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)

The L-(+)-Lactate:cytochrome c oxidoreductase or cytochrome b2 from the yeasts Saccharomyces cerevisiae and Hansenula anomala were partially hydrolysed in various concentrations of trypsin. Conditions were found which allowed the isolation from the Hansenula enzyme of a 140 000 +/- 10 000-dalton flavoprotein. The prosthetic flavin groups were still reducible by substrate (spectroscopic evidence) but the flavoprotein was unable to form a complex with cytochrome c, the physiological acceptor in the enzymatic reaction. No such flavoprotein units could be found during proteolysis of the Saccharomyces enzyme. The heme prosthetic group of the Hansenula enzyme remained bound to a 15 500 +/- 1000-dalton protein unit which was larger than, but very similar to, the well known 'cytochrome b2 core' of the Saccharomyces enzyme. Moreover, the degradation of different enzyme samples by contaminated proteases allowed the isolation of a particular form of Hansenula enzyme: each tetramer had, on the mean, four bound flavins and only two heme groups. These molecules completely retained their ability to form a complex with cytochrome c.
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PMID:Proteolysis of L-(+)-lactate cytochrome c oxidoreductase (cytochrome b2) extracted from Saccharomyces cerevisiae and Hansenula anomala yeasts. 19 7

Mitoplasts, that is, mitochondria freed from their outer membranes, were prepared from pig heart. Sonication induced an inversion of these mitoplasts, giving inside-out vesicles. Added cytochrome c can be bound much better to mitoplasts than to sonicated vesicles; addition of trypsin increased adenosinetriphosphatase (ATPase) (ATP phosphohydrolase; EC 3.6.1.3) activity of sonicated vesicles without significantly affecting that of the mitoplasts. Since the site of fixation of cytochrome c was located on the outer side of the inner mitochondrial membrane and since the protein inhibitor of the mitochondrial ATPase is present on the inner face of the inner membrane and is very sensitive to trypsin, it can be concluded that mitoplasts are mainly oriented as normal mitochondria while sonicated vesicles are mainly inverted. Trypsin treatment can abolish the oligomycin sensitivity of ATPase activity of either mitoplasts or sonicated vesicles. However, trypsin induced the solubilization of the soluble F(1)-ATPase of sonicated vesicles while the ATPase activity remained with the mitoplasts after trypsin action. Therefore, trypsin destroyed the oligomycin effect by rupturing the liaison between F(1) and the membrane in sonicated vesicles. On the other hand, the effect of trypsin on mitoplasts must be attributed to the hydrolysis of a protein located near the outer surface of the inner membrane that is at least structurally involved in the oligomycin sensitivity of the ATPase complex.
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PMID:Location of protein(s) involved in oligomycin-induced inhibition of mitochondrial adenosinetriphosphatase near the outer surface of the inner membrane. 20 Sep 6

1. Proteoglycan aggregates from bovine nasal cartilage were studied by using electron microscopy of proteoglycan/cytochrome c monolayers. 2. The aggregates contained a variably long central filament of hyaluronic acid with an average length of 1037nm. The proteoglycan monomers attached to the hyaluronic acid appeared as side chain filaments varying in length (averaging 249nm). They were distributed along the central filament at an average distance of about 36nm. 3. Chondroitin sulphate side chains were removed from the proteoglycan monomers of the aggregates by partial chondroitinase digestion. The molecules obtained had the same general appearance as intact aggregates. 4. Proteoglycan aggregates were treated with trypsin and the largest fragment, which contains the hyaluronic acid, link protein and hyaluronic acid-binding region, was recovered and studied with electron microscopy. Filaments that lacked the side chain extensions and had the same length as the central filament in the intact aggregate were observed. 5. Hyaluronic acid isolated after papain digestion of cartilage extracts gave filaments with similar length and size distribution as observed for the central filament both in the intact aggregate and in the trypsin digests. 6. Umbilical-cord hyaluronic acid was also studied and gave electron micrographs similar to those described for hyaluronic acid from cartilage. However, the length of the filament was somewhat shorter. 7. The electron micrographs of both intact and selectively degraded proteoglycans corroborate the current model of cartilage proteoglycan structure.
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PMID:Cartilage proteoglycan aggregates. Electron-microscopic studies of native and fragmented molecules. 21 57

Granule and post-granular-supernatant fractions were obtained from pig leucocyte cells by differential centrifugation in 0.34 M sucrose. Granule extract possesses proteinase activity at acid and at neutral pH. Three groups of neutral and a group of acid proteinases were isolated from granule extracts by chromatography on DEAE-cellulose. In the first group are present elastase-like and plasminogen-activator proteinases, that are inhibited by diisopropylphosphorofluoridate, alpha1-antitrypsin, intracellular leucocyte inhibitor and partly with p-aminomethylbenzoic acid and Trasylol. The second group of neutral proteinases is unstable under the conditions of isolation used the third group of neutral proteinases comprises collagenases that are inhibited by ethylenediamine tetraacetic acid disodium salt, alpha1-antitrypsin and leucocyte inhibitor. The acid proteinases are inhibited only with pepstatin, up to 90%. In the post-granular supernatant was found the acid proteinase activity towards hemoglobin and casein, and non-stable neutral proteolytic activity towards bovine serum albumin and serum gamma globulin. In the post-granular supernatant also the inhibitors of neutral proteinases were found. By gel filtration on Sephadex G-100 and ion-exchange chromatography on CM-cellulose two inhibitors of neutral proteinases were isolated. The majority of the inhibitor capacity (about 80%) of post-granular supernatant was eluted together with ovalbumin (Mr 43000) and the remainder with cytochrome c (12300). These inhibitors inhibit the granule neutral proteinases, acting on all substrates used, but do not inhibit granule acid proteinase. Inhibition effects of post-granular-supernatant inhibitors on trypsin and chymotrypsin were obtained only when bovine serum albumin was used as substrate. Inhibitors of post-granular supernatant are stable at pH 6-8, but unstable in the pH rnage 2-5 and are thermolabile.
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PMID:Intracellular distribution of neutral proteinases and inhibitors in pig leucocytes. Isolation of two inhibitors of neutral proteinases. 24 Jul 15

Several kinds of hydrophilic proteins were examined to determine their interaction with artificial liposomes. Mitochondrial aspartate aminotransferase (m-GOT) [EC 2.6.1.1], as well as cytochrome c, was found to interact strongly with negatively charged liposomes. In each case, an appreciable amount of the protein bound to liposomes remained unreleased after raising the salt concentration in the medium. The m-GOT tightly bound to the liposomes was also found to become latent in its enzymatic activity, and could be reversibly activated by solubilization of the liposomes with detergent. This is also the case for cytochrome c, which ceases to be reducible by external reductant, such as dithionite. Furthermore, the tightly bound m-GOT was not susceptible to the proteolytic action of trypsin, or that of Nagarse. From these observations it can be inferred that these basic proteins interact with acidic liposomes not only electrostatically but also hydrophobically. This kind of hydrophobic interaction was not observed in the combination of positively charged liposomes and acidic proteins, including s-GOT. Mitochondrial GOT was shown to be bound to isolated intact mitochondrial, but the bound enzyme was fully active, in contrast to the case of acidic liposomes. The hydrophobic interaction of water-soluble protein with liposomes is discussed in connection with the penetration of matrix enzyme through mitochondrial membranes.
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PMID:Interaction of mitochondrial aspartate aminotransferase with negatively charged lecithin liposomes. 37

Microsomal squalene epoxidase has previously been solubilized with Triton X-100 and resolved into fractions, FA and FB, by DEAE-cellulose chromatography (Ono T. and Bloch K (1975) J biol. Chem. 250, 1571-1579). It has now been found that FB is identical with NADPH-cytochrome c reductase (denoted FPT, EC 1.6.2.3). Although both NADPH and NADH served as electron donors, the former was preferred for squalene epoxidase activity in the reconstituted system of FA and FB. FB is characterized by its ability to reduce cytochrome c by NADPH. In place of FB, partially purified FPT was tested for its ability to support squalene epoxidation in the presence of FA. A stepwise purification of the deoxycholate-solubilized FPT yielded an increase in specific FPT activity with a parallel increase in squalene epoxidase activity. Bromelain-solubilized FPT was less effective. Rabbit antisera preparations to the purified FPT solubilized with trypsin were shown to inhibit concomitantly FPT activity and squalene epoxidase activity. These observations support the concept that squalene epoxidation is primarily mediated via a flavoprotein, NADPH-cytochrome c reductase, and a terminal oxidase, squalene epoxidase, which is distinct from cytochrome P-450.
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PMID:Involvement of NADPH-cytochrome c reductase in the rat liver squalene epoxidase system. 40 52

We have characterized an unusual yeast phase specific protein from Histoplasma capsulatum. The protein, which we have called protein 6, is produced by the yeast cells which have been derepressed for sulfite reductase, and it can account for more than 40% of the total extract protein. Synthesis of both sulfite reductase and protein 6 is subject to cysteine repression. However, sulfite reductase activity is maximal in logarithmically growing cells whereas protein 6 is synthesized de novo and accumulated by stationary phase cells. The following are the major physicochemical properties of protein 6: (1) the native protein has a molecular weight of about 15 000; (2) electrophoresis on a sodium dodecyl sulfate polyacrylamide gel yielded a single band with a molecular weight 7600; (3) protein 6 is capable of reducing the dye, nitroblue tetrazolium, and cytochrome c, a property that has been found to be shared by a number of trypsin inhibitors, and (4) the molecule is negatively charge and is relatively resistant to proteolysis. The amino acid composition of protein 6 has been determined.
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PMID:Characterization of a yeast phase specific protein from a fungus, Histoplasma capsulatum. 51 4

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

Intact microsomal vesicles from rat liver were subjected to combined treatment with trypsin and an unspecific protease and were also examined after reaction with the chemical probe p-diazobenzene sulfonate. In addition, the latency of various enzymes in intact microsomal vesicles has been investigated. All microsomal electron transport enzymes studied, i.e. NADH-ferricyanide and cytochrome c reductases, cytochrome b5, NADPH-cytochrome c reductase and cytochrome P-450, were either solubilized or inactivated by one or both treatments. The experimental data indicate that UDPglucuronyl-transferase is also localized at the outer surface of microsomes. In contrast, a number of hydrolytic enzymes are apparently located inside the permeability barrier of the membrane and presumably at the inner surface. Under conditions where the levels of electron transport enzyme activities or amounts are changed, such as in newborn rats and rats treated with phenobarbital or methylcholanthrene, the intramembranous position of these enzymes is the same as in control adult rats. This indicates that the enzyme molecules are not relocated after their insertion into the membrane.
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PMID:Investigation of the transverse topology of the microsomal membrane using combinations of proteases and the non-penetrating reagent diazobenzene sulfonate. 66 58

D-beta-Hydroxybutyrate dehydrogenase of beef heart mitochondria is a lipid-requiring enzyme, bound to the inner membrane. The orientation of this enzyme in the membrane has been studied by comparing the characteristics of the enzyme in mitochondria and 'inside-out' submitochondrial vesicles. We observe that the enzymic activity is (1) latent in intact mitochondria; (2) relatively stable to trypsin digestion in mitochondria but rapidly inactivated in submitochondrial vesicles by this treatment; and (3) released more rapidly from submitochondrial vesicles by phospholipase A2 digestion than from mitochondria. Conclusive evidence that D-beta-hydroxybutyrate dehydrogenase is localized on the matrix face of the mitochondrial inner membrane is provided by the correlation that the enzyme is released from submitochondrial vesicles before the membrane becomes leaky to cytochrome c. The arrangement of D-beta-hydroxybutyrate dehydrogenase in the membrane is discussed within a generalized classification of the orientation of proteins in membranes. The evidence indicates that D-beta-hydroxybutyrate dehydrogenase is an amphipathic molecule and as such is inlaid in the membrane, i.e. the enzyme is partially inserted into the hydrophobic milieu of the membrane, with the polar, functional end extending into the aqueous milieu.
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PMID:The orientation of D-beta-hydroxybutyrate dehydrogenase in the mitochondrial inner membrane. 71 94

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