EC:2.5.1.47 - FACTA Search

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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)

ATP-sulfurylase, cysteine synthase, homocysteine synthase, arylsulfatase and beta-cystathionase in Saccharomycopsis lipolytica are repressed on the addition of methionine, homocysteine or cysteine to the growth medium. The use of appropriate mutants enabled us to demonstrate that the synthesis of these enzymes is regulated by the system involving at least two low-molecular weight effectors--most likely cysteine and methionine (or their close derivatives).
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PMID:Regulation of s-amino acids biosynthesis in Saccharomycopsis lipolytica. 28 1

The existence of two postulated pathways of anabolic cysteine biosynthesis in Aspergillus midulans was investigated. No activities of the postulated pathway involving S-sulfocysteine as intermediate have been detected. Investigations on cyteine and methionine requiring mutants revealed independent regulation of O-acetylserine sulfhydrylase by endogeneous cysteine and methionine pools. The reaction catalysed by O-acetylserine sulfhydrylase is postulated as the only anabolic pathway of cysteine biosynthesis in A. nidulans.
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PMID:Cysteine biosynthesis in Aspergillus nidulans. 110 3

In order to obtain inhibitors of the meso-diaminopimelate-adding enzyme, which participates in the biosynthesis of bacterial peptidoglycan, several N alpha-propionyl-dipeptides of the general formula Pr-L-Ala-ambo-Xaa-OH were synthesized. Xaa represented methionine S,S-dioxide, methionine S-oxide, methionine sulfoximine, and 2-amino-4-phosphonobutyric acid, i.e. transition state analogs of glutamine synthetase and gamma-glutamyl-cysteine synthetase, which catalyze the same type of reaction as our target enzyme. After synthesis, the diastereoisomers were separated by preparative HPLC or t.l.c.; those containing methionine derivatives could be identified thanks to previously synthesized reference compounds. After preincubation with the meso-diaminopimelate-adding activity from Escherichia coli, the LD diastereoisomers displayed moderate inhibitory effects, whereas the LL ones were inefficient. The best inhibition was obtained with one diastereoisomer of Pr-L-Ala-zeta-2-amino-4-phosphonobutyrate, presumably the LD one. A chloromethylketone derivative Pr-L-Ala-D-Glu(CH2Cl)-OH, potential affinity labeler of the meso-diaminopimelate-adding enzyme, was also synthesized. In the assay with preincubation, this compound behaved as the best inhibitor.
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PMID:Synthesis of inhibitors of the meso-diaminopimelate-adding enzyme from Escherichia coli. 307 5

Serine acetyltransferase (SAT) from Escherichia coli is subject to feedback inhibition by L-cysteine. A mutant was isolated which excretes L-cysteine because of a lesion in cysE, the structural gene for SAT, rendering the enzyme less feedback sensitive. To analyse the structural basis for this mutation the cysE genes both from wild-type E. coli and the mutant strain were cloned and their nucleotide sequences determined. The cysE gene contained an open reading frame consisting of 819 bp, equivalent to a protein of 273 amino acids. The mutant gene showed a single base change in position 767 resulting in a methionine to isoleucine substitution. A causal connection between this SAT sequence alteration, feedback insensitivity and L-cysteine excretion was demonstrated. The SAT from the wild-type strain was purified. It was composed of a single polypeptide chain migrating in SDS gels according to an Mr of 34,000. As in Salmonella typhimurium, the enzyme was associated in a bifunctional complex with O-acetylserine (thiol)-lyase.
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PMID:L-cysteine biosynthesis in Escherichia coli: nucleotide sequence and expression of the serine acetyltransferase (cysE) gene from the wild-type and a cysteine-excreting mutant. 330 58

1. Regulation of four enzymes involved in cysteine and homocysteine synthesis, i.e. cysteine synthase (EC 4.2.99.8), homocysteine synthase (EC 4.1.99.10), cystathionine beta-synthase (EC 2.1.22) and gamma-cystathionase (EC 4.4.1.1) was studied in the wild type and sulphur regulatory mutants of Neurospora crassa. 2. Homocysteine synthase and cystathionine beta-synthase were found to be regulatory enzymes but only the former is under control of the cys-3 - scon system regulating several enzymes of sulphur metabolism, including gamma-cystathionase. 3. The results obtained with the mutants strongly suggest that homocysteine synthase plays a physiological role as an enzyme of the alternative pathway of methionine synthesis. Cysteine synthase activity was similar in all strains examined irrespective of growth conditions. 4. The sconc strain with derepressed enzymes of sulphur metabolism showed an increased pool of sulphur amino acids, except for methionine. Particularly characteristic for this pool is a high content of hypotaurine, a product of cysteine catabolism.
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PMID:Effect of regulatory mutations of sulphur metabolism on the levels of cysteine- and homocysteine-synthesizing enzymes in Neurospora crassa. 645 95

O-Acetyl-L-serine sulfhydrylase catalyzes the final step in the biosynthesis of cysteine from H2S and O-acetyl-L-serine in the fungus Cephalosporsium acremonium, a cephalosporin C-producing organism. We separated this enzyme from the closely related but less specific O-acetyl-L-homoserine sulfhydrylase and showed that O-acetyl-L-homoserine sulfhydrylase also catalyzes the formation of cysteine from O-acetyl-L-serine and H2S. The expression of O-acetyl-L-serine sulfhydrylase was regulated by exogenous methionine. In addition, this enzyme was inhibited by S-adenosyl-L-methionine and 5-formylpteroyl monoglutamic acid. The inhibition of both S-adenosyl-L-methionine and 5-formylpteroyl monoglutamic acid was noncompetitive. Results obtained with gel filtraton experiments in various buffer systems indicate an association-dissociation behavior of O-acetyl-L-serine sulfhydrylase.
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PMID:Regulatory properties of O-acetyl-L-serine sulfhydrylase of Cephalosporium acremonium: evidence of an isoenzyme and its importance in cephalosporin C biosynthesis. 719 Dec 38

Serine acetyltransferase (SATase; EC 2.3.1.30), which catalyzes the reaction connecting serine and cysteine/methionine metabolism, plays a regulatory role in cysteine biosynthesis in plants. We have isolated a cDNA clone encoding SATase by direct genetic complementation of a Cys- mutation in Escherichia coli using an expression library of Citrullus vulgaris (watermelon) cDNA. The cDNA encodes a polypeptide of 294 amino acids (31,536 Da) exhibiting 51% homology with that of E. coli SATase. DNA-blot analysis indicated the presence of a single copy of the SATase gene (sat) in watermelon. RNA hybridization analysis suggested the relatively ubiquitous and preferential expression in the hypocotyls of etiolated seedlings. Immunoblot analysis indicated the accumulation of SATase predominantly in etiolated plants. L-Cysteine, an end product of the cysteine biosynthetic pathway, inhibited the SATase in an allosteric manner, indicating the regulatory function of SATase in this metabolic pathway, whereas beta-(pyrazole-1-yl)-L-alanine, a secondary metabolite formed partly through the cysteine biosynthetic pathway, showed no inhibitory effect. A multi-enzyme complex was formed from recombinant proteins of SATase and cysteine synthase (O-acetylserine(thiol)-lyase) from watermelon, suggesting efficient metabolic channeling from serine to cysteine, preventing the diffusion of intermediary O-acetyl-L-serine.
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PMID:Molecular cloning and characterization of a plant serine acetyltransferase playing a regulatory role in cysteine biosynthesis from watermelon. 760

Mn(II) has been proposed as a potential modulator of various important CNS enzymes, particularly glutamine synthetase, which is compartmentalized in the cytoplasm of glia. Previous studies demonstrated that total glial Mn(II) was 50-75 microM, of which 30-40% occurs in the cytoplasm. In the present study, electron spin resonance (ESR) was used to determine that the concentration of free cytoplasmic Mn(II) in cultured chick glial cells is 0.8 (+/- 0.2) microM, very near Kd for the GS-Mn(II) complex. No free Mn(II) could be detected in glial mitochondria. Association of Mn(II) with brain glutamine synthetase (GS) was assessed under in vivo conditions in the presence of millimolar Mg(II) by trapping bound 54Mn(II) ions in the active site with irreversible inhibitors, namely methionine-sulfoximine (MSOX) or specific analogues thereof plus ATP. Ovine brain tissue was lysed directly into buffer containing Mn(II), 3 mM Mg(II), 1 mM MSOX, 1 mM ATP, 200 mM KCl, and 20 mM NaCl. Alternatively, primary cultures of chick glial cells were permeabilized into these inactivation mixtures. alpha-Methyl-D,L-prothionine-S,R-sulfoximine was used to specifically inhibit the mechanistically-related enzyme gamma-glutamyl-cysteine synthetase prior to specific inactivation of GS by alpha-ethyl-D,L-methionine-S,R-sulfoximine. Even in the presence of 2-3 mM Mg(II), with only 5-10 microM Mn(II) present, approximately 20-30% of GS subunits were trapped with bound Mn(II). These results indicate that brain GS exhibits a high degree of specificity for binding Mn(II) over Mg(II) and that Mn(II) binds to GS to a significant extent under in vivo conditions.
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PMID:Kinetic, ESR, and trapping evidence for in vivo binding of Mn(II) to glutamine synthetase in brain cells. 791 Mar 78

The gene encoding L-methionine gamma-lyase from Pseudomonas putida was cloned and the primary structure of the enzyme was deduced from its nucleotide sequence. The L-methionine gamma-lyase gene was expressed in Escherichia coli. The amino acid sequences of BrCN-digested peptides agreed with the corresponding parts of the L-methionine gamma-lyase sequence determined from the gene structure. The polypeptide is composed of 398 amino acid residues with a calculated molecular weight of 42,626, corresponding to the subunit of the homotetrameric enzyme. The deduced amino acid sequence of L-methionine gamma-lyase only showed extensive homology with other well known alpha,gamma-elimination and/or gamma-replacement pyridoxal 5'-phosphate-dependent enzymes, such as cystathionine gamma-lyase, cystathionine gamma-synthase, and O-acetylhomoserine O-acetylserine sulfhydrylase, that participate in the biosynthesis of sulfur amino acids. However, the deduced essential cysteine residue of L-methionine gamma-lyase was not conserved in these enzymes. We confirmed the presence of a part of an open reading frame in the 3'-flanking region of the L-methionine gamma-lyase gene, which showed high homology with the N-terminal region of pyruvate dehydrogenase (lipoamide) from E. coli, suggesting that it participates in the degradative pathway for L-methionine together with L-methionine gamma-lyase.
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PMID:Structural analysis of the L-methionine gamma-lyase gene from Pseudomonas putida. 858 29

The cysB gene of A. nidulans was cloned by complementation of a cysB mutation. This is the first cloned eukaryotic genomic sequence coding for cysteine synthase. The gene contains one 71-bp intron and codes for a protein of 370 amino acids. Its N-terminal region has characteristic features of transit peptides, suggesting mitochondrial localisation of the enzyme. The protein shows homology with bacterial and plant cysteine synthases among which it occupies a remote phylogenetic position and apparently represents a distinct subfamily. Transcription of the cysB gene is not appreciably regulated by the concentration of methionine in the growth medium.
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PMID:Cloning and characterization of the Aspergillus nidulans cysB gene encoding cysteine synthase. 910 43

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