Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reduction of ferric iron in the presence of HuTu 80 cells or duodenal microvillus membranes (MVMs) was investigated. With both systems, NADH-dependent reduction of Fe3+/NTA (nitrilotriacetic acid) was demonstrated, using the ferrous iron chelator ferrozine. Uptake of Fe3+ from Fe3+/NTA by HuTu 80 cells was strongly inhibited by addition of ferrozine, indicating that Fe2+ is the substrate for the iron uptake system. With isolated plasma membranes it is shown that the reductase activity is sensitive to trypsin and incubation at 65 degrees C. The reductase activity could be extracted from the plasma membrane and partially purified by ammonium sulphate precipitation and isoelectric focusing. From the purification and inhibition characteristics we conclude that reduction of ferric iron on the surface of duodenal plasma membranes is catalysed by a membrane protein.
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PMID:Characterization and partial purification of a ferrireductase from human duodenal microvillus membranes. 763 88

High levels of conversion of 14C-labelled pristinamycin IIB (PIIB) to pristinamycin IIA (PIIA) were obtained in vivo in Streptomyces pristinaespiralis and in some other streptogramin A producers. This established that PIIB was an intermediate on the pathway to PIIA. In addition, in vitro studies with cell-free protein preparations demonstrated that the oxidation of PIIB to PIIA is a complex process requiring NADH, riboflavin 5'-phosphate (FMN), and molecular oxygen. Two enzymes were shown to be necessary to catalyze this reaction. Both were purified to homogeneity from S. pristinaespiralis by a coupled enzyme assay based on the formation of PIIA and by requiring addition of the complementing enzyme. One enzyme was purified about 3,000-fold by a procedure including a decisive affinity chromatography step on FMN-agarose. It was shown to be a NADH:FMN oxidoreductase (E.C. 1.6.8.1.) (hereafter called FMN reductase), providing reduced FMN (FMNH2) to the more abundant second enzyme. The latter was purified only 160-fold and was called PIIA synthase. Our data strongly suggest that this enzyme catalyzes a transient hydroxylation of PIIB by molecular oxygen immediately followed by a dehydration leading to PIIA. The native PIIA synthase consists of two different subunits with Mrs of around 50,000 and 35,000, as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, while the FMN reductase seems to be a monomer with a Mr of around 28,000 and containing one molecule of tightly bound FMN. Stepwise Edman degradation of the entire polypeptides or some of their trypsin-digested fragments provided amino acid sequences for the two isolated proteins.
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PMID:Purification of the two-enzyme system catalyzing the oxidation of the D-proline residue of pristinamycin IIB during the last step of pristinamycin IIA biosynthesis. 766 8

Recently we have proposed and presented evidence suggesting the existence of a "bi-trans-membrane" electron transport chain, located at the contact sites between outer and inner mitochondrial membranes, which can be utilized to promote either the oxidation of exogenous NADH in the presence of catalytic amounts of added cytochrome c or the reduction of exogenous cytochrome c supported by the oxidation of respiratory substrates present inside the mitochondria. Here we show that the oxidation of exogenous NADH is accompanied by a net alkalinization of the incubation medium preceded by a transient acidification phase. In oxygen-pulse experiments, the alcohol oxidation (induced by the addition of alcohol dehydrogenase) was used to mimic a cytosolic source of reducing equivalents. Oxygen pulses promote an acidification-alkalinization proton cycle which is insensitive to antimycin and myxothiazol inhibitory effect, is stimulated by valinomycin, inhibited by trypsin-aprotinin complex, abolished by the protonophore carbonyl cyanide-p-trifluoromethoxy phenylhydrazone (FCCP), and is absent or at least inverted (alkalinization-acidification cycle) in broken mitochondria. The oxidation of cytosolic substrates, mediated by the bi-trans-membrane electron transport chain, does not involve endogenous cytochrome c and is associated with a vectorial proton translocation from the inside to the outside of the mitochondria. In the out-->in electron transport pathway the components involved appear to be cytosolic reduced substrates-->NADH produced by cytosolic dehydrogenases activity-->NADH-cytochrome b5 oxidoreductase complex leaning out the external side of the external membrane-->exogenous cytochrome c-->cytochrome oxidase of contact sites-->molecular oxygen. The possible components of the in-->out pathway are matrix respiratory substrates-->primary dehydrogenases of the matrix-->Complexes I, II, and III of the respiratory chain present in the inner membrane-->NADH-cytochrome b5 oxidoreductase system of the external membrane-->exogenous cytochrome c-->additional cytosolic electron acceptors or, alternatively, cytochrome oxidase of contact sites. The two pathways can be considered a bi-trans-membrane electron channeling system which, at the level of bridges set up by the contact points between the outer and the inner mitochondrial membrane, may represent a link between the redox processes occurring inside with those present outside the mitochondrion.
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PMID:Proton translocation linked to the activity of the bi-trans-membrane electron transport chain. 777 4

Active-site amino acid residues of human type II inosine 5'-monophosphate dehydrogenase (IMPDH) were investigated using the covalent modification reagents 6-chloroinosine 5'-monophosphate (6-Cl-IMP) and iodoacetamide. IMPDH was incubated with these reagents in the presence and absence of IMP, NAD, and NADH, and the activity of the enzyme for IMP dehydrogenation or 2-Cl-IMP dehalogenation was followed. IMPDH activity was rapidly lost when the enzyme was incubated with the IMP analog, 6-Cl-IMP, or with iodoacetamide. The enzyme was protected against inactivation in the presence of the substrate IMP. It was not protected against inactivation by NAD alone. Saturating concentrations of IMP and NADH reduced the inactivation rate by about the same amount as with IMP alone. IMPDH samples labeled with 6-Cl-IMP and an unlabeled control were alkylated with iodoacetamide, digested with trypsin, and analyzed by HPLC-mass spectrometry (HPLC-MS). All eight cysteines of human type II IMPDH were found to exist as free sulfhydryls on the active, unlabeled form of the enzyme. At an enzyme/inactivator ratio of 1:4, only one cysteine residue, Cys-331, was found to be covalently modified by 6-Cl-IMP. From the results of the substrate protection experiments and HPLC-MS data, it is concluded that 6-Cl-IMP binds in the IMP binding site of IMPDH and reacts covalently with Cys-331 to form a purine riboside 5'-monophosphate-enzyme adduct.
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PMID:Probing the active site of human IMP dehydrogenase using halogenated purine riboside 5'-monophosphates and covalent modification reagents. 790 43

Proteolysis of the hydroxylase component of soluble methane monooxygenase (MMO) with trypsin yielded a protein which retained 50% activity in a standard MMO assay. In an H2O2-driven assay, in which H2O2 replaced two of the protein components, NADH and O2 used in the standard assay, the proteolysed hydroxylase retained full activity for ethane, propane and propene, but had a 2-3-fold increase with methane as substrate. Several crosslinking reagents have been tested for their ability to stabilise the proteolysed form of the hydroxylase. Using polyoxyethylene bis(imidazolyl carbonyl) (M(r) 3350) as the crosslinking agent, increased thermostability of the hydroxylase was observed. Activated methoxypolyethylene glycol (M(r) 5000) was used to modify the hydroxylase which was now soluble in organic solvents as well as water and could be activated by H2O2. The glycol-modified hydroxylase functioned well in organic solvents in the catalysis of propene oxidation.
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PMID:Chemical modification of the hydroxylase of soluble methane monooxygenase gives one form of the protein with significantly increased thermostability and another that functions well in organic solvents. 791 86

Photoaffinity labeling of ovine prolactin with the NAD+ photoaffinity analog [alpha-32P]nicotinamide-2-azidoadenine dinucleotide has been used to identify an NADH/NADPH binding site. Specificity of nucleotide interaction was demonstrated by saturation and protection of labeling at physiologically relevant concentrations. Saturation of photoinsertion was observed at approximately 100 microM probe with an apparent Kd of approximately 25 microM. Protection of photoinsertion was observed with NAD+ and NADH. The photoinsertion was decreased by 75% and greater than 95%, respectively, upon addition of 200 microM of the above-mentioned compounds. The protection obtained with NADP+ and NADPH was of the same order, respectively. The adenine ring binding domain of NADH/NADPH binding site was identified by trypsin and chymotrypsin digestion of the photolabeled prolactin and purification of the photolabeled peptide by boronate affinity chromatography and immobilized Fe3+ affinity chromatography. The peptide was identified to be Ala22-Tyr28. These studies demonstrate that prolactin contains an NADH/NADPH binding site which may be significant in the mechanism of action of this hormone.
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PMID:Identification and characterization of a nucleotide binding site of ovine prolactin with 2-azido-NAD. 832 98

Elongation factor 2 (eEF-2) can interact not only with guanylic nucleotides but also with adenylic ones, as was shown by intrinsic fluorescence quenching studies [Sontag, B., Reboud, A.M., Divita, G., Di Pietro, A., Guillot, D. & Reboud, J.P. (1993) Biochemistry 32, 1976-1980]. Here we studied sites of these interactions by using photoactivable 8-azido-[gamma-32P]GTP and 8-azido-[gamma-32P]ATP. Photoincorporation of the radioactive GTP derivative into eEF-2 was prevented by the previous addition of GTP and GDP. The addition of adenylic nucleotides (ATP, ADP) and some adenylic derivatives [NAD+, NADH,poly(A)] decreased the photoincorporation by only 40% at most. However, photoincorporation of the radioactive ATP derivative was prevented by the previous addition not only of adenylic compounds [ATP, ADP, NAD+, NADH, poly(A)] but also of GTP and GDP. Photoincorporation of radioactive nucleotide derivatives was not decreased by the addition of other nucleotidic compounds [UTP, poly(U), ITP, NADP+, NADPH]. ATP and GTP acted as non-competitive inhibitors of the photoincorporation of 8-azido-[gamma-32P]GTP and 8-azido-[gamma-32P]ATP, respectively. eEF-2 photolabeled with these radioactive nucleotide derivatives was submitted to trypsin digestion under different conditions and the labeled peptidic fragments identified after HPLC purification and gel electrophoresis by N-terminal sequencing. An octapeptide, Y264FDPANGK271, was the only peptide photolabeled with 8-azido-[gamma-32P]GTP whereas a N-terminal fragment of about 7 kDa was the only one photolabeled with 8-azido-[gamma-32P]ATP. The different results support the hypothesis that guanylic and adenylic nucleotides do not interact with the same site of eEF-2.
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PMID:Photoaffinity labeling of elongation factor-2 with 8-azido derivatives of GTP and ATP. 861 59

Hereditary methemoglobinemia due to reduced nicotinamide adenine dinucleotide (NADH) cytochrome b5 reductase (b5R) deficiency is classified into two types, an erythrocyte (type I) and a generalized (type II). We investigated the b5R gene of a patient with type II from a white United Kingdom (UK) family and found that the patient was a compound heterozygote for two novel mutations. The first mutation was a C-to-A transversion changing codon 42 (TAC: Tyr) to a stop codon in the one allele. From this mutant allele, the product without the catalytic portion of the enzyme is generated. The second one was a missense mutation at codon 95 (CCC-->CAC) in the other allele with the result that Pro changed to His within the flavin adenine dinucleotide (FAD)-binding domain of the enzyme. To characterize effects of this missense mutation on the enzyme function, we compared glutathione S-transferase (GST)-fused b5R with the GST-fused mutant enzyme with the codon 95 missense mutation (P95H) expressed in Escherichia coll. The mutant enzyme showed less catalytic activity, less thermostability, and a greater susceptibility to trypsin than did the normal counterpart. The absorption spectrum of the mutant enzyme in the visual region differed from that of the wild-type. These results suggest that this amino acid substitution influences both secondary structure and catalytic activity of the enzyme. The compound heterozygosity for the nonsense and the missense mutations apparently caused hereditary methemoglobinemia type II in this patient.
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PMID:Two novel mutations in the reduced nicotinamide adenine dinucleotide (NADH)-cytochrome b5 reductase gene of a patient with generalized type, hereditary methemoglobinemia. 887 22

The present paper describes the sensitivity of the mitochondrial nicotinamide nucleotide transhydrogenase (EC 1.6.1.1) to oxidative modification, and the effects of endogenous ubiquinol on this modification. A comparison is made between the effects of treatment with ADP-Fe3+ and ascorbate and with peroxynitrite, using kinetic, electrophoretic, and immunological analyses, together with lipid peroxidation measurements. The transhydrogenase was inactivated by both types of oxidative modification, but apparently through different mechanisms. Ubiquinol protected the enzyme against inactivation only when the modification was caused by ADP-Fe3+ and ascorbate treatment. Kinetic measurements revealed a threefold increase of the Km value of the enzyme for NADPH after exposure to ADP-Fe3+ and ascorbate, and a twofold increase of the Km values for both NADH and NADPH after exposure to peroxynitrite. NAD(H) exerted a protection against trans-hydrogenase inactivation when added to the preincubation in the case of peroxynitrite, but neither NAD(H) or NADP(H) protected in the case of ADP-Fe3+ and ascorbate. Using immunoblotting it was shown that the enzyme became both aggregated and fragmented, although to different extents, depending on the oxidative system used. Again, ubiquinol prevented these effects only in the case of ADP-Fe3+ and ascorbate treatment. Furthermore, there occurred a striking decrease in the 66-kDa trypsin fragment after exposure of the enzyme to ADP-Fe3+ and ascorbate, and of the 48-kDa trypsin fragment after exposure to peroxynitrite. It is concluded that the mitochondrial nicotinamide nucleotide transhydrogenase is sensitive to oxidative stress and that the mechanism underlying this can vary according to the challenge to which the enzyme is exposed. Endogenous ubiquinol may play a role in protecting the enzyme against agents perturbing the lipid phase of the membrane.
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PMID:Oxidative modification of nicotinamide nucleotide transhydrogenase in submitochondrial particles: effect of endogenous ubiquinol. 895 Oct 41

Treatment of red cell ghosts with ozone inhibited both AChE (marking the outside of the membrane) and G3PDH (marking the inside of the membrane). There was no change in tryptophan fluorescence of the ghosts after the ozone treatment. Band 3 protein was isolated from the ozone-treated ghosts. The protein was digested with trypsin to obtain water soluble peptides from the cytoplasmic N-terminal tail and the interhelical loops. Fluorescent peptides included GWVIHPLGLR from the outer loop between helices 7 and 8, and peptide WMEAAR from the N-terminal cytoplasmic tail. Neither one of these peptides was oxidized by ozone. This was true whether or not the ghosts were sealed. We conclude that the position of these tryptophans either in the membrane structure, or because of binding to other proteins in the cytoplasmic tail, protects them from oxidation by ozone. Treatment of horse heart cytochrome c with ozone did not change the absorbance spectrum in the heme region or the tryptophan absorbing region. HPLC of the ozone-treated cytochrome c showed that cytochrome c was being modified, indicated by a change in the elution time. Treatment of cytochrome c with ozone did not change the activity in the NADH-cytochrome c reductase assay. Digestion of the ozone-treated cytochrome c with trypsin gave peptides which demonstrated normal fluorescence. (Cytochrome c has abnormally low fluorescence, which is not changed by ozone exposure.) The peptides were separated by HPLC. The fluorescence of the tryptophan-containing peptide (GITWK) was not decreased by treatment of the cytochrome c by ozone. Amino acid analysis of the ozone-treated cytochrome c indicated that methionine was oxidized. We conclude that tryptophan in cytochrome c is protected from oxidation by ozone because of the interaction with the porphyrin ring. Bovine serum albumin and human serum albumin were treated with ozone. There was a monotonic decrease in tryptophan fluorescence in both cases. Digestion of BSA with trypsin produced two fluorescent peptides. The peptide FWGK was identified by coelution with the authentic peptide. The putative peptide AWSVAR was not the same as the chemically synthesized peptide. The peptide sequences FWGK and "AWSVAR" were both oxidized in ozone-treated bovine serum albumin, with no detectable discrimination. Tryptic digestion of the ozone-treated human serum albumin produced a single fluorescent peptide, which was oxidized by ozone. The putative peptide AWAVAR in the tryptic digest of HSA was distinct from chemically synthesized peptide. The oxidation of tryptophans in proteins by ozone is markedly influenced by position in tertiary structure, position in membrane structure, and by chemical interactions within the protein.
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PMID:Reaction of ozone with protein tryptophans: band III, serum albumin, and cytochrome C. 902 65


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