small decreases in the affinity of CAT for acetyl-CoA (Kd values increased 2- to 3-fold), whereas chloramphenicol Kd values are elevated 26-, 20-, and 53-fold for Ala-195 CAT, Gln-195 CAT and Glu-195 CAT, respectively. The pH dependence of kcat/Km yields apparent pKa values of 6.5 and 6.7 for Ala-195 CAT and Gln-195 CAT, respectively, which are very similar to that (6.6) determined for the ionization of His-195 in wild-type CAT. In contrast, the pH dependence of kcat/Km for Glu-195 CAT (pKa = 8.3) is very different from that of wild-type CAT.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Replacement of catalytic histidine-195 of chloramphenicol acetyltransferase: evidence for a general base role for glutamate. 790 44

The catalytic domain of dihydrolipoamide transacylase (E2c) of bovine branched-chain alpha-keto acid dehydrogenase complex (BCKAD) was overexpressed in Escherichia coli. The E2c catalyzes a reversible acyl transfer reaction between acyl-CoA and dihydrolipoamide, which also occurs spontaneously with a much slower rate. The benzene extracts of both the enzyme-catalyzed and the spontaneous reactions mixture have identical ultraviolet absorbance spectra with a maximum at 233-234 nm, which is characteristic of S-acyldihydrolipoamide. The spontaneous reaction rate of various acyl-CoA is in the order of acetoacetyl-CoA > acetyl-CoA > isobutyryl-CoA > isovaleryl-CoA. In other words, the spontaneous acyl transfer is faster when the substituent (R) of acyl-CoA (R-CO-S-CoA) is a more electron-withdrawing group. This result indicates that a negative charge occurs in the substrate during the acyl transfer process. The function of the active-site histidine (His391) and serine (Ser338) of bovine E2c was analyzed by site-directed mutagenesis. Substitution of His391 or Ser338 with alanine caused drastic decreases in catalytic efficiencies by 3-4 orders of magnitude. The residual activity of H391A increased as the pH of the reaction buffer was elevated. These data support the base-catalyzed mechanism inferred from that of chloramphenicol acetyltransferase (CAT). In this reaction, the active-site histidine acts as a general base, and the active-site serine provides a hydrogen bond to the putative negatively charged tetrahedral transition state. Moreover, when Ala348 was changed to valine, the catalytic efficiency for isovaleryl-CoA decreased about 10-fold, and that for acetyl-CoA increased about 3-fold.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Site-directed mutagenesis and functional analysis of the active-site residues of the E2 component of bovine branched-chain alpha-keto acid dehydrogenase complex. 794 94

Site-directed mutagenesis was employed to make two single amino acid substitutions for highly conserved amino acid residues near the C-terminus of the 783-amino acid mouse glucocorticoid receptor. Substitution of leucine for histidine-781 caused little or no change in the concentration of dexamethasone required for half-maximal activation of a chloramphenicol acetyltransferase reporter gene expressed from a mouse mammary tumor virus promoter. However, when phenylalanine-780 was changed to alanine, the half-maximal concentrations of various agonists were increased as follows, compared with the wild-type glucocorticoid receptor: triamcinolone acetonide by 7-fold, dexamethasone by 25-fold, and hydrocortisone and deoxycorticosterone by more than 150-fold. Binding of labeled steroids by the mutant receptor in vitro and in vivo was also decreased. In contrast, this mutation caused a small decrease in the concentration of RU486 required for antagonist or partial agonist activity. Thus, the phenyl group of phenylalanine-780 of the mouse glucocorticoid receptor is an important determinant of ligand binding affinity and specificity.
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PMID:Phenylalanine-780 near the C-terminus of the mouse glucocorticoid receptor is important for ligand binding affinity and specificity. 805 63

To study structure-function relationships of the growth hormone (GH) receptor (GHR), two functional systems have been developed. CHO cells were transiently cotransfected with the cDNA encoding the full-length rat GHR and with a construct consisting of the 5' flanking region of one of two GH-dependent genes encoding ovine beta-lactoglobulin or serine protease inhibitor 2.1 (Spi 2.1, formerly Spi.1; the corresponding rat gene has recently been redesignated Spin2a) coupled to the bacterial reporter gene encoding chloramphenicol acetyltransferase (CAT). Transfected cells were grown in the absence and presence of human GH and dexamethasone for the Spi 2.1 gene construct. GH was able to activate each promoter (with approximately 4-fold induction of CAT activity) in a dose-dependent manner. For both tests, the maximal effect was observed at 20 nM human GH. These tests have been used to identify functional domains of the GHR. Two truncated (T) GHRs, lacking most or part of the cytoplasmic domain [called T276 (ending at residue 276) and T436 (ending at residue 436)], were unable to stimulate CAT activity. The GHR contains a proline-rich region, called "Box I," conserved in the cytokine/GH/prolactin receptor family. Alanine substitutions for the four prolines of GHR Box I were introduced. Single proline-to-alanine mutations did not affect the functional activity of the GHR. However, modification of the four prolines together or deletion of the Box I (15 amino acids between positions 279 and 293) resulted in the complete absence of GH stimulation. Thus, the proline-rich region, shown to be important for other members of this receptor superfamily, is also critical for GH signal transduction.
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PMID:Cytoplasmic sequences of the growth hormone receptor necessary for signal transduction. 830 73


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