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: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ice nucleation activity and the iceC gene product were quantified in different subcellular fractions of the Pseudomonas syringae source strain and in Escherichia coli containing the cloned iceC gene to determine the activity of this protein in different subcellular locations. Ice nuclei were nearly completely retained during isolation of cell envelopes but exhibited a decrease in the temperature at which they were expressed. Ice nucleation activity was found in Triton X-100 insoluble membrane fragments as well as in slowly sedimenting and high-density membrane fragments. Nearly all ice nucleation activity was associated with the outer membrane because the partitioning of 3-ketodeoxyoctonate (a lipopolysaccharide component) and ice nuclei in cell fractions were similar to and opposite that of NADH oxidase (a cytoplasmic membrane component). The iceC gene product had an apparent mass of 150,000 Da based on migration in SDS-polyacrylamide gels. This protein was not found in soluble cell components. Nearly all of the iceC gene product, which occurred in low abundance, was associated with the outer membrane of both P. syringae and E. coli. Therefore, the iceC gene product is located at and is maximally active in or on the outer membrane of cells of the source strain and heterologous strains.
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PMID:Localization of ice nucleation activity and the iceC gene product in Pseudomonas syringae and Escherichia coli. 252 Aug 25

Clostridium pasteurianum possesses a high level of glutamate synthase (EC 1.4.1.14) activity and cell yield when grown on 4 mM ammonium chloride and molasses as the sole nitrogen and carbon sources, respectively. The enzyme activity is stabilized by addition of alpha-ketoglutarate, EDTA, and 2-mercaptoethanol. Ammonium sulfate precipitation and single-step combined gel and ion-exchange chromatography followed by fractional dialysis yield a homogeneous protein with 40% recovery of the glutamate synthase activity. The native enzyme (Mr congruent to 590,000) gives five different subunits (as dimers) upon SDS gel electrophoresis. The enzyme has been characterized for pH and temperature optimum, substrate specificity, Kmapp values, energy of activation, half-life, and thermal stabilization. Metal ions and citric acid cycle metabolites do not affect the enzyme activity. Glutamate synthase shows fluorescence maximum at 370 nm when excited at 280 nm. The fluorescence is quenched upon the addition of NADH. Spectroscopic examination of the enzyme gave absorption maximum at 280 and none at 380 and 440 nm, indicating the absence of iron and flavin. The absence of iron and flavin was also confirmed by atomic absorption, chemical analysis, and fluoroscopy, respectively. The C. pasteurianum enzyme differs from that of other aerobic bacterial sources.
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PMID:Stabilization, purification, and characterization of glutamate synthase from Clostridium pasteurianum. 261 Dec 21

A ketone reducing enzyme was purified to homogeneity from female mouse liver microsomes, using the diagnostic cytochrome P-450 inhibitor metyrapone as a substrate. In contrast to the usually employed indirect spectrophotometric recording of pyridine nucleotide oxidation at 340 nm, a HPLC method was applied for direct alcohol metabolite determination. Purification of the carbonyl reductase resulted in a 360-fold increase in specific activity together with a single band in the 34 kD region after SDS-polyacrylamide gel electrophoresis. Phenobarbital, indomethacin, dicoumarol and 5 alpha-dihydrotestosterone inhibited the enzyme, whereas quercitrin did not affect the enzyme activity. Thus, by inhibitor classification of carbonyl reductases the ketone metyrapone is reduced by an aldehyde reductase, rather than by a ketone reductase. Dihydrotestosterone, the strongest inhibitor, is supposed to be the physiological substrate for the purified enzyme. It was demonstrated that during the steps of purification both NADPH and NADH can supply the required reducing equivalents, although the activity with NADH is weaker. The highest activity was obtained using an NADPH-regenerating system. Ethanol and the nonionic detergent Emulgen 913 led to an increased specific activity, indicating that the enzyme is bound to the membranes of the endoplasmic reticulum in a latent state. From these results it is concluded that the microsomal metyrapone-reducing enzyme belongs to the family of carbonyl reductases, but differs from the common patterns of their classification with regard to cofactor requirement and inhibitor susceptibility.
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PMID:Purification and properties of a metyrapone-reducing enzyme from mouse liver microsomes--this ketone is reduced by an aldehyde reductase. 267 47

The membrane bound enzyme oxidizing protoporphyrinogen to protoporphyrin, a step in heme and chlorophyll synthesis, was purified to a single prominent polypeptide band on SDS/PAGE from barley mitochondrial fractions. It contained a variety of lipids including 0.66 mg of phosphatidyl ethanolamine and 0.46 mg of free fatty acid per mg of protein. Iron, but no flavins or cytochromes, was detected. In the presence of glutathione, enzymatic oxidation was inhibited by the iron chelator o-phenanthroline but was stimulated by iron EDTA. The purified enzyme was inhibited by reductants such as glutathione, ascorbate, NADH and NADPH. These findings are compatible with some direct or indirect involvement of lipids and iron in this oxidation in plants.
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PMID:Characteristics of purified protoporphyrinogen oxidase from barley. 273 23

N-Ethylmaleimide (NEM) reducing enzyme was purified to homogeneity from cell-free extracts of Candida lipolytica by chromatography techniques. The molecular weight of the native enzyme was estimated to be about 43,000 by gel filtration using Superose 12 and to be 47,000 by SDS-PAGE. This enzyme can use both NADPH and NADH as an electron donor, and catalyzes the reduction of the carbon-carbon double bond of five membered ring compounds which have two conjugated carbonyl groups on both sides of a double bond.
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PMID:Purification and characterization of N-ethylmaleimide reducing enzyme from Candida lipolytica. 275 74

A polyol dehydrogenase was detected in cell extracts of the facultative phototrophic bacterium Rhodobacter sphaeroides strain Si 4 grown on D-glucitol (sorbitol) as the sole carbon source. The enzyme was purified 150-fold to apparent homogeneity by steps involving fractionated (NH4)2SO4 precipitation, chromatography on Q-Sepharose and phenyl-Sepharose, and FPLC on Superose 12. The relative molecular mass (Mr) of the native polyol dehydrogenase was 47,200 as calculated from its Stokes' radius (rs = 2.76 nm) and sedimentation coefficient (s20, w = 4.15 S). SDS/PAGE resulted in one single band representing a polypeptide with a Mr of 52,200, indicating that the native protein is a monomer. The isoelectric point of the polyol dehydrogenase was determined to be pH 4.3. The enzyme was specific for NAD+ and oxidized both D-glucitol and D-mannitol to D-fructose, as well as D-arabinitol to D-ribulose. The pH optimum of substrate oxidation was pH 9.0 in 0.1 M Tris/HCl and that of substrate reduction was pH 6.5 in 0.1 M potassium phosphate. The reactions exhibited normal Michaelis-Menten kinetics allowing the estimation of KM values for NAD+ (0.18 mM) in the presence of D-glucitol, and for D-glucitol (31.8 mM), D-mannitol (0.29 mM) and D-arabinitol (1.8 mM), respectively. The KM value for D-fructose was 16.3 mM and that for NADH 0.02 mM. The equilibrium constants determined for the conversion of D-mannitol, D-glucitol and D-arabinitol were 4.5 nM, 0.58 nM and 80 pM, respectively. Based on the catalytic preference of the polyol dehydrogenase for D-mannitol, an enzymatic assay for D-mannitol was elaborated.
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PMID:Purification and properties of a polyol dehydrogenase from the phototrophic bacterium Rhodobacter sphaeroides. 278 34

An NAD+-linked 17 beta-hydroxysteroid dehydrogenase was purified to homogeneity from a fungus, Cylindrocarpon radicicola ATCC 11011 by ion exchange, gel filtration, and hydrophobic chromatographies. The purified preparation of the dehydrogenase showed an apparent molecular weight of 58,600 by gel filtration and polyacrylamide gel electrophoresis. SDS-gel electrophoresis gave Mr = 26,000 for the identical subunits of the protein. The amino-terminal residue of the enzyme protein was determined to be glycine. The enzyme catalyzed the oxidation of 17 beta-hydroxysteroids to the ketosteroids with the reduction of NAD+, which was a specific hydrogen acceptor, and also catalyzed the reduction of 17-ketosteroids with the consumption of NADH. The optimum pH of the dehydrogenase reaction was 10 and that of the reductase reaction was 7.0. The enzyme had a high specific activity for the oxidation of testosterone (Vmax = 85 mumol/min/mg; Km for the steroid = 9.5 microM; Km for NAD+ = 198 microM at pH 10.0) and for the reduction of androstenedione (Vmax = 1.8 mumol/min/mg; Km for the steroid = 24 microM; Km for NADH = 6.8 microM at pH 7.0). In the purified enzyme preparation, no activity of 3 alpha-hydroxysteroid dehydrogenase, 3 beta-hydroxysteroid dehydrogenase, delta 5-3-ketosteroid-4,5-isomerase, or steroid ring A-delta-dehydrogenase was detected. Among several steroids tested, only 17 beta-hydroxysteroids such as testosterone, estradiol-17 beta, and 11 beta-hydroxytestosterone, were oxidized, indicating that the enzyme has a high specificity for the substrate steroid. The stereospecificity of hydrogen transfer by the enzyme in dehydrogenation was examined with [17 alpha-3H]testosterone.
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PMID:Purification and characterization of 17 beta-hydroxysteroid dehydrogenase from Cylindrocarpon radicicola. 284 44

The rotenone sensitive NADH:ubiquinone was isolated from mitochondria of Neurospora crassa as a monodisperse preparation with the apparent mol. wt. in Triton solution of 0.9 X 10(6). The enzyme is composed of at least 22 subunits with apparent mol. wts. in SDS between 70 and 11 kd. Six of the subunits with the mol. wts. 70, 48, 37, 25, 22 and 18 kd were radioactively labelled in the enzyme isolated from cells which had incorporated [35S]methionine in the presence of cycloheximide. These subunits are synthesized in the mitochondria. Eleven subunits were radioactively labelled in the enzyme from cells which had incorporated [35S]methionine in the presence of chloramphenicol. These subunits are synthesized in the cytoplasm. The site of translation of the other subunits could not be established by the pulse-labelling technique. The assignment of the mitochondrially synthesized subunits to unidentified reading frames on the mitochondrial DNA is discussed.
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PMID:Mitochondrial translation of subunits of the rotenone-sensitive NADH:ubiquinone reductase in Neurospora crassa. 293 52

Two kinds of membranes (plasma membranes and intracellular membranes) have been separated from human platelets by fractionation on Percoll gradients (successively at pH 7.4 and pH 9.6). On alkaline Percoll gradient, plasma membranes floated at low density, as shown with specific markers such as [3H]concanavalin A and monoacylglycerol lipase, whereas intracellular membranes sedimented in the higher densities and displayed a 5.6-12.4-fold enrichment in NADH diaphorase, antimycin insensitive NADH-cytochrome-c oxidoreductase and Ca2+-ATPase. Another criterion allowing differentiation of two membrane populations of human platelets was their lipid composition, which showed a cholesterol/phospholipid molar ratio of 0.5 in plasma membranes against 0.2 in intracellular membranes. Phospholipid analysis of the two kinds of membranes displayed also quite different profiles, since phosphatidylcholine increased from 30-32% in the plasma membrane to 52-66% in the intracellular membranes. This was at the expense of sphingomyelin (20-23% in plasma membrane, against 6.8-7.7% in intracellular membranes) and of phosphatidylserine (12-13% in plasma membrane, against 2-6% in intracellular membranes). Other striking differences between plasma membranes and intracellular membranes were obtained by SDS-polyacrylamide gel electrophoresis, which revealed the absence of actin and myosin in the intracellular membrane, whereas both proteins were present in significant amounts in plasma membranes. Finally, intracellular membranes but not plasma membranes were able to incorporate calcium. These results suggest that intracellular membrane fractions are derived from the dense tubular system and plasma membranes should correspond to the whole surface membrane of human platelets.
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PMID:Biochemical characterization of plasma membranes and intracellular membranes isolated from human platelets using Percoll gradients. 293 54

After solubilization of rat adrenal microsomes with sodium cholate, 3 beta-hydroxysteroid dehydrogenase with steroid 5-ene-4-ene isomerase (abbreviated as steroid isomerase) activity was purified to a homogeneous state. The following characteristics of the enzyme were obtained: 3 beta-Hydroxysteroid dehydrogenase together with steroid isomerase was detected as a single protein band in SDS-polyacrylamide gel electrophoresis, where its mol. wt was estimated as 46,500. Either NAD+ or NADH was required for demonstration of steroid isomerase activity. Treatment of the enzyme with 5'-p-fluorosulfonylbenzoyladenosine, an affinity labeling reagent for NAD+-dependent enzyme, diminished both the enzyme activities.
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PMID:Purification and characterization of rat adrenal 3 beta-hydroxysteroid dehydrogenase with steroid 5-ene-4-ene-isomerase. 293


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