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)

Free radical-induced injury to the arterial wall has been implicated in the pathogenesis and progression of atherosclerosis. To model the in vitro effects of free radicals on endothelial cell function, protein and lipid synthesis were measured after exposing cells to a superoxide generating system of xanthine (X = 100 microM) and xanthine oxidase (XO = 0.2 units). Total protein synthesis, measured by [35S]methionine uptake, decreased by 87.65 +/- 2.04% over 4 hr compared to controls (P < 0.05). Examination of lipid synthesis by high-performance liquid chromatography in cells prelabeled with either [3H]oleic acid or [3H]sodium acetate revealed alterations in all lipid classes. Phospholipid and neutral glyceride synthesis significantly decreased in a time- and dose-dependent fashion compared to controls (two-way ANOVA). In contrast, cholesterol synthesis and lipid peroxidation increased in a time- and dose-dependent fashion. When X = 200 microM and XO = 0.3 units, there was a statistically significant increase in cholesterol synthesis and lipid peroxidation within 24 hr (Tukey's HSD). We conclude that there is evidence of endothelial cell injury as measured by decreases in protein, glyceride, and phospholipid synthesis. The concurrent increases in lipid peroxidation and cholesterol synthesis may explain the relationship between free radical injury and the pathogenesis of atherosclerosis.
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PMID:Free radical-induced alterations in endothelial cell function. 827 66

Aspartokinase I and homoserine dehydrogenase I (AKI-HDI) from Serratia marcescens Sr41 are encoded by the thrA gene as a single polypeptide chain. Previously, a single amino acid substitution of Ser-352 with Phe was shown to produce an AKI-HDI enzyme that is not subject to threonine-mediated feedback inhibition. To determine the role of Ser-352 in the allosteric response, the thrA gene was modified by using site-directed mutagenesis so that Ser-352 of the wild-type AKI-HDI was replaced by Ala, Arg, Asn, Gln, Glu, His, Leu, Met, Pro, Thr, Trp, Tyr, or Val. The Thr-352 and Pro-352 replacements rendered AKIs sensitive to threonine. The Tyr-352 and Asn-352 substitutions led to activation, rather than inhibition, of AKI by threonine. The other replacements conferred threonine insensitivity on AKI. The threonine sensitivity of HDI was also changed by the amino acid substitutions at Ser-352. The HDI carried by the Tyr-352 mutant AKI-HDI was activated by threonine. Single amino acid replacements at Ser-352 by Ala, Asn, Gln, His, Phe, Pro, Thr, or Tyr were introduced into truncated AKI-HDIs containing the AKI and the central regions. The AKI activity of the truncated AKI-HDI containing the first 468 amino acid residues was sensitive to threonine, and introduction of the amino acid replacements did not alter the threonine sensitivity of the AKI. Another truncated AKI-HDI containing the first 462 amino acid residues possessed threonine-resistant AKI, whereas the substitutions of Ser-352 with Ala and Pro rendered AKI sensitive to threonine. The replacement of GIn-351 with Phe activated AK1 of the truncated AKI-HDI in the presence of L-threonine. These findings suggest that Ser-352 of the central region of AKI-HDI is possibly a key residue involved with the allosteric regulation of both AKI and HDI activities.
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PMID:Role of serine 352 in the allosteric response of Serratia marcescens aspartokinase I-homoserine dehydrogenase I analyzed by using site-directed mutagenesis. 843 19

Aspartokinase (EC 2.7.2.4) and homoserine dehydrogenase (EC 1.1.1.3) catalyze steps in the pathway for the synthesis of lysine, threonine, and methionine from aspartate. Homoserine dehydrogenase was purified from carrot (Daucus carota L.) cell cultures and portions of it were subjected to amino acid sequencing. Oligonucleotides deduced from the amino acid sequences were used as primers in a polymerase chain reaction to amplify a DNA fragment using DNA derived from carrot cell culture mRNA as template. The amplification product was radiolabelled and used as a probe to identify cDNA clones from libraries derived from carrot cell culture and root RNA. Two overlapping clones were isolated. Together the cDNA clones delineate a 3089 bp long sequence encompassing an open reading frame encoding 921 amino acids, including the mature protein and a long chloroplast transit peptide. The deduced amino acid sequence has high homology with the Escherichia coli proteins aspartokinase I-homoserine dehydrogenase I and aspartokinase II-homoserine dehydrogenase II. Like the E. coli genes the isolated carrot cDNA appears to encode a bifunctional aspartokinase-homoserine dehydrogenase enzyme.
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PMID:Identification and expression of a cDNA from Daucus carota encoding a bifunctional aspartokinase-homoserine dehydrogenase. 850 31

The fetal environment is now recognized as a key determinant of the adult phenotype, being linked to development of diseases, including hypertension, as well as the timing of puberty. Such links may be related, in part, to the level of fetal exposure to maternal glucocorticoids in utero, which is normally regulated by placental expression of the enzyme 11beta-hydroxysteroid dehydrogenase (11beta-HSD). The present study examined whether manipulation of fetal glucocorticoid exposure, either directly or indirectly via 11beta-HSD inhibition, influences the subsequent timing of puberty. Administration of dexamethasone acetate at low (LDEX, 0.25 microg/ml drinking water) or high doses (HDEX, 1 microg/ml) or carbenoxolone (CBX, 2 x 10 mg/day, sc; an inhibitor of 11beta-HSD) to pregnant rats from day 13 to term (day 23) reduced offspring birthweight (LDEX: 9%; HDEX: 27%; CBX: 8%) and resulted in a subsequent delay in the onset of puberty in females (control: 41.4 +/- 0.5; LDEX: 44.8 +/- 0.7; HDEX: 48.5 +/- 0.4; CBX: 43.6 +/- 0.5 days). Importantly, the effects of CBX were not observed in the absence of maternal adrenals, indicating that they were mediated by increased fetal exposure to endogenous maternal glucocorticoids. In contrast, maternal treatment with metyrapone (MET; an inhibitor of glucocorticoid synthesis; 500 microg/ml drinking water from day 13) increased birthweight by 5% and advanced puberty onset in male offspring (control: 48.8 +/- 1.0; MET: 45.7 +/- 0.8 days). Changes in the timing of puberty onset were not attributable to changes in either bodyweight at puberty or peripubertal plasma leptin concentrations. Peripubertal plasma LH was also unaffected in animals with delayed puberty but was elevated in male offspring of MET-treated mothers. Collectively, these results demonstrate that fetal glucocorticoid exposure is an important determinant of the timing of puberty onset in postnatal life, and that this effect is operable within the normal physiological range of glucocorticoid concentrations.
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PMID:Increased fetal glucocorticoid exposure delays puberty onset in postnatal life. 1087 42

The maize (Zea mays) Oh545o2 inbred accumulates an exceptionally high level of free amino acids, especially lysine (Lys), threonine (Thr), methionine, and iso-leucine. In a cross between Oh545o2 and Oh51Ao2, we identified several quantitative trait loci linked with this phenotype. One of these is on the long arm of chromosome 2 and is linked with loci encoding aspartate (Asp) kinase 2 and Asp kinase (AK)-homoserine dehydrogenase (HSDH) 2. To investigate whether these enzymes can contribute to the high levels of Asp family amino acids, we measured their specific activity and feedback inhibition properties, as well as activities of several other key enzymes involved in Lys metabolism. We did not find a significant difference in total activity of dihydrodipicolinate synthase, HSDH, and Lys ketoglutarate reductase between these inbreds, and the feedback inhibition properties of HSDH and dihyrodipicolinate synthase by Lys and/or Thr were similar. The most significant difference we found between Oh545o2 and Oh51Ao2 is feedback inhibition of AK by Lys but not Thr. AK activity in Oh545o2 is less sensitive to Lys inhibition than that in Oh51Ao2, with a Lys I50 twice that of Oh51Ao2. AK activity in Oh545o2 endosperm is also higher than in Oh51Ao2 at 15 d after pollination, but not 20 d after pollination. The results indicate that the Lys-sensitive Asp kinase 2, rather than the Thr-sensitive AK-HSDH2, is the best candidate gene for the quantitative trait locus affecting free amino acid content in Oh545o2.
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PMID:Aspartate kinase 2. A candidate gene of a quantitative trait locus influencing free amino acid content in maize endosperm. 1129 58

11beta-Hydroxysteroid dehydrogenase type 1 (11beta-HSD 1) is a membrane integrated glycoprotein, which physiologically performs the interconversion of active and inactive glucocorticoid hormones and which also participates in xenobiotic carbonyl compound detoxification. Since 11beta-HSD 1 is fixed to the endoplasmic reticulum (ER) with a N-terminal membrane spanning domain, the enzyme is very difficult to purify in an active state. Upon expression experiments in Escherichia coli, 11beta-HSD 1 turns out to be hardly soluble without detergents. This study describes attempts to increase the solubility of 11beta-HSD 1 via mutagenesis experiments by generating several truncated forms expressed in E. coli and the yeast Pichia pastoris. Furthermore, we investigated if the codon for methionine 31 in human 11beta-HSD 1 could serve as an alternative start codon, thereby leading to a soluble form of the enzyme, which lacks the membrane spanning segment. Our results show that deletion of the hydrophobic membrane spanning domain did not alter the solubility of the enzyme. In contrast, the enzyme remained bound to the ER membrane even without the N-terminal membrane anchor. However, activity could not be found, neither with the truncated protein expressed in E. coli nor with that expressed in P. pastoris. Hydrophobicity plots proved the hydrophobic nature of 11beta-HSD 1 and indicated the existence of additional membrane attachment sites within its primary structure.
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PMID:Human 11beta-hydroxysteroid dehydrogenase 1/carbonyl reductase: additional domains for membrane attachment? 1130 91

Fungal homoserine dehydrogenase (HSD) is required for the biosynthesis of threonine, isoleucine and methionine from aspartic acid, and is a target for antifungal agents. HSD from the yeast Saccharomyces cerevisiae was overproduced in Escherichia coli and 25 mg of soluble dimeric enzyme was purified per liter of cell culture in two steps. HSD efficiently reduces aspartate semialdehyde to homoserine (Hse) using either NADH or NADPH with kcat/Km in the order of 10(6-7) M(-1) x s(-1) at pH 7.5. The rate constant of the reverse direction (Hse oxidation) was also significant at pH 9.0 (kcat/Km approximately 10(4-5) M(-1) x s(-1)) but was minimal at pH 7.5. Chemical modification of HSD with diethyl pyrocarbonate (DEPC) resulted in a loss of activity that could be obviated by the presence of substrates. UV difference spectra revealed an increase in absorbance at 240 nm for DEPC-modified HSD consistent with the modification of two histidines (His) per subunit. Amino acid sequence alignment of HSD illustrated the conservation of two His residues among HSDs. These residues, His79 and His309, were substituted to alanine (Ala) using site directed mutagenesis. HSD H79A had similar steady state kinetics to wild type, while kcat/Km for HSD H309A decreased by almost two orders of magnitude. The recent determination of the X-ray structure of HSD revealed that His309 is located at the dimer interface [B. DeLaBarre, P.R. Thompson, G.D. Wright, A.M. Berghuis, Nat. Struct. Biol. 7 (2000) 238-244]. The His309Ala mutant enzyme was found in very high molecular weight complexes rather than the expected dimer by analytical gel filtration chromatography analysis. Thus the invariant His309 plays a structural rather than catalytic role in these enzymes.
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PMID:Characterization of yeast homoserine dehydrogenase, an antifungal target: the invariant histidine 309 is important for enzyme integrity. 1134 14

We screened a gene trap library of Arabidopsis thaliana and isolated a line in which a gene encoding a homologue of monofunctional aspartate kinase was trapped by the reporter gene. Aspartate kinase (AK) is a key enzyme in the biosynthsis of aspartate family amino acids such as lysine, threonine, isoleucine, and methionine. In plants, two types of AK are known: one is AK which is sensitive to feedback inhibition by threonine and carries both AK and homoserine dehydrogenase (HSD) activities. The other one is monofunctional, sensitive to lysine and synergistically S-adenosylmethionine, and has only AK activity. We concluded that the trapped gene encoded a monofunctional aspartate kinase and designated as AK-lys3, because it lacked the HSD domain and had an amino acid sequence highly similar to those of the monofunctional aspartate kinases ofA. thaliana. AK-lys3 was highly expressed in xylem of leaves and hypocotyls and stele of roots. Significant expression of this gene was also observed in trichomes after bolting. Slight expression of AK-lys3 was detected in vascular bundles and mesophyll cells of cauline leaves, inflorescence stems, sepals, petals, and stigmas. These results indicated that this aspartate kinase gene was not expressed uniformly but in a spatially specific manner.
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PMID:Identification of a monofunctional aspartate kinase gene of Arabidopsis thaliana with spatially and temporally regulated expression. 1156 2

In plant, the first and the third steps of the synthesis of methionine and threonine are catalyzed by a bifunctional enzyme, aspartate kinase-homoserine dehydrogenase (AK-HSDH). In this study, we report the first purification and characterization of a highly active threonine-sensitive AK-HSDH from plants (Arabidopsis thaliana). The specific activities corresponding to the forward reaction of AK and reverse reaction of HSDH of AK-HSDH were 5.4 micromol of aspartyl phosphate produced min(-1) mg(-1) of protein and 18.8 micromol of NADPH formed min(-1) mg(-1) of protein, respectively. These values are 200-fold higher than those reported previously for partially purified plant enzymes. AK-HSDH exhibited hyperbolic kinetics for aspartate, ATP, homoserine, and NADP with K(M) values of 11.6 mM, 5.5 mM, 5.2 mM, and 166 microM, respectively. Threonine was found to inhibit both AK and HSDH activities by decreasing the affinity of the enzyme for its substrates and cofactors. In the absence of threonine, AK-HSDH behaved as an oligomer of 470 kDa. Addition of the effector converted the enzyme into a tetrameric form of 320 kDa.
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PMID:Overproduction, purification, and characterization of recombinant bifunctional threonine-sensitive aspartate kinase-homoserine dehydrogenase from Arabidopsis thaliana. 1181 30

An aspartate kinase-homoserine dehydrogenase (AK-HSDH) cDNA of Arabidopsis thaliana has been cloned by functional complementation of a Saccharomyces cerevisiae strain mutated in its homoserine dehydrogenase (HSDH) gene (hom6). Two of the three isolated clones were also able to complement a mutant yeast aspartate kinase (AK) gene (hom3). Sequence analysis showed that the identified gene (akthr2), located on chromosome 4, is different from the previously cloned A. thaliana AK-HSDH gene (akthr1), and corresponds to a novel bifunctional AK-HSDH gene. Expression of the isolated akthr2 cDNA in a HSDH-less hom6 yeast mutant conferred threonine and methionine prototrophy to the cells. Cell-free extracts contained a threonine-sensitive HSDH activity with feedback properties of higher plant type. Correspondingly, cDNA expression in an AK-deficient hom3 yeast mutant resulted in threonine and methionine prototrophy and a threonine-sensitive AK activity was observed in cell-free extracts. These results confirm that akthr2 encodes a threonine-sensitive bifunctional enzyme. Transgenic Arabidopsis thaliana plants (containing a construct with the promoter region of akthr2 in front of the gus reporter gene) were generated to compare the expression pattern of the akthr2 gene with the pattern of akthr1 earlier described in tobacco. The two genes are simultaneously expressed in meristematic cells, leaves and stamens. The main differences between the two genes concern the time-restricted or absent expression of the akthr2 gene in the stem, the gynoecium and during seed formation, while akthr1 is less expressed in roots.
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PMID:Transcriptional and biochemical regulation of a novel Arabidopsis thaliana bifunctional aspartate kinase-homoserine dehydrogenase gene isolated by functional complementation of a yeast hom6 mutant. 1260 85

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