UMLS:C0272170 - FACTA Search

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Query: UMLS:C0272170 (SDS)
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L(+)-Mandelate dehydrogenase was purified to homogeneity from the yeast Rhodotorula graminis KGX 39 by a combination of (NH4)2SO4 fractionation, ion-exchange and hydrophobic-interaction chromatography and gel filtration. The amino-acid composition and the N-terminal sequence of the enzyme were determined. Comprehensive details of the sequence determinations have been deposited as Supplementary Publication SUP 50172 (4 pages) at the British Library Document Supply Centre, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies can be obtained on the terms indicated in Biochem. J. (1993) 289, 9. The enzyme is a tetramer as judged by comparison of its subunit M(r) value of 59,100 and native M(r) of 239,900, estimated by SDS/PAGE and gel filtration respectively. There is one molecule of haem and approx. one molecule of non-covalently bound FMN per subunit. 2,6-Dichloroindophenol, cytochrome c and ferricyanide can all serve as electron acceptors. L(+)-Mandelate dehydrogenase is stereospecific for its substrate. D(-)-Mandelate and L(+)-hexahydromandelate are competitive inhibitors. The enzyme has maximum activity at pH 7.9 and it has a pI value of 4.4. HgCl2 and 4-chloromercuribenzoate are potent inhibitors, but there is no evidence that the enzyme is subject to feedback inhibition by potential metabolic effectors. The evidence suggests that L(+)-mandelate dehydrogenase from R. graminis is a flavocytochrome b which is very similar to, and probably (at least so far as the haem domain is concerned) homologous with, certain well-characterized yeast L(+)-lactate dehydrogenases, and that the chief difference between them is their mutually exclusive substrate specificities.
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PMID:L(+)-Mandelate dehydrogenase from Rhodotorula graminis: purification, partial characterization and identification as a flavocytochrome b. 834 25

Cytochrome caa3, a cytochrome c oxidase from Thermus thermophilus, has been purified and extensively characterized as a two-subunit enzyme containing the metal centers characteristic of cytochrome c oxidases (cytochromes a and a3; copper centers CuA and CuB) and an additional cytochrome c (Fee, J. A., Kuila, D., Mather, M. W., and Yoshida, T. (1986) Biochim. Biophys. Acta 853, 153-185). We have now cloned and sequenced the genes encoding the subunits of this enzyme. The smaller subunit consists of a typical oxidase subunit II sequence fused to a cytochrome c domain (Mather, M. W., Springer, P., and Fee, J. A. (1991) J. Biol. Chem. 266, 5025-5035). The larger subunit, the A-protein, is encoded by a fusion gene lying immediately downstream of the subunit IIc gene. The 5' portion of this gene encodes an oxidase subunit I homolog, whereas the 3' portion is homologous to oxidase subunits III. The A-protein from the purified enzyme appears too small from SDS-polyacrylamide gel electrophoresis and quantitative amino acid analyses to be a complete subunit I/III fusion, but it is currently not known if proteolytic processing occurs. Analyses of the sequences of oxidase subunits are presented which clearly identify T. thermophilus cytochrome caa3 as a bona fide member of the greater family of heme- and copper-requiring oxidases. As one consequence, it is confirmed that the set of invariant histidine residues (potential ligands of the metal centers) in cytochrome c oxidase subunits I and II is reduced to 8. Possible topological and helix packing models are developed based on considerations of homology, hydropathy, and variability.
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PMID:Cytochrome oxidase genes from Thermus thermophilus. Nucleotide sequence of the fused gene and analysis of the deduced primary structures for subunits I and III of cytochrome caa3. 838 70

Ubiquinol oxidase was extracted from membranes of a marine bacterium Vibrio alginolyticus with a nonionic detergent Liponox DCH and was purified about 130-fold by DEAE-Sephacel, DEAE-5PW and Sephacryl S-300. The purified ubiquinol oxidase was composed of three subunits with apparent M(r) of 79, 36 and 13 kDa on SDS-polyacrylamide gel electrophoresis. The oxidase contained cytochrome b, cytochrome o and copper atoms. The presence of heme O was confirmed by reverse-phase HPLC analysis. Ubiquinol-1, duroquinol and tetramethylphenylene diamine, but not horse heart reduced cytochrome c, were oxidized by this enzyme. The oxidase required no salts for activity and was stimulated by several detergents and by diphosphatidyl glycerol. The activity was strongly inhibited by KCN, 2-n-heptyl-4-hydroxyquinoline N-oxide and ZnSO4. These properties were essentially similar to those of cytochrome bo-type ubiquinol oxidase from Escherichia coli, suggesting that the bo-type ubiquinol oxidase is functioning as a proton pump in the marine V. alginolyticus.
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PMID:Purification and properties of cytochrome bo-type ubiquinol oxidase from a marine bacterium Vibrio alginolyticus. 844 14

We report here the isolation and deduced amino acid sequence of the flavoprotein, NADPH-cytochrome P450 (cytochrome c) reductase (EC 1.6.2.4), associated with the microsomal fraction of etiolated mung bean seedlings (Vigna radiata var. Berken). An 1150-fold purification of the plant reductase was achieved, and SDS/PAGE showed a predominant protein band with an apparent molecular mass of approximately 82 kDa. The purified plant NADPH-P450 reductase gave a positive reaction as a glycoprotein, exhibited a typical flavoprotein visible absorbance spectrum, and contained almost equimolar quantities of FAD and FMN per mole of enzyme. Specific antibodies revealed the presence of unique epitopes distinguishing the plant and mammalian flavoproteins as demonstrated by Western blot analyses and inhibition studies. Peptide fragments from the purified plant NADPH-P450 reductase were sequenced, and degenerate primers were used in PCR amplification reactions. Overlapping cDNA clones were sequenced, and the deduced amino acid sequence of the mung bean NADPH-P450 reductase was compared with equivalent enzymes from mammalian species. Although common flavin and NADPH-binding sites are recognizable, there is only approximately 38% amino acid sequence identity. Surprisingly, the purified mung bean NADPH-P450 reductase can substitute for purified rat NADPH-P450 reductase in the reconstitution of the mammalian P450-catalyzed 17 alpha-hydroxylation of pregnenolone or progesterone.
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PMID:Purification, characterization, and cDNA cloning of an NADPH-cytochrome P450 reductase from mung bean. 846 4

The thermophilic bacterium, Bacillus PS3, was grown in a vigorously aerated nutrient broth at 65 degrees C with 100 mM glutamic acid serving as a supplemental carbon and nitrogen source. These growth conditions resulted in membranes highly enriched in cytochrome c oxidase (COX) [23.32 +/- 4.32 nmol heme a/g of cells (n = 5)], which is nearly a threefold higher concentration of COX (heme caa3-type) than previously reported for this organism. A new high-yield purification of COX was performed by extracting the bacterial membranes with Triton X-100 (7 mg/mg protein), followed by ion-exchange fast liquid protein chromatography using a QAE (trimethyl ammonium) resin with subsequent hydroxyapatite chromatography and ammonium sulfate fractionation. This purification regime resulted in a 16% yield of cytochrome c oxidase with 20 mg of pure caa3-type COX (13 nmol heme a/mg protein) isolated from 100 g of cells. SDS-PAGE showed that the isolated enzyme had four subunits with apparent Mr of 68, 38, 23, and 13 kDa. In addition, a new 34-kDa peptide was also detected in this preparation, which may represent the ORF1 gene product for this organism. Subunit II (Mr = 38 kDa) of the isolated enzyme was shown to contain covalently bound heme c by using both heme-staining of SDS-PAGE and immunoreactivity with an anti-cytochrome c antibody. The purified enzyme also exhibited high electron transfer activity (340s-1) when assayed at pH 6.5 in the presence of the nonionic detergent, beta-dodecyl maltoside.
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PMID:High yield purification of a four subunit caa3-type cytochrome oxidase from the thermophilic bacterium Bacillus PS3 using fast protein liquid chromatography. 853 66

Chicken apocytochrome c gene with correct reading frame was easily cloned through excision by polymerase chain reaction of the intron in the genomic clone of chicken cytochrome c gene, and was successfully overexpressed in Escherichia coli by cloning into expression vector pET-3d under the control of T7 promoter. Expressed protein can amount to as high as 40% of the total protein and mainly presents as inclusion body. Purification of chicken apocytochrome c from the inclusion body and characterization by SDS-PAGE, isoelectric focusing electrophoresis, and amino acid analysis showed that the purified apocytochrome c is identical to that prepared from chicken heart cytochrome c by chemically depletion of heme.
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PMID:Cloning and high-level expression of chicken apocytochrome c gene in Escherichia coli. 853 90

Solubilized NADPH-cytochrome c (P450) reductase was purified to homogeneity from an extract of spearmint (Mentha spicata) glandular trichomes by dye-ligand interaction chromatography on Matrex-Gel Red A and affinity chromatography on 2', 5'-adenosine diphosphate agarose. SDS-PAGE of the purified enzyme preparation revealed the presence of two similar proteins with masses of 82 kDa (major) and 77 kDa (minor) that crossreacted on immunoblot analysis with polyclonal antibodies directed against NADPH-cytochrome P450 reductase from Jerusalem artichoke and from mung bean. Complete immunoinhibition of reductase activity was observed with both types of polyclonal antibodies, while only partial inhibition of activity resulted using a family of monoclonal antibodies directed against the Jerusalem artichoke cytochrome P450 reductase. Inhibition of the spearmint oil gland cytochrome c reductase was also observed with the diphenyliodonium ion. The K(m) values for the cosubstrates NADPH and cytochrome c were 6.2 and 3.7 microM, respectively, and the pH optimum for activity was at 8.5. The NADPH-cytochrome c reductase reconstituted NADPH-dependent (-)-4S-limonene-6-hydroxylase activity in the presence of cytochrome P450, purified from the microsomal fraction of spearmint oil gland cells and dilauroyl phosphatidyl choline. These characteristics establish the identity of the purified enzyme as a NADPH-cytochrome P450 reductase.
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PMID:Purification and characterization of an NADPH-cytochrome P450 (cytochrome c) reductase from spearmint (Mentha spicata) glandular trichomes. 861 40

Mice infected with Listeria monocytogenes (LM) generate H2-M3wt-restricted CD8 effectors which recognize a heat-killed LM-associated antigen (HAA) presented by macrophages. To characterize HAA, we extracted a bioactive component from LM using SDS or NaOH. Extracted HAA aggregated in hydrophilic solvents but dissociated in the presence of SDS into a smaller subunit which migrated in Sephadex G-200 between chymotrypsinogen (25 kDa) and cytochrome c (12.5 kDa). HAA bioactivity and size was unaffected by proteinase K under conditions which degraded virtually all detectable protein. HAA was also unaffected by other proteases, RNase and DNase, but HAA bioactivity was destroyed by periodate, an agent that degrades carbohydrates. These studies demonstrate that H2-M3wt can present a hydrophobic, non-peptide, microbial antigen, probably glycolipid in origin, to CD8 T cells.
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PMID:H2-M3wt-restricted, Listeria monocytogenes-specific CD8 T cells recognize a novel, hydrophobic, protease-resistant, periodate-sensitive antigen. 867 23

A Helicobacter pylori membrane fraction oxidized yeast and equine cytochrome c, and N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD). When ascorbate was used as reductant, the Vmax and apparent Km values were 612 nmol electron min-1 (mg protein)-1 and 14 microM for yeast, and 419 nmol electron min-1 (mg protein)-1 and 19 microM for equine cytochrome c, respectively. For TMPD oxidation, the Vmax and Km values were 640 nmol electron min-1 (mg protein)-1 and 182 microM, respectively. These oxidase activities showed a high affinity for oxygen. Inhibition of both cytochrome-c and TMPD oxidase activities by 50% was caused by about 4 microM cyanide and about 0.5 mM azide. Redox difference spectra of the membrane solubilized with Triton X-100 showed b- or c-type cytochromes but not aa3-type cytochromes. c-type and a part of some b-type cytochromes were reduced with ascorbate plus TMPD. A CO difference spectrum revealed that protohaem, but not an aa3-type cytochrome, may be interacting with CO/oxygen. Only protohaem was detected in the haem fraction extracted from the membrane. Three polypeptides (60, 38 and 29 kDa) were found to be bearing haem c after SDS-PAGE of the membrane. From these results, it was suggested that the cbb3-type cytochrome-c oxidase, having a haem-copper binuclear centre like the cytochrome aa3-type oxidase, but differing in a few other properties, functions as a terminal oxidase in the respiratory chain of H. pylori.
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PMID:A cb-type cytochrome-c oxidase terminates the respiratory chain in Helicobacter pylori. 875 39

Adrenodoxin was purified from the rat adrenal gland. The A414/A280 value of the purified rat adrenodoxin was 0.90 and the oxidized spectrum showed absorption maxima at 320, 414 and 455 nm, similar to those of bovine adrenodoxin. On SDS-PAGE, the rat adrenodoxin showed a single band with a molecular mass of 11.2 kDa, while the apparent molecular mass by gel filtration through Sephadex G-75 equilibrated with 10 mM K-phosphate (pH 7.5) was 27 kDa. In the reconstituted system, Vmax of NADPH-cytochrome c reduction activity and the Km for the rat adrenodoxin were much the same as those for recombinant bovine adrenodoxin. In the case of cholesterol side-chain cleavage activity, however, these values of the rat adrenodoxin were about half of those of the bovine adrenodoxin. The CD spectrum of the rat adrenodoxin was similar to that of the bovine adrenodoxin but showed a significantly lower ellipticity value in the 195-205 nm region than that of the bovine adrenodoxin. The structural differences may possibly explain differences in the enzymic properties between rat and bovine adrenodoxins.
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PMID:Purification and characterization of rat adrenodoxin. 878 62

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