EC:1.1.1.3 - FACTA Search

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Query: EC:1.1.1.3 (HSD)
3,464 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homogeneous 3 alpha-hydroxysteroid dehydrogenase (3 alpha-HSD, EC 1.1.1.50) of rat liver cytosol is potently inhibited at its active site by nonsteroidal anti-inflammatory drugs (NSAIDs). Using 3 alpha-bromoacetoxy-5 alpha-androstan-17-one (BrAnd, a substrate analog) and 11 alpha-bromoacetoxyprogesterone (Br11P, a glucocorticoid analog) as affinity-labeling agents, kinetic evidence was obtained that these agents alkylate this site. Inactivation of 3 alpha-HSD with either [14C]BrAnd or [14C] Br11P led to the incorporation of 1 mol of affinity-labeling agent per enzyme monomer. Complete acid hydrolysis of 3 alpha-HSD radiolabeled with either agent followed by amino acid analysis led to the identification of [14C]carboxymethylcysteine indicating that [14C]BrAnd and [14C]Br11P covalently tag discrete reactive cysteine(s) at the enzyme active site. Trypsin digestion of [14C]BrAnd-inactivated 3 alpha-HSD followed by peptide mapping led to the purification of a single radiolabeled peptide (3A1) which gave the following sequence: H2N-Ser-Ile-Gly-Val-Ser-Asn-Phe-Asn-X-Arg-CO2H. Identical experiments on [14C] Br11P-inactivated 3 alpha-HSD led to the purification of three radiolabeled peptides (11P1-11P3). The major radiolabeled peptide (11P1) had an identical sequence to 3A1 which was tagged with [14C]BrAnd. The minor radiolabeled peptides had the following sequences: H2N-Ser-Lys-Asp-Ile-Ile-Leu-Val-Ser-Tyr-X-Thr-Leu-Gly-Ser-Ser-Arg-CO2H (11P2) and H2N-Ser-Pro-Val-Leu-Leu-Asp-Asp-Pro-Val-Leu-X-Ala-Ile-Ala-Lys-CO2H (11P3). In each peptide group X was identified as carboxymethylcysteine. Alignment of the peptide sequences with the primary structure of 3 alpha-HSD, deduced from its cDNA clone, assigned peptide 11P1 to residues 162-171, peptide 11P2 to residues 208-223, and peptide 11P3 to residues 232-246 of the amino acid sequence. The reactive cysteines correspond to Cys170, Cys217, and Cys242. We propose that Cys170 labeled by BrAnd may lie within the catalytic pocket of the enzyme. By contrast the 11 alpha-bromoacetoxy group in Br11P labeled several reactive cysteines which may be involved in the binding of glucocorticoids and NSAIDs.
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PMID:Affinity labeling of 3 alpha-hydroxysteroid dehydrogenase with 3 alpha-bromoacetoxyandrosterone and 11 alpha-bromoacetoxyprogesterone. Isolation and sequence of active site peptides containing reactive cysteines; sequence confirmation using nucleotide sequence from a cDNA clone. 202 97

L-serine has long been known to inhibit growth of Escherichia coli cells cultured in minimal medium supplemented with glucose, lactate, or another carbohydrate as the sole source of carbon. However, the target of serine inhibition was not known. The growth inhibition was released by adding isoleucine, 2-ketobutyric acid, threonine or homoserine, but not by aspartate. Thus the inhibition site must be between aspartate and homoserine in the isoleucine biosynthetic pathway. We found that homoserine dehydrogenase I was strongly inhibited by serine. We isolated serine-resistant mutants, and found that in these mutants homoserine dehydrogenase I was resistant to serine. Thus, we conclude that the target of serine inhibition in Escherichia coli is homoserine dehydrogenase I.
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PMID:Target of serine inhibition in Escherichia coli. 211 91

Novel cloning vectors for glutamic acid producing bacteria have been constructed. The cryptic plasmid pBO1 (4.4 kb) from Brevibacterium sp. recombined with the plasmid pACYC184 (4.0 kb) from Escherichia coli was used to produce composite plasmid named pKA1. The plasmid could propagate and express the Cm-r phenotype in E. coli and coryneform glutamic acid producing bacteria Br. flavum, C. glutamicum, Br. lactofermentum. The pKA1 plasmid and its variants deleted within non-essential plasmid regions with unique restriction sites HindIII, SalGI, SphI were used in cloning experiments. The genes coding for threonine biosynthesis of C. glutamicum and Br. flavum were subcloned into shuttle vectors in C. glutamicum cells. Recombinant plasmids were introduced into protoplasts by polyethylenglycol-mediated transformation of plasmid DNAs. It was shown that the presence of plasmids containing the Br. flavum thrA2 gene in C. glutamicum (thrB) caused 10-fold increase in homoserine dehydrogenase activity, as compared to that of wild type strain, and in homoserine production.
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PMID:[Development of the vector-host system in Corynebacterium. Cloning and expression of homoserine dehydrogenase and homoserine kinase genes in Corynebacterium cells]. 216 16

Aspartokinase activity was detected in extracts from Mycobacterium leprae (recovered from armadillo liver) and in Mycobacterium avium grown axenically and in vivo. Homoserine dehydrogenase activity was only detected in M. leprae and in M. avium grown axenically. Activities, when detected, were 50 to 70% lower in M. leprae or M. avium grown in vivo than in axenically grown M. avium. In these two pathogenic mycobacteria, aspartokinase and homoserine dehydrogenase are subject to feedback inhibition by methionine - an additional regulator over those observed for the enzymes from Mycobacterium smegmatis. Intact mycobacterium incorporated carbon from [U-14C]aspartate into the aspartate family of amino acids (threonine, isoleucine, methionine and lysine) though the rate of incorporation in M. avium grown in vivo was about half that in M. avium grown axenically.
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PMID:Aspartate metabolism in Mycobacterium avium grown in host tissue and axenically and in Mycobacterium leprae. 219 Oct 78

A library of EcoRI DNA fragments from Brevibacterium flavum was constructed using plasmid vector. The genes complementing ThrA2 and ThrB mutations in Escherichia coli were identified in the library. The gene thrA2 of B. flavum codes for mutant enzyme homoserine dehydrogenase insensitive to inhibition by threonine. The genes thrA2 and thrB are localized wihtin the EcoRI fragment 4.1 kb long and are expressed under the control of their own promoters in E. coli cells. Structural and functional analysis of cloned C. glutamicum gene ilvA was performed. The gene of C. glutamicum complemented ilvA mutation in E. coli and appeared to be localized within the EcoRI--SacI DNA fragment 1.6 kb in size. Using E. coli minicells we have demonstrated that the gene ilvA of C. glutamicum controls the synthesis of polypeptide of relative molecular mass 50 kD.
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PMID:[Cloning and structural-functional analysis in Escherichia coli of genes of glutamate-producing corynebacteria controlling biosynthesis of amino acids of aspartic acid series]. 219 95

Mutations that map in or delete the attenuator of the threonine (thr) operon of Escherichia coli were isolated and characterized. These mutations disrupt or delete the transcription termination structure encoded by the attenuator leading to increased transcriptional readthrough into the thr operon structural genes. Most of the base substitutions and single base-pair insertions and deletions map in the G + C-rich region of dyad symmetry in the attenuator and decrease the calculated stabilities of the attenuator RNA secondary structures to similar extents (from -30.8 kcal/mol to approximately -21 kcal/mol). Most of the mutants showed a three- to fourfold increase in homoserine dehydrogenase (thrA gene product) synthesis relative to the wild-type parent strain. The mutation in one mutant (thrL153 + G) lowered the calculated stability of the RNA secondary structure only slightly (from -30.8 to 27.8 kcal/mol) but the mutant still exhibited high levels of homoserine dehydrogenase synthesis. In addition, three base substitution mutants (thrL135U, thrL139A and thrL156U) showed only slightly (1.5 to 2-fold) elevated levels of homoserine dehydrogenase activity, even though the calculated stabilities of the attenuator RNA secondary structures were reduced as much as most of the other mutants. Two of the mutations (thrL135U and thrL156U) mapped in the G + C-rich-A + T-rich junction of the attenuator. The third mutation (thrL139A) creates an A X C pair in the center of the G + C-rich region of the attenuator stem. The results obtained for these mutants show that the stability of the RNA secondary structure does not always correlate with the efficiency of transcription termination. Finally, analysis of the base changes in the substitution mutations showed that the mutational changes do not appear to be random.
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PMID:Identification and characterization of mutants affecting transcription termination at the threonine operon attenuator. 241 Jun 21

Mycobacterium smegmatis grows best on L-asparagine as a sole nitrogen source; this was confirmed. [14C]Aspartate was taken up rapidly (46 nmol.mg dry cells-1.h-1 from 1 mM L-asparagine) and metabolised to CO2 as well as to amino acids synthesised through the aspartate pathway. Proportionately more radioactivity appeared in the amino acids in bacteria grown in medium containing low nitrogen. Activities of aspartokinase and homoserine dehydrogenase, the initial enzymes of the aspartate pathway, were carried by separate proteins. Aspartokinase was purified as three isoenzymes and represented up to 8% of the soluble protein of M. smegmatis. All three isoenzymes contained molecular mass subunits of 50 kDa and 11 kDa which showed no activity individually; full enzyme activity was recovered on pooling the subunits. Km values for aspartate were: aspartokinases I and III, 2.4 mM; aspartokinase II, 6.4 mM. Aspartokinase I was inhibited by threonine and homoserine and aspartokinase III by lysine, but aspartokinase II was not inhibited by any amino acids. Aspartokinase activity was repressed by methionine and lysine with a small residue of activity attributable to unrepressed aspartokinase I. Homoserine dehydrogenase activity was 96% inhibited by 2 mM threonine; isoleucine, cysteine and valine had lesser effects and in combination gave additive inhibition. Homoserine dehydrogenase was repressed by threonine and leucine. Only amino acids synthesised through the aspartate pathway were tested for inhibition and repression. Of these, only one, meso-diaminopimilate, had no discernable effect on either enzyme activity.
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PMID:Metabolism of aspartate in Mycobacterium smegmatis. 249 80

The genes encoding the three terminal enzymes in the threonine biosynthetic pathway, homoserine dehydrogenase (hom), homoserine kinase (thrB) and threonine synthase (thrC) have been isolated from Corynebacterium glutamicum. The C. glutamicum hom and thrB genes were subcloned on a 3.6 kb SalI-generated chromosomal fragment. The C. glutamicum thrC gene was shown not to be linked to the hom-thrB locus. L-methionine represses the cloned homoserine dehydrogenase and homoserine kinase similar to that of the chromosomally encoded hom and thrB gene products. Northern hybridization analysis demonstrates that this repression is mediated at the level of transcription and that hom-thrB represents an operon in C. glutamicum.
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PMID:Organization and regulation of the Corynebacterium glutamicum hom-thrB and thrC loci. 283 90

Monoclonal antibodies, highly specific for the threonine-sensitive isozyme of maize homoserine dehydrogenase, have been prepared and utilized to purify the enzyme to homogeneity. The results of one- and two-dimensional polyacrylamide gel electrophoresis under denaturing conditions indicate that the enzyme is composed of subunits of identical molecular weight. Apparent microheterogeneity of the subunits was observed during isoelectric focusing, but peptide maps generated by partial cleavage with three different chemical reagents did not reveal any differences among the proteins separated by isoelectric focusing. It is concluded that the subunits of the active dimeric and tetrameric configurations of the maize enzyme are identical or very similar. Evidence is presented which indicates that the enzyme purified by immunoaffinity chromatography retains all of the properties of freshly isolated enzyme, including the ability to undergo several ligand-induced slow transitions among four unique states and complex kinetic responses to physiological substrates. Two monoclonal antibodies are shown to interact differently with the purified enzyme. One, MC-11, reacts with all enzyme molecules, while the other, MC-3, is able to resolve two antigenically distinct subpopulations. These populations are present in approximately equal amounts in etiolated shoots and leaves of light-grown seedlings. However, the results of kinetic and hysteretic studies indicate that they are functionally indistinguishable. The antibodies appear to recognize a structural difference between the enzyme populations which does not result in detectable alterations in their catalytic or regulatory properties.
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PMID:Use of monoclonal antibodies for the purification and characterization of the threonine-sensitive isozyme of maize homoserine dehydrogenase. 308 75

The entire threonine operon (thrA(1)5A(2)5BC) of Serratia marcescens TLr156, which lacks threonine-mediated feedback inhibition of both aspartokinase I (AK I) and homoserine dehydrogenase I (HD I), was cloned on a multicopy plasmid pLG339. Hybrid plasmid pSK301 carried a 6.5-kb chromosomal DNA. Several derivatives of pSK301 with Tn1000 insertions were obtained. By examining the phenotypes and the physical maps of these plasmids, we could define the loci of the thrA(1)5A(2)5, thrB, and thrC genes. The thrA(1)5A(2)5 and thrC gene products were identified by the maxicell method as proteins with Mrs of 85,000 and 43,000, respectively. The thrA(1)5A(2)5 genes encode a single polypeptide similar to the thrA1A2 genes of Escherichia coli. Plasmid pSK301 was introduced into S. marcescens T-1112, in which both AK I and HD I are produced constitutively. The resulting transformant carried five to six copies of pSK301 per chromosome and produced the AK I and HD I enzymes at three to four times higher level than control strain T-1112[pLG339]. Strain T-1112[pSK301] produced four times higher levels of threonine than strain T-1112[pLG339], yielding about 35 mg of threonine per ml of a medium containing sucrose and urea.
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PMID:Cloning and characterization of the mutated threonine operon (thrA(1)5A(2)5BC) of Serratia marcescens. 312 45

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