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: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thylakoid protein phosphorylation was facilitated in darkness by using the ferredoxin-NADPH system. CoCl2 and DBMIB (2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone) were potent inhibitors of LHCP (light-harvesting chlorophyll-binding protein) phosphorylation, but 3-(3,4-dichlorophenyl)-1,1-dimethyl-urea and atrazine had no significant effect. Differential effects on phosphorylation of the 9 kDa polypeptide and LHCP were observed in darkness with DBMIB and certain other inhibitors specific for Photosystem-II electron transport. Similarly, during illumination of intact chloroplasts or of the reconstituted chloroplast system, a differential action of bicarbonate was observed on the relative phosphorylation of the two proteins. The degree of phosphorylation of the 9 kDa polypeptide was increased in the presence of bicarbonate compared with its absence, whereas that of LHCP was relatively unchanged. Changes in the degree of phosphorylation of the 32 kDa polypeptide in these experiments did not correlate consistently with changes in phosphorylation of either LHCP or the 9 kDa polypeptide, although changes in the 32 kDa polypeptide more often paralleled phosphorylation of the 9 kDa polypeptide rather than the phosphorylation of LHCP. These observations suggest that the protein kinase that phosphorylates LHCP is distinct from that which phosphorylates the 9 kDa polypeptide.
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PMID:Evidence for different kinases in thylakoid protein phosphorylation. 332 34

A nitrophenol oxygenase which stoichiometrically converted ortho-nitrophenol (ONP) to catechol and nitrite was isolated from Pseudomonas putida B2 and purified. The substrate specificity of the enzyme was broad and included several halogen- and alkyl-substituted ONPs. The oxygenase consisted of a single polypeptide chain with a molecular weight of 58,000 (determined by gel filtration) or 65,000 (determined on a sodium dodecyl sulfate-polyacrylamide gel). The enzymatic reaction was NADPH dependent, and one molecule of oxygen was consumed per molecule of ONP converted. Enzymatic activity was stimulated by magnesium or manganese ions, whereas the addition of flavin adenine dinucleotide, flavin mononucleotide, or reducing agents had no effect. The apparent Kms for ONP and NADPH were 8 and 140 microM, respectively. 2,4-Dinitrophenol competitively (Ki = 0.5 microM) inhibited ONP turnover. The optimal pH for enzyme stability and activity was in the range of 7.5 to 8.0. At 40 degrees C, the enzyme was totally inactivated within 2 min; however, in the presence of 1 mM ONP, 40% of the activity was recovered, even after 10 min. Enzymatic activity was best preserved at -20 degrees C in the presence of 50% glycerol.
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PMID:Purification and characterization of a bacterial nitrophenol oxygenase which converts ortho-nitrophenol to catechol and nitrite. 335 Jul 91

The amino-acid sequence at the adrenoferredoxin-binding site of NADPH-adrenoferredoxin reductase ferredoxin:NADP+ oxidoreductase, EC 1.18.1.2) from bovine adrenocortical mitochondria was investigated chemically. NADPH-adrenoferredoxin reductase has an essential lysine residue at the adrenoferredoxin-binding site. A polypeptide at the adrenoferredoxin-binding site was isolated by high-pressure liquid chromatography from NADPH-adrenoferredoxin reductase modified with pyridoxal 5'-phosphate and cleaved with cyanogen bromide. The amino-acid sequence of the adrenoferredoxin-binding peptide was identified. The peptide accounted for 95% of the sugar content of the NADPH-adrenoferredoxin reductase.
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PMID:Adrenoferredoxin-binding peptide of NADPH-adrenoferredoxin reductase. 335 38

Cell-free extracts of Thermus thermophilus HB8 catalyze the in vitro, NADH-dependent reduction of potassium tellurite (K2TeO3). Three different protein fractions with tellurite-reducing activities were identified. Two exhibited high molecular weight and were composed of at least two different polypeptides. The protein in the third fraction was purified to homogeneity and had a single polypeptide chain of 53 to 54 kilodaltons, with an isoelectric point of 8.1. Each enzyme was thermostable, the temperature optimum was 75 degrees C, and 30 mM NaCl, 1.5 M urea, or 0.004% sodium dodecyl sulfate caused 50% inhibition of the enzymes. However, 2% Triton X-100 did not have an inhibitory effect. The enzymes were also able to catalyze the reduction of sodium selenite and sodium sulfite in vitro. NADH was replaceable by NADPH. Divalent cations, such as Ca2+ and Ba2+, had no effect on the activity, while similar concentrations of Zn2+, Ni2+, and Cu2+ abolished the activity. This reductase activity could enable these bacteria both to reduce K2TeO3 and to increase their tolerance toward this salt.
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PMID:Purification and biochemical characterization of tellurite-reducing activities from Thermus thermophilus HB8. 338 10

Previous studies have demonstrated that antibodies in sera from patients with halothane hepatitis recognize halothane-induced liver microsomal polypeptide neoantigens, and have suggested that these antibodies may play a role in the pathogenesis of the hepatitis. In the present study, the mechanism of neoantigen generation was investigated. Liver microsomes from rats treated in vivo with halothane or deuterated halothane were tested by immunoblotting for reactivity with patients' sera and with an antiserum specific for the covalently bound trifluoroacetyl (TFA) halide metabolite of halothane. Rat liver microsomes incubated aerobically or anaerobically with halothane or deuterated halothane in vitro, +/- NADPH and/or NADH, were also analyzed. The results obtained demonstrate that neoantigen expression involves oxidative halothane metabolism by cytochromes P-450 to TFA halide and covalent binding of the TFA group to the proteins. Incubation of microsomes from halothane-treated rats with 1 M piperidine cleaved the TFA groups from the proteins and abolished antigenicity, confirming this conclusion. Recognition of the neoantigens by the patients' antibodies was inhibited only partially using the hapten derivative N-E-TFA-L-lysine. It appears that the patients' antibodies recognize epitopes consisting of the TFA group plus associated structural features of the protein carriers (100 kDa, 76 kDa, 59 kDa, 57 kDa and 54 kDa), not the TFA hapten alone. To our knowledge, this constitutes the first characterization of drug metabolite-tissue protein neoantigens implicated in a drug hypersensitivity. The approach described may be of general utility for characterization of drug-induced neoantigens associated with other drug hypersensitivities.
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PMID:Metabolic basis for a drug hypersensitivity: antibodies in sera from patients with halothane hepatitis recognize liver neoantigens that contain the trifluoroacetyl group derived from halothane. 338 39

We have demonstrated that the purified guanine nine nucleotide exchange factor (GEF) may be isolated as a complex with NADPH. Complete inhibition of the GEF-catalyzed exchange of eukaryotic initiation factor 2-bound GDP for GTP was observed in the presence of either 0.5-0.75 mM NAD+ or NADP+. Incubation of GEF with ATP results in the phosphorylation of its Mr 82,000 polypeptide. This phosphorylation is strongly inhibited by heparin but is not affected by heme or H8 (N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide dihydrochloride), an inhibitor of cAMP- and cGMP-dependent protein kinases and protein kinase C. The purification of GEF was modified to eliminate any contaminating kinase activity and the isolated protein appears to be homogeneous as judged by NaDodSO4/polyacrylamide gel electrophoresis and silver staining. The Mr 82,000 subunit of GEF is phosphorylated only upon addition of ATP and casein kinase II. The extent of phosphorylation is approximately equal to 0.55 mol of phosphate per mol of GEF, and this results in a 2.3-fold increase in the guanine nucleotide exchange activity. Following treatment of the phosphorylated GEF with alkaline phosphatase, the activity of the protein is reduced by a factor of 5. Rephosphorylation of GEF increases its specific activity to that of the phosphorylated protein. The results of this study suggest that phosphorylation/dephosphorylation of GEF plays a role in regulating polypeptide chain initiation.
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PMID:Phosphorylation of the guanine nucleotide exchange factor from rabbit reticulocytes regulates its activity in polypeptide chain initiation. 342 26

Prostaglandin-E2 9-ketoreductase, the enzyme which catalyzes the reaction from prostaglandin E2 (PGE2) to prostaglandin F2 alpha (PGF2 alpha), has been purified 232-fold from human uterine decidua vera. The molecular mass of the enzyme, as estimated by fast protein liquid chromatography, was 29 kDa. Sodium dodecyl sulfate disc gel electrophoresis of the denatured enzyme revealed a molecular mass of 31 kDa. These data suggest that the enzyme consists of a single polypeptide chain. The rate equation of the enzyme reaction for two substrates was used for the determination of five kinetic constants. The equilibrium constant with respect to PGE2 was 83 microM, the Michaelis constant, Km, for PGE2 was 93 microM. For NADPH, the equilibrium constant was 1.0 microM and Km was 1.6 microM. The maximal velocity for the forward reaction was V1 = 217 pmol/min. The inhibition constants for the analgesic agents indomethacin and fentiazac were Ki = 850 microM and Ki = 450 microM and for the steroid progesterone Ki = 1.5 mM, respectively. Prostaglandin-E2 9-ketoreductase might be responsible for the control of the PGE2/PGF2 alpha ratio in human decidua vera. The enzyme, therefore, might be an important factor in the cascade of events leading to uterine contractions and parturition.
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PMID:Prostaglandin-E2 9-ketoreductase from human uterine decidua vera. 345 56

An enzymatic system in rat liver microsomal preparations has been detected that catalyzes the transfer of the 2'-phospho-AMP moiety from NADP to endogenous polypeptides; the major acceptor is a polypeptide of about 40 kDa (p40). Modification of the acceptor by 2'-phospho-AMP residues was deduced from the simultaneous transfer of 2'-[33P]phosphate and [3H]adenine residues from double-labeled NADP, while no incorporation of radioactivity into p40 was seen with NADP species labeled in the NMN moiety. The true substrate of this phosphoadenylylation reaction was 2'-phospho-ADP-ribose rather than NADP, because labeled phospho-ADP-ribose was as efficient as or more efficient than NADP in forming modified p40. Also, NADP was rapidly converted to phospho-ADP-ribose during incubation with microsomes. Furthermore, isonicotinic acid hydrazide, an inhibitor of NADP glycohydrolase, prevented phosphoadenylylation from NADP, but not from phospho-ADP-ribose, and glycohydrolase-resistant NADPH could not substitute for NADP. Transferase activity was found in liver and brain microsomes and, to a smaller extent, in the cytosol fractions. In Ehrlich ascites tumor cells, most of the activity resided in the cytosol, from which it could be partially purified. The apparent Km for phospho-ADP-ribose was about 2 X 10(-4) M, and the pH optimum was around 7. Divalent cations like Mg2+ and Mn2+ inhibited the reaction. In all compartmental preparations, activity was eliminated by heating or short treatment with alkali or acid. In submitochondrial particles from rat liver, a system with different characteristics led to the phosphoadenylylation of several endogenous polypeptides.
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PMID:2'-Phosphoadenylylation of eukaryotic proteins: a type of covalent modification. 346 93

The guanine nucleotide exchange factor (GEF) was purified to apparent homogeneity from postribosomal supernatants of rabbit reticulocytes by chromatography on DEAE-cellulose and phosphocellulose, fractionation by glycerol gradients, and chromatography on Mono S and Mono Q (Pharmacia). At the Mono S step GEF is isolated as a complex with the eukaryotic polypeptide chain initiation factor 2 (eIF-2) and is separated from this factor by column chromatography on Mono Q. An emission spectrum characteristic of a reduced pyridine dinucleotide was observed when GEF was subjected to fluorescence analysis. By both coupled enzymatic analysis and chromatography on reverse-phase or Mono Q columns, the bound dinucleotide associated with GEF was determined to be NADPH. The GEF-catalyzed exchange of eIF-2-bound GDP for GTP was markedly inhibited by NAD+ and NADP+. This inhibition was not observed in the presence of equimolar concentrations of NADPH. Similarly, the stimulation of ternary complex (eIF-2 X GTP X Met-tRNAf) formation by GEF in the presence of 1 mM Mg2+ was abolished in the presence of oxidized pyridine dinucleotide. These results demonstrate that pyridine dinucleotides may be directly involved in the regulation of polypeptide chain initiation by acting as allosteric regulators of GEF activity.
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PMID:The association of NADPH with the guanine nucleotide exchange factor from rabbit reticulocytes: a role of pyridine dinucleotides in eukaryotic polypeptide chain initiation. 346 24

A new FAD-dependent monooxygenase, 4-aminobenzoate hydroxylase that catalyzes the decarboxylative hydroxylation of 4-aminobenzoate and forms 4-hydroxyaniline in the presence of NAD(P)H and O2 has been purified to homogeneity by ammonium sulfate fractionation, affinity chromatography, chromatofocusing, and Sephadex G-100 chromatography from Agaricus bisporus, a common edible mushroom. The molecular weight of the enzyme, which consists of a single polypeptide, is 49,000. The enzyme contains 0.91 mol of FAD/mol of enzyme. Stoichiometric studies show that 1 mol of 4-aminobenzoate is converted to an equimolecular amount of 4-hydroxyaniline and CO2 with the consumption of 1 mol each of NADH and molecular oxygen. Results obtained isotopically with 18O2 show that one atom of molecular oxygen is incorporated into 4-hydroxyaniline formed from 4-aminobenzoate. The enzyme is most active between pH 6.5 and 8.0 in the oxidation of NADH and between pH 6.0 and 7.5 in the case of NADPH. The Km values for 4-aminobenzoate, NADH, and O2 are 20.4, 13.6, and 200 microM, respectively, and that for NADPH is 133 microM. Other substituted benzoates with free amino and carboxyl groups in the ortho or para position (e.g. 4-aminosalicylate and anthranilate) serve as substrates for hydroxylation, but, in these cases, H2O2 is formed simultaneously with the hydroxylation. The enzyme is insensitive to the chelators of iron and copper, sodium arsenite, and KCN. Heavy metal ions and p-chloromercuribenzoate severely inhibit the enzyme enzyme
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PMID:Purification and properties of 4-aminobenzoate hydroxylase, a new monooxygenase from Agaricus bisporus. 348 13


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