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: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Messenger RNA for the alpha subunit of Torpedo californica Na+/K(+)-ATPase was injected into Xenopus oocytes together with that of the beta subunit of rabbit H+/K(+)-ATPase. The Na+/K(+)-ATPase alpha subunit was assembled in the microsomal membranes with the H+/K(+)-ATPase beta subunit, and became resistant to trypsin. These results suggest that the H+/K(+)-ATPase beta subunit facilitates the stable assembly of the Na+/K(+)-ATPase alpha subunit in microsomes.
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PMID:Assembly of a hybrid from the alpha subunit of Na+/K(+)-ATPase and the beta subunit of H+/K(+)-ATPase. 131 Mar 89

Controlled proteolytic digestion by trypsin or bacterial proteases limited to the cytosolic side of the native microsomal membrane is not efficient to inhibit glucose-6-phosphate hydrolysis. Modification of the microsomes with deoxycholate prior to protease treatment is prerequisite to allow accessibility of the integral protein and inhibition of enzyme activity. Glucose-6-phosphatase of native microsomes, however, is rapidly inactivated by micromolar concentrations of TPCK as well as TLCK. In deoxycholate-modified microsomes both reagents do not affect glucose-6-phosphate hydrolysis. These results indicate that in the native, intact microsomal membrane glucose-6-phosphatase is not accessible to proteolytic attack from the cytoplasmic surface. The putative inhibitory effect of some trypsin or bacterial protease preparations on glucose-6-phosphatase of native microsomes observed most possibly is a result of contaminating agents as TPCK or TLCK.
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PMID:Protease inhibitors but not proteases inhibit the glucose-6-phosphatase of native rat liver microsomes. 131 35

The monoclonal antibody, 3/4/2, which was raised against purified rat cytochrome P450 isoenzyme 1A1 (CYP1A1) binds to cytochromes P4501A in many species. It was shown by immunoblotting that the antibody binds to CYP1A1 in microsomal fractions prepared from rat, mouse, rabbit, hamster and human. The antibody also binds to cytochrome P450 isoenzyme 1A2 in microsomal fractions prepared from rabbit and human, but not rat or mouse. Using purified isoenzymes in an enzyme-linked immunosorbent assay it was found that the affinity of binding to the two rabbit hydrocarbon-inducible isoenzymes is reduced compared with that for rat CYP1A1. Binding is not affected by denaturation of the antigens. The effects of chemical and enzymatic treatments on rat CYP1A1 showed that the epitope contains a trypsin-sensitive site that includes arginine, but lacks lysine. The epitope does not contain methionine, cysteine, aspartic acid or glutamic acid residues. In addition, digestion of the protein with cyanogen bromide produces a fragment of Mr 20,000 which contains the antibody binding site. By comparing the cross-reactivity of the antibody with the primary structures of CYP1A1 and 1A2 from the rat, mouse, rabbit and human, and by considering the results of the chemical and enzymatic treatments, it was possible to deduce the likely location and structure of the binding site of 3/4/2 on members of the CYP1A subfamily. It is concluded that the epitope for this antibody is Phe-Arg-His-Ser-Ser-Phe, which lies at positions 380-385 in rat CYP1A1. Further, it is predicted from a model of the tertiary structure of eukaryotic cytochrome P450 that a part of this binding site lies within a helix in the native protein.
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PMID:Identification of the epitope of a monoclonal antibody which binds to several cytochromes P450 in the CYP1A subfamily. 137 49

A Ca(2+)-dependent ATPase, purified from cardiac microsomal membranes by solubilization and chromatography, is identified as cardiac sarcoplasmic reticulum ATPase on the basis of its electrophoretic mobility and its trypsin digestion pattern. The ATPase (both in membranous and purified form) is stimulated by calmodulin, while the skeletal muscle ATPase is not. Rapid kinetic experiments demonstrate that the calmodulin stimulation is already present within the first enzyme cycle following the addition of ATP, and consists of an increased turnover of the phosphorylated enzyme intermediate. The calmodulin effect does not involve the phosphorylation of any protein other than the ATPase. Following the incubation of ATPase with [gamma-32P]ATP, even in conditions of calmodulin stimulation, radioactive phosphorus is found only on the ATPase electrophoretic band, corresponding to the phosphorylated enzyme intermediate. These observations, together with the results obtained for [125I]calmodulin binding to the ATPase, suggest that the stimulation in turnover produced by calmodulin on the ATPase is due to a direct effect on the enzyme. This may provide an independent regulation of the cardiac sarcoplasmic reticulum Ca(2+)-ATPase, in addition to the known regulation mediated by other accessory proteins.
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PMID:Effect of calmodulin on sarcoplasmic reticulum Ca(2+)-ATPase isolated from cardiac muscle. 138 34

The effects of 11-deoxycorticosterone and aldosterone on liver delta 5 desaturase activity were examined. Both steroid hormones significantly depressed the conversion of [1-14C] eicosatrienoic acid to arachidonic acid. However, the mechanism of action of each of these hormones was different. The effect of 11-deoxycorticosterone was mediated by a soluble protein present in the liver cytosolic fraction. The biological activity of this protein, having a molecular weight lower than 25 kDa, was impaired by trypsin digestion. To determine whether the inhibitory protein was induced through glucocorticoid or mineralocorticoid receptor occupancy, cultured Morris minimal deviation hepatoma cells were pre-treated with the antiglucocorticoid cortexolone or the mineralocorticoid receptor antagonist spironolactone. The results obtained demonstrated that only glucocorticoid receptor structures were involved in the induction of this regulatory protein. The inhibitory response evoked by aldosterone was mediated by a different mechanism. In the case of aldosterone, the inhibitory action affected the microsomal membranes and was not mediated by a soluble protein messenger.
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PMID:Glucocorticoid and mineralocorticoid hormones depress liver delta 5 desaturase activity through different mechanisms. 140 70

Microsomes from rat liver were used to investigate the mechanisms by which thiol compounds protect cellular membranes against damage from oxidants. Glutathione (GSH), dihydrolipoate and dithioerythritol, but not cysteine, ameliorated the loss of thiol groups of microsomal proteins attacked by Fe/ADP/NADPH or Fe/ADP/ascorbate prooxidant systems. The protection by GSH, but not dihydrolipoate or dithioerythritol, appeared to be enzymic since it was lost after microsomes were heated or treated with trypsin. The blocking of microsomal protein thiols with N-ethylmaleimide also diminished the protective effect of GSH. Lipid peroxidation, as assessed by chemiluminescence and vitamin-E loss, was inhibited in parallel with the protection of protein thiols. In microsomes lacking vitamin E, the protection of protein thiols by exogenous thiols was diminished. However, the GSH-dependent protection of vitamin E showed no preference for alpha-tocopherol over other tocopherol homologs. It is suggested that a GSH-dependent enzyme maintains protein thiols in the face of oxidative damage during microsomal peroxidation. A maintenance of protein thiols might not only protect important metabolic functions, but may also afford an antioxidant capacity to membranes, and account for one facet of the GSH-dependent inhibition of lipid peroxidation.
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PMID:Protection by glutathione and other thiol compounds against the loss of protein thiols and tocopherol homologs during microsomal lipid peroxidation. 144 67

Sera from patients with halothane hepatitis contain immunoglobulin G (IgG) antibodies to trifluoroacetylated liver microsomal proteins of 100, 76, 59, 57 and 54 kDa, which are produced as a consequence of metabolism of halothane to trifluoroacetyl halide by cytochrome(s) P450. In the present study, the membrane topographies of the various antigens in rat liver microsomal fractions were investigated. Liver microsomal fractions from rats treated with halothane in vivo, and rat liver microsomal fractions which had been incubated with halothane in vitro, were used as the source of trifluoroacetyl antigens. The antigens were detected by immunoblotting. Whereas the 100, 76, 59 and 57 kDa antigens were solubilized from the microsomal membrane by either 0.1 M sodium carbonate or 0.1% (w/v) sodium deoxycholate, the 54 kDa antigen was not solubilized by 0.1% (w/v) sodium deoxycholate. In intact microsomal fractions, the 100, 76, 59 and 57 kDa antigens were not degraded appreciably by trypsin unless detergent was added to permeabilize the microsomal membrane. These results indicate that the 54 kDa antigen is an integral membrane protein, whereas the 100, 76, 59 and 57 kDa antigens are peripheral membrane proteins situated within the lumen of microsomal vesicles, and hence presumably located within the lumen of the endoplasmic reticulum in vivo.
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PMID:The topography of trifluoroacetylated protein antigens in liver microsomal fractions from halothane treated rats. 151 Jul 11

Rat submandibular and parotid gland exocytosis is primarily controlled by beta-adrenergic receptor stimulation. Although its precise role in the regulation of salivary gland exocytosis is not fully understood, protein phosphorylation, mediated by the activation of cAMP-dependent protein kinase, may be directly involved. Previous studies suggest that analogous 26-kDa integral membrane phosphoproteins may play a direct role in regulating exocytosis. Studies were here undertaken to purify and partially characterize both phosphoproteins. After endogenous phosphorylation with 32P, subcellular fraction and solubilization of the microsomal fraction in n-octyl beta-glucopyranoside, the 26-kDa integral membrane phosphoproteins were purified by high performance liquid chromatography (HPLC), followed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and electroelution of the proteins. Amino acid analysis indicated a significant number of serine amino acids: N-terminal sequence data demonstrated a high level of homology; and trypsin digestion followed by reversed-phase HPLC indicated the possibility of multiple phosphorylation sites.
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PMID:Purification and partial characterization of analogous 26-kDa rat submandibular and parotid gland integral membrane phosphoproteins that may have a role in exocytosis. 152 94

A factor that activates affinity-purified vacuolar H(+)-ATPase from bovine kidney microsomes was identified and partially purified from bovine kidney cytosol. The activator is a heat-stable, trypsin-sensitive acidic protein with a Mr by gel filtration of approximately 35,000. The activator increased the activity of renal microsomal and brush border H(+)-ATPase by over 60% but stimulated lysosomal H(+)-ATPase activity by only 28%; it had little or no activity against the remaining N-ethylmaleimide-insensitive ATPase in kidney microsomes and other transport ATPases. Stimulation of ATPase activity appeared to result from binding of the activator to the H(+)-ATPase. Activation was saturable, with a Hill coefficient of 1 at low protein concentrations. Both activator binding and stimulation of H(+)-ATPase activity were enhanced at pH values less than or equal to 6.5. The activator has selective effects on different H(+)-ATPases and is poised to activate the enzyme at low physiologic values of cytosolic pH; this newly identified cytosolic proteins may participate in the physiologic regulation of the vacuolar H(+)-ATPase.
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PMID:Identification and partial purification of a cytosolic activator of vacuolar H(+)-ATPases from mammalian kidney. 153 37

A new approach to determining the active site orientation of microsomal glycosyltransferases is presented which utilizes the photoaffinity analogs [32P]5-Azido-UDP-glucose ([32P]5N3UDP-Glc) and [32P]5-Azido-UDP-glucuronic acid ([32P]5N3UDP-GlcA). It was previously shown that both photoprobes could be used to photolabel UDP-glucose:dolichol phosphate glucosyltransferase (Glc-P-Dol synthase), as well as the family of UDP-glucuronosyltransferases in rat liver microsomes. The effects of detergents, proteases, and 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS) on the photolabeling of these enzymes were examined in intact rat liver microsomes. Photolabeling of Glc-P-Dol synthase by either photoprobe was the same in intact or disrupted vesicles, was susceptible to trypsin digestion, and was inhibited by the nonpenetrating inhibitor DIDS. Photolabeling of the UDP-glucuronosyltransferases by [32P]5N3UDP-GlcA was stimulated 1.3-fold in disrupted vesicles as compared to intact vesicles, whereas photolabeling of these enzymes by [32P]5N3UDP-Glc showed a 14-fold increase when vesicles were disrupted. Photolabeled UDP-glucuronosyltransferases were only susceptible to trypsin digestion in disrupted vesicles, and this was further verified by Western blot analyses. The results indicate a cytoplasmic orientation for access of UDP-sugars to Glc-P-Dol synthase and a lumenal orientation of most UDP-glucuronosyltransferases.
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PMID:Application of 5-azido-UDP-glucose and 5-azido-UDP-glucuronic acid photoaffinity probes for the determination of the active site orientation of microsomal UDP-glucosyltransferases and UDP-glucuronosyltransferases. 153 61


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