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:2.5.1.47 (cysteine synthase)
625 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice poisoned with acetaminophen were treated with esterase inhibitors, buthionine sulfoximine, and N-acetyl-L-lysine in experiments designed to explore the mechanism of N-acetylcysteine protection in vivo. Three esterase inhibitors, phenylmethylsulfonyl fluoride, bis-(p-nitrophenyl)-phosphate, and diisopropylfluorophosphate, had no effect on the antidote effectiveness of N-acetylcysteine, although each provided partial protection against acetaminophen poisoning. Buthionine sulfoximine, a specific inhibitor of gamma-glutamyl cysteine synthetase, antagonized the antidote effect of N-acetylcysteine. Acetaminophen-induced hepatotoxicity, as measured by plasma alanine aminotransferase activity, and mortality failed to decline, consistent with stimulation of glutathione synthesis as the primary mechanism of antidote protection. N-Acetyl-L-lysine was given at doses up to ten-fold higher than N-acetylcysteine yet had no effect on acetaminophen hepatotoxicity or its prevention by N-acetylcysteine. These results advance the view that N-acetylcysteine acts primarily as a glutathione precursor. They further suggest the esterase inhibitors limit poisoning by acetaminophen and may be useful agents in antagonizing the toxicity of other metabolically activated drugs.
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PMID:Effects of esterase inhibitors and buthionine sulfoximine on the prevention of acetaminophen hepatotoxicity by N-acetylcysteine. 310 95

The pH dependence of kinetic parameters using natural and alternative reactants was determined in order to obtain information on the chemical mechanisms of the A and B isozymes of O-acetylserine sulfhydrylase (OASS) from Salmonella typhimurium. A general mechanism is proposed for OASS in which OAS binds with its alpha-amine unprotonated to carry out a nucleophilic attack on C4' of the protonated Schiff base and with the acetyl carbonyl hydrogen-bonded to a protonated enzyme group (or a water molecule), which aids in the beta-elimination of acetate. The enzyme lysine that was in Schiff base linkage with the active site pyridoxal 5'-phosphate deprotonates the alpha-carbon in the beta-elimination reaction, and a proton is likely released with the acetate product. Sulfide likely binds as HS- to undergo nucleophilic attack on the alpha-aminoacrylate intermediate, followed by protonation of the alpha-carbon by the enzyme lysine. In OASS-A, HS- is hydrogen-bonded to the enzyme group that assists in the beta-elimination of acetate, but this is not the case for OASS-B. The pH independent equilibrium constant for the first half-reaction of OASS-A is 1.6 x 10(-3), while the second half-reaction is practically irreversible.
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PMID:Acid-base chemical mechanism of O-acetylserine sulfhydrylases-A and -B from pH studies. 754 74

A comparison of the amino acid sequence of O-acetylserine (thiol)-lyase (EC 4.2.99.8) from Escherichia coli and the isoforms of this enzyme found in the cytosolic and chloroplastic compartments of spinach (Spinacia oleracea) leaf cells allows the essential lysine residue involved in the binding of the pyridoxal 5'-phosphate cofactor to be identified. The results of further sequence comparison of cDNAs coding for these proteins are discussed in the frame of the endosymbiotic theory of chloroplast evolution. The results are compatible with a mechanism in which the chloroplast enzyme originated from the cytosolic enzyme and both plant genes originated from a common prokaryotic ancestor. The comparison also suggests that the 5'-non-coding sequence of the bacterial gene was transferred to the plant cell nucleus and that it has been used to create the N-terminal portions of both plant enzymes, and possibly the transit peptide of the chloroplast enzyme.
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PMID:Common sequence motifs coding for higher-plant and prokaryotic O-acetylserine (thiol)-lyases: bacterial origin of a chloroplast transit peptide? 791 19

The advances in molecular genetics and biotechnology in the field of medicinal plant research are discussed with focusing on the works using transgenic plants. Differentiated organ cultures and transgenic teratomas, incited by the infection with mutants of Agrobacterium Ti and Ri plasmids, were established in quinolizidine-alkaloid producing plants and Solanaceae plants. These cultured cells were used for the production and bioconversion of specific alkaloids produced in these plants. The methods of integration of foreign genes into medicinal plants were developed using an Ri binary vector. The mode of gene expression driven by TR1'-2' promoters was elucidated in transgenic medicinal plants, e.g., Nicotiana tabacum, Glycyrrhiza uralensis, Digitalis purpurea and Atropa belladonna. The genes for herbicide resistance, mammalian cytochrome P450 and bacterial beta-hydroxydecanoylthioester dehydrase were transferred and expressed in plants either to confer herbicide-resistant trait or to change the pattern of metabolites. The cDNA clones encoding cysteine synthase responsible for sulfur assimilation and biosynthesis of non-protein amino acids were isolated and characterized from Spinacea oleracea and Citrullus vulgaris. The functional lysine residue was identified by site-directed mutagenesis experiments. An over-expression system in Escherichia coli was constructed for the bacterial production of the plant specific non-protein amino acids. We made transgenic N. tabacum integrated with sense- and antisense-constructs of cysteine synthase cDNA driven by cauliflower mosaic virus 35S promoter for the purpose of genetic manipulation of biosynthetic flow of cysteine in plants. The future prospects of medicinal plant research are also discussed in the context of modern plant molecular biology.
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PMID:[Molecular genetics and biotechnology in medicinal plants: studies by transgenic plants]. 813 55

Primary and alpha-secondary deuterium kinetic isotope effects have been measured for the O-acetylserine sulfhydrylase from Salmonella typhimurium using both steady-state and single-wavelength stopped-flow studies. Data suggest an asymmetric transition state for alpha-proton abstraction by the active site lysine and the elimination of the acetyl group of O-acetyl-L-serine (OAS) to form the alpha-aminoacrylate intermediate. The value of D(V/KOAS) using OAS-2-d is dependent on pH from 5.8 to 7.0 with independent values of 2.8 and 1.7 estimated at low and high pH, respectively. Thus, OAS is sticky, and a value of 1.5 is calculated for the forward commitment to catalysis, indicating that the OAS external Schiff base preferentially partitions toward the alpha-aminoacrylate intermediate compared to OAS being released from enzyme. The intrinsic primary deuterium isotope effect determined from single-wavelength stopped-flow studies of alpha-proton abstraction by the active site lysine is about 2.0. D(V/KOAS) and T(V/KOAS) were determined as 2.6 +/- 0.1 and 4.2 +/- 0.2 at pH 6.1, respectively, giving a calculated intrinsic deuterium isotope effect of 3.3 +/- 0.9, consistent with the D(V/KOAS) obtained from steady-state studies at low pH. The alpha-secondary deuterium kinetic isotope effect using OAS-3,3-d2 is 1.11 +/- 0.06 obtained by direct comparison of initial velocities and 1.2 obtained by single-wavelength stopped-flow experiments. Data can be compared to a value of 1.81 +/- 0.04 using OAS-3,3-d2 for alpha-DKeq for the first half-reaction.
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PMID:Kinetic isotope effects as a probe of the beta-elimination reaction catalyzed by O-acetylserine sulfhydrylase. 863 81

Four cDNA clones, rcs1, rcs2, rcs3 and rcs4, encoding cysteine synthase [O-acetylserine(thiol)lyase] were isolated from rice. The predicted amino acid sequences contain the conserved PXXSVKDR region characteristic of cysteine synthase, which includes the lysine residue that binds the cofactor, pyridoxal 5'-phosphate. Molecular phylogenic analysis suggests that, whereas rcs1 and rcs3 belong to the cytosolic isoform family, rcs2 and rcs4 form a new family of cysteine synthase. Transcript accumulation of each gene was examined for organ specificity, and also for response to sulfur, nitrogen and light. The rcs1 transcript accumulated in all organs examined, and was induced in shoots and roots upon sulfur starvation under non-limiting nitrogen conditions. The rcs2 transcript accumulated in shoots grown in the light, but disappeared almost completely by dark treatment. The rcs3 transcript was found more abundantly in roots than in shoots, and was reduced in the dark, as well as under sulfur and nitrogen deprivation. The rcs4 transcript was scarce in all organs examined. These observations indicate that cysteine synthase genes encode functionally distinct cysteine synthase isoforms, and that they are coordinately regulated by the availability of sulfur, nitrogen, and light.
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PMID:Four rice genes encoding cysteine synthase: isolation and differential responses to sulfur, nitrogen and light. 1009 15

O-acetylserine sulfhydrylase, a homo-dimeric enzyme from Salmonella typhimurium, covalently binds one pyridoxal 5'-phosphate molecule per subunit as a fluorescent coenzyme. Different tautomers of the Schiff base between the coenzyme and lysine 41 generate structured absorption and fluorescence spectra upon one-photon excitation. We investigated the protein population heterogeneity by fluorescence correlation spectroscopy and lifetime techniques upon two-photon excitation. We sampled the fluorescence intensity from a small number of molecules (approximately 10) and analyzed the distribution of photon counts to separately determine the number and the fluorescence brightness of excited protein molecules. The changes in the average number of molecules and in the fluorescence brightness with the excitation wavelength indicate the presence of at least two fluorescent species, with two-photon excitation maxima at 660 and 800 nm. These species have been identified as the enolimine and ketoenamine tautomers of the protein-coenzyme internal aldimine. Their relative abundance is estimated to be 4:1, whereas the ratio of their two-photon cross sections is reversed with respect to the single-photon excitation case. Consistent results are obtained from the measurement of the lifetime decays, which are sensitive to the excited-state heterogeneity. At least two components were detected, with lifetimes of approximately 2.5 and 0.5 ns. The lifetimes are very close to the values measured in bulk solutions upon one-photon excitation and attributed to the ketoenamine tautomer and to a dipolar species formed upon proton dissociation in the excited state.
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PMID:Molecular heterogeneity of O-acetylserine sulfhydrylase by two-photon excited fluorescence fluctuation spectroscopy. 1125 10

The O-acetylserine sulfhydrylase (OASS) from Salmonella typhimurium catalyzes a beta-replacement reaction in which the beta-acetoxy group of O-acetyl-L-serine (OAS) is replaced by bisulfide to give L-cysteine and acetate. The kinetic mechanism of OASS is ping-pong with a stable alpha-aminoacrylate intermediate. The enzyme is a homodimer with one pyridoxal 5'-phosphate (PLP) bound per subunit deep within the protein in a cleft between the N- and C-terminal domains of each of the monomers. All of the active site residues are contributed by a single subunit. The enzyme cycles through open and closed conformations as it catalyzes its reaction with structural changes largely limited to a subdomain of the N-terminal domain. The elimination of acetic acid from OAS is thought to proceed via an anti-E2 mechanism, and the only catalytic group identified to date is lysine 41, which originally participates in Schiff base linkage to PLP. The transition state for the elimination of acetic acid is thought to be asynchronous and earlier for Cbeta-O bond cleavage than for Calpha-H bond cleavage.
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PMID:Structure and mechanism of O-acetylserine sulfhydrylase. 1507 90

The cysK gene encoding a cysteine synthase of Geobacillus stearothermophilus V was overexpressed in E. coli and the recombinant protein was purified and characterized. The enzyme is a thermostable homodimer (32 kDa/monomer) belonging to the beta family of pyridoxal phosphate (PLP)-dependent enzymes. UV-visible spectra showed absorption bands at 279 and 410 nm. The band at 279 nm is due to tyrosine residues as the enzyme lacks tryptophan. The 410 nm band represents absorption of the coenzyme bound as a Schiff base to a lysine residue of the protein. Fluorescence characteristics of CysK's Schiff base were influenced by temperature changes suggesting different local structures at the cofactor binding site. The emission of the Schiff base allowed the determination of binding constants for products at both 20 degrees C and 50 degrees C. At 50 degrees C and in the absence of sulphide the enzyme catalyzes the decomposition of O-acetyl-l-serine to pyruvate and ammonia. At 20 degrees C, however, a stable alpha-aminoacrylate intermediate is formed.
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PMID:Biochemical characterization of a thermostable cysteine synthase from Geobacillus stearothermophilus V. 1530 37

Regulation of enzymes of methionine biosynthesis was investigated by measuring the specific activities of O-phosphohomoserine-dependent cystathionine gamma-synthase, O-phosphohomoserine sulfhydrylase, and O-acetylserine sulfhydrylase in Lemna paucicostata Hegelm. 6746 grown under various conditions. For cystathionine gamma-synthase, it was observed that (a) adding external methionine (2 mum) decreased specific activity to 15% of control, (b) blocking methionine synthesis with 0.05 muml-aminoethoxyvinylglycine or with 36 mum lysine plus 4 mum threonine (Datko, Mudd 1981 Plant Physiol 69: 1070-1076) caused a 2- to 3-fold increase in specific activity, and (c) blocking methionine synthesis and adding external methionine led to the decreased specific activity characteristic of methionine addition alone. Activity in extracts from control cultures was unaffected by addition of methionine, lysine, threonine, lysine plus threonine, S-adenosylmethionine, or S-methylmethionine sulfonium to the assay mixture. Parallel studies of O-phosphohomoserine sulfhydrylase and O-acetylserine sulfhydrylase showed that O-phosphohomoserine sulfhydrylase activity responded to growth conditions identically to cystathionine gamma-synthase activity, whereas O-acetylserine sulfhydrylase activity remained unaffected. Lemna extracts did not catalyze lanthionine formation from O-acetylserine and cysteine. Estimates of kinetic constants for the three enzyme activities indicate that O-acetylserine sulfhydrylase has much higher activity and affinity for sulfide than O-phosphohomoserine sulfhydrylase.The results suggest that (a) methionine, or one of its products, regulates the amount of active cystathionine gamma-synthase in Lemna, (b) O-phosphohomoserine sulfhydrylase and cystathionine gamma-synthase are probably activities of one enzyme that has low specificity for its sulfur-containing substrate, and (c) O-acetylserine sulfhydrylase is a separate enzyme. The relatively high activity and affinity for sulfide of O-acetylserine sulfhydrylase provides an explanation in molecular terms for transsulfuration, and not direct sulfhydration, being the dominant pathway for homocysteine biosynthesis.
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PMID:Methionine Biosynthesis in Lemna: STUDIES ON THE REGULATION OF CYSTATHIONINE gamma-SYNTHASE, O-PHOSPHOHOMOSERINE SULFHYDRYLASE, AND O-ACETYLSERINE SULFHYDRYLASE. 1666 48


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