EC:3.4.21.4 - FACTA Search

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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)

1. Chymotrypsin treatment of chloroplast membranes inactivates Photosystem II. The inactivation is higher when the activity is measured under low intensity actinic light, suggesting that primary photochemistry is preferentially inactivated. 2. Membrane stacking induced by Mg2+ protects Photosystem II against chymotrypsin inactivation. When the membranes are irreversible unstacked by brief treatment with trypsin, Mg2+ protection against chymotrypsin inactivation of Photosystem II is abolished. 3. The kinetics of inactivation by chymotrypsin of Photosystem II indicates that membrane stacking slows down, but does not prevent, the access of chymotrypsin to Photosystem II, which is mostly located within the partition zones. 4. It is concluded that a partition gap exists between stacked membranes of about 45 A, the size of the chymotrypsin molecule. 5. The kinetics of inhibition of the chloroplast flavoprotein, ferredoxin-NADP reductase, bt its specific antibody is not affected by membrane stacking. This indicates that this enzyme is located outside the partition zones.
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PMID:Partition zone penetration by chymotrypsin, and the localization of the chloroplast flavoprotein and photosystem II. 44 96

NADPH-cytochrome P-450 reductase was isolated from liver microsomes of phenobarbital-induced rats. The enzyme exhibits an apparent minimal molecular weight of 76,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and contains 1 molecule each of FMN and FAD. Trypsin treatment of the reductase yields an enzyme with an apparent minimal molecular weight of 69,000 which retains the ability to reduce cytochrome c but has no activity toward cytochrome P-450. Various spectrophotometric titrations were performed to examine the electron-accepting properties of the purified NADPH-cytochrome P-450 reductase and, in particular, to determine the oxidation state of the stable semiquinone form produced by air oxidation of NADPH-reduced enzyme. Titration of the air-stable semiquinone form of the reductase with ferricyanide indicated that 1 mol/2 mol of flavin was required for complete oxidation. Furthermore, a spectrum corresponding to that of the air-stable semiquinone form was produced by the addition of approximately 0.5 mol of reductant/2 mol of flavin when the oxidized enzyme was titrate with NADPH or dithionite under anaerobic conditions. The spectral changes which accompanied the overall reduction of oxidized enzyme to the reduced form with dithionite produced four sets of isosbestic points, and the spectrophotometric titration curve consisted of four approximately equal phases. In the titration with NADPH, no significant further reduction was observed after the addition of approximately 1.5 mol/2 mol of flavin. However, the enzyme was fully reduced by NADPH when an NAPH-generating system was used to prevent the accumulation of NADP. Our results establish that the air-stable semiquinone form is a 1-electron-reduced form, rather than a half-reduced (2-electron-reduced) form as maintained by others and are in agreement with earlier studies (Iyanagi, T., Makino, N., and Mason, H.S. (1974) Biochemistry 13, 1701-1710) with the purified trypsin-solubilized reductase. Accordingly, the air-stable species represents a form of the NADPH-cytochrome P-450 reductase in which one of the two flavins exists in the semiquinone state and the other in the oxidized state.
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PMID:Purified liver microsomal NADPH-cytochrome P-450 reductase. Spectral characterization of oxidation-reduction states. 63 95

Two therapeutic regimens were compared in 16 infants with protracted diarrhea and malnutrition. Eight patients were treated with total parenteral nutrition given via a central vein (group A); the remaining eight patients received a combination of dilute parenteral nutrients given in a peripheral vein plus continuous enteral feedings of an elemental diet (group B). All patients recovered although two infants in group B were switched to TPN treatment after a poor response to the elemental diet. Intestinal biopsies were performed: (1) before treatment; (2) after 2 to 3 weeks of TPN or elemental diet; and (3) after 2 to 3 weeks of Nutramigen feedings. Before treatment, all patients had atrophic changes in the jejunal epithelium and deficient disaccharidase and trypsin activities. The second biopsy showed morphologic recovery in all patients, incomplete recovery of lactase and trypsin in both treatment groups, and complete recovery of sucrase and maltase activities only in group B patients. The third biopsy showed normal morphology and complete recovery of all enzymes measured. The mean number of hospital days was 46 +/- 4.8 for group A and 34 +/- 1.6 for group B (p less than 0.05) suggesting that patients given enteral feedings early tended to have a more rapid return of intestinal function and of some intestinal enzymes.
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PMID:Protracted diarrhea and malnutrition in infancy: Changes in intestinal morphology and disaccharidase activities during treatment with total intravenous nutrition or oral elemental diets. 81 May 53

This paper reports the purification and the properties of a thioredoxin from the fungus Aspergillus nidulans. This thioredoxin is an acidic protein which exhibits an unusual fluorescence emission spectrum, characterized by a high contribution of tyrosine residues. Thioredoxin from A. nidulans cannot serve as a substrate for Escherichia coli thioredoxin reductase. Corn NADP-malate dehydrogenase is activated by this thioredoxin in the presence of dithiothreitol, while fructose-1,6-bisphosphatase is not. The amino acid sequence of Aspergillus thioredoxin was determined by automated Edman degradation after cleavage with trypsin, SV8 protease, chymotrypsin and cyanogen bromide. The masses of tryptic peptides were verified by plasma-desorption mass spectrometry. The mass of the protein was determined by electrospray mass spectrometry and shown to be in agreement with the calculated mass derived from the sequence (M(r) = 11,564). Compared to thioredoxins from other sources, the protein from A. nidulans displays a maximal sequence similarity with that from yeast (45%).
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PMID:Purification, properties and primary structure of thioredoxin from Aspergillus nidulans. 145 27

Binding of NADP to glucose-6-phosphate dehydrogenase (G6PD) from Dicentrarchus labrax liver has stabilized its native structure against thermal inactivation, guanidine hydrochloride unfolding and inactivation by tryptic digestion. The time-course of G6PD inactivation by guanidine hydrochloride in the presence of NADP has provided experimental evidence in favor of a conformational drift upon NADP binding to the bass enzyme. Based on the inactivation patterns obtained when the enzyme was treated with guanidine hydrochloride and trypsin, it is proposed that the enzyme conformation induced upon NADP binding is in slow equilibrium with the conformation stabilized in the absence of NADP. FPLC studies have shown that micromolar concentrations of NADP induced oligomerization of G6PD. In addition, the different K0.5 values of NADP binding to the enzyme, ranging from 1-2 microM (from trypsin inactivation) to 90 microM (from titration of the intrinsic fluorescence), suggest a step-wise binding of NADP to the oligomer, with negative cooperativity in the saturation process.
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PMID:Unfolding and trypsin inactivation studies reveal a conformation drift of glucose-6-phosphate dehydrogenase upon binding of NADP. 163 1

Escherichia coli RH1 contains a mutation causing complete loss of pyridine nucleotide transhydrogenase activity. A single base change in the chromosomal DNA resulted in the replacement of Gly314 of the beta subunit by a Glu residue. The mutant enzyme was partially purified and its trypsin cleavage products examined. The distinct pattern of polypeptides given by proteolysis of the normal transhydrogenase in the presence of NADP(H) was absent when the mutant enzyme was treated with trypsin. However, the beta subunit of the mutant enzyme retained its ability to bind to NAD-agarose. Further substitutions were made at Gly314 converting it to Ala, Val or Cys by the use of site-directed mutagenesis. All substitutions for Gly314 abolished the activity completely. The enzyme containing the Gly314----Ala mutation was studied in detail and behaved exactly as the enzyme containing the Gly314----Glu mutation. It is concluded that the mutation in the beta subunit abolished the NADP(H)-induced conformational change in the mutant enzyme. This conformational change, caused by NADP(H) binding, is required to cleave the normal beta subunit at Arg265 by trypsin. The genes encoding the pyridine nucleotide transhydrogenase were completely resequenced and several corrections have been made to the previously published sequence [Clarke et al. (1986) Eur. J. Biochem. 158, 647-653].
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PMID:A mutation at Gly314 of the beta subunit of the Escherichia coli pyridine nucleotide transhydrogenase abolishes activity and affects the NADP(H)-induced conformational change. 163 24

The mitochondrial proton-translocating nicotinamide nucleotide transhydrogenase is embedded in the inner membrane as a homodimer of monomer Mr = 109,288. Its N-terminal 430 residues and C-terminal 200 residues protrude into the matrix, whereas its central 400 residues appear to intercalate into the inner membrane as 14 hydrophobic clusters of about 20 residues each (Yamaguchi, M., and Hatefi, Y. (1991) J. Biol. Chem. 266, 5728-5735). Treatment of mitoplasts (mitochondria denuded of outer membrane) with several proteolytic enzymes cleaves the transhydrogenase into a 72-kDa N-terminal and a 37-kDa C-terminal fragment. The cleavage site of proteinase K was determined to be Ala690-Ala691, which is located in a small loop of the transhydrogenase exposed on the cytosolic side of the inner membrane. This paper shows that the bisected transhydrogenase can be purified from proteinase K-treated mitoplasts with retention of greater than or equal to 85% transhydrogenase activity. The inactivation rate of the bisected enzyme by trypsin and N-ethylmaleimide was altered in the presence of NADP and NADPH, suggesting substrate-induced conformation changes similar to those reported previously for the intact transhydrogenase. Also, like the intact enzyme, proteoliposomes of the bisected transhydrogenase were capable of membrane potential formation and internal acidification coupled to NADPH----NAD transhydrogenation. The properties of the bisected transhydrogenase have been discussed in relation to those of the two-subunit Escherichia coli transhydrogenase, the bisected lac permease (via gene restriction), and the fragmented and reconstituted bacteriorhodopsin.
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PMID:Mitochondrial energy-transducing nicotinamide nucleotide transhydrogenase. Purification and properties of the proteinase K-bisected enzyme. 165 21

Fluorescein 5'-isothiocyanate binds almost selectively at the active site of lamb liver NADP-dependent 6-phosphogluconate dehydrogenase causing the inactivation of the enzyme. The substrate and the coenzyme protect against the loss of catalytic activity. The enzyme derivative was digested with trypsin, the labelled peptide was isolated by h.p.l.c. and its amino acid analysis allowed to establish that the inactivator binds to lysine 166 at the active site of the protein.
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PMID:Identification of the lysine residue involved in the inactivation of lamb liver 6-phosphogluconate dehydrogenase by fluorescein 5'-isothiocyanate. 181 97

Pig heart NADP-specific isocitrate dehydrogenase is inactivated by N-ethylmaleimide (NEM) (Colman, R. F., and Chu, R. (1970) J. Biol. Chem. 245, 601-607), and is completely protected against inactivation, but not against the incorporation of NEM, by isocitrate plus Mn2+. We have now treated the enzyme with [3H]NEM in the absence and presence of isocitrate plus Mn2+, digested it with trypsin, and isolated and sequenced the labeled Cys peptides. In the inactive enzyme, two major peptides, SSGGFVWACK and DLAGCIHGLSNVK, and two minor peptides, CATITPDEAR and EPIICK, were labeled at Cys. Upon reaction with [3H]NEM in the presence of isocitrate plus Mn2+, full catalytic activity was retained and only DLAGCIHGLSNVK was labeled; the Cys of this peptide is therefore not essential for catalysis. The modification of SSGGFVWACK appears to be the major cause of inactivation by NEM. The Cys in SSGGFVWACK may have a catalytic role, most likely in the strengthened binding of Mn2+ in the presence of isocitrate. Isocitrate dehydrogenase was carboxymethylated under denaturing conditions with [14C]iodoacetate and digested with trypsin; 6 unique labeled Cys peptides, containing 6 unique Cys residues, were purified and sequenced. Six corresponding peptides were isolated from enzyme treated under denaturing conditions with [3H]NEM. These results eliminate the previous uncertainty regarding the number of Cys residues in the enzyme. A comparison of the sequences of the NH2-terminal 30 residues and the 6 Cys peptides of the pig heart NADP-dependent isocitrate dehydrogenase with the Escherichia coli NADP enzyme provides evidence for great dissimilarity between the two enzymes.
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PMID:Cysteinyl peptides of pig heart NADP-dependent isocitrate dehydrogenase that are modified upon inactivation by N-ethylmaleimide. 186 31

Thioredoxin, reduced either enzymatically with NADPH and NADP-thioredoxin reductase or chemically with dithiothreitol, reduced alpha-amylase and trypsin inhibitor proteins from several sources. Included were cystine-rich seed representatives from wheat (alpha-amylase inhibitors), soybean (Bowman-Birk trypsin inhibitor), and corn (kernel trypsin inhibitor). This system also reduced other trypsin inhibitors: the soybean Kunitz inhibitor, bovine lung aprotinin, and egg white ovoinhibitor and ovomucoid proteins. The ability of these proteins to undergo reduction by thioredoxin was determined by 1) a coupled enzyme activation assay with chloroplast NADP-malate dehydrogenase or fructose-1,6-bisphosphatase, 2) a dye reduction assay with 5',5'-dithiobis(2-nitrobenzoic acid), and 3) a direct reduction method based on the fluorescent probe, monobromobimane, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Reduction experiments with the seed proteins were carried out with thioredoxin from wheat germ (h-type) or Escherichia coli; the corresponding experiments with the animal trypsin inhibitors were carried out with thioredoxin from calf thymus or E. coli. In all cases, thioredoxin appeared to act catalytically; the reduced form of glutathione was without effect. When considered in conjunction with earlier results on purothionin (confirmed and extended in the current study), the new findings suggest that the NADP/thioredoxin system functions in the reduction of protein inhibitors of seeds and animal tissues. These results also raise the question of the occurrence of glutaredoxin in plants, as E. coli glutaredoxin was found to promote the reduction of some but not all of the proteins tested.
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PMID:Role of the NADP/thioredoxin system in the reduction of alpha-amylase and trypsin inhibitor proteins. 187 51

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