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)

We have investigated the interaction between concanavalin A-agarose (Con A-agarose) and thyroid peroxidase, an integral membrane protein found in the 105,000 X g, 1-h particulate fraction of thyroid tissue. An intact form of porcine thyroid peroxidase was obtained by solubilization with the nonionic detergent Triton X-100 and two fragmented, hydrophilic forms of the enzyme were prepared by trypsin treatment of the membrane. The three types of thyroid peroxidase bind to Con A-agarose and can be eluted with alpha-methyl-D-mannoside. The alpha-methyl-D-mannoside eluate of the most purified thyroid peroxidase preparation has been analyzed by polyacrylamide gel electrophoresis. Peroxidase activity corresponds with a glycoprotein band. The binding of thyroid peroxidase to Con A-agarose can be inhibited by sugars in the following order: alpha-methyl-D-mannoside greater than D-mannose greater than alpha-methyl-D-glucoside greater than D-glucose greater than D-galactose. This order of specificity is typical of Con A-sugar interactions. Furthermore, inactivation of the carbohydrate binding site of Con A by demetallization greatly reduces the extent of thyroid peroxidase binding. Reactivation of the carbohydrate binding site by the addition of Ca2+ and Mn2+ to demetallized Con A-agarose restores thyroid peroxidase binding. These and other experiments suggest that htyroid peroxidase is, like several other peroxidases, a glycoprotein. In addition, the interaction between thyroid peroxidase and Con A-agarose may provide a new purification tool for thyroid peroxidase.
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PMID:Interaction of thyroid peroxidase with concanavalin A covalently coupled to agarose. 1 48

When purified bovine cytochrome c1 is digested with trypsin under controlled conditions, the heme polypeptide is preferentially converted from a species of molecular weight 30,600 to a heme polypeptide of molecular weight 29,000. The trypsin sensitive peptide bond is located in the N-terminal region of the cytochrome. Both the reduced and oxidized cytochrome are susceptible to hydrolysis by trypsin at the same locus, but the reduced cytochrome is cleaved at an initial rate approximately twofold greater than the oxidized cytochrome. Membranous cytochrome c1, as occurring in cytochrome b-c1 complex or succinate-cytochrome c reductase complex, is not susceptible to trypsin proteolysis under similar conditions, nor after more extensive treatment of the membranes with trypsin, in spite of the fact that cytochrome c1 presumably comes into contact with cytochrome c at the membrane surface during electron transport. These findings are consistent with a model for the structure of cytochrome c1 in situ in which the cytochrome is an integral membrane protein, located primarily in the membrane continuum, while still having the heme-containing portion of the protein available at the membrane surface for electron transfer to cytochrome c.
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PMID:Controlled digestion with trypsin as a structural probe for the N-terminal peptide of soluble and membranous cytochrome c. 16 81

Transfer of folate compounds was studied in human erythrocytes. At steady state, the measured distribution ratio of 5-CH3-H4-folate in erythrocyte suspensions exceeded the ratio predicted from the chloride distribution ratio by a factor of 1.58, suggesting that human erythrocytes concentrate folate. Because folate compounds are anionic at physiologic pH, we investigated the possibility that transport occurs via the inorganic anion channel associated with the predominant integral membrane protein, band 3. Erythrocyte uptake of 5-CH3-H4-folate was decreased (60% to 80%) by several known inhibitors of anion transport--pyridoxal phosphate, dipyridamole, phlorizin, and SITS. However, unlike the inorganic anion transfer system, 5-CH3-H4-folate uptake was only slightly decreased by DIDS; was reduced 50% to 70% by the sulfhydryl reagents NEM, PMB, and pCMBS; and was not affected by the proteolytic enzymes trypsin, chymotrypsin, and pronase. These studies suggest that folate compounds are transported by a specialized carrier system, independent of the inorganic anion channel, which contains sulfhydryl and amino groups. In contrast to 5-CH3-H4-folate transfer, uptake of pteroylglutamic acid was either unaffected or somewhat increased by these membrane modifications. This result indicates that the human erythrocyte transports the reduced and oxidized forms of the vitamin by entirely separate mechanisms.
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PMID:Evidence for transfer of folate compounds by a specialized erythrocyte membrane system. 22 54

The preceding paper (Hammer, C.H., A. Nicholson, and M. M. Mayer, 1975, Proc. Natl. Acad. Sci., 72:5076) presented evidence on insertion of polypeptide chains from the C5b and C7 subunits of C5b, 6, 7 complex into the phospholipid bilayer of erythrocyte membranes. In the present study, EAC1-8 and EAC1-9 (sheep erythrocytes carrying rabbit antibody and complement proteins C1 through C8 or C9, respectively), prepared with either 125I-C8 or 125I-C9, were incubated with trypsin or chymotrypsin and the release of 125I was measured. Only 9 to 19% of the specifically bound radioactivity was released. In addition, elution experiments were performed with 0.02 M EDTA-1.0 M NaCl. This solution did not elute C9 from EAC1-9. By contrast cellbound C9 was recovered from erythrocyte membranes with sodium dodecyl sulfate (SDS). Thus, enzymatic stripping and elution experiments indicate that cellbound C9 behaves like an integral membrane protein, presumably due to insertion into the lipid bilayer. EAC1-9 membranes that had been subjected to extended digestion with trypsin or chymotrypsin were extracted with SDS to recover the enzyme-resistant part of the C9 molecule from the membrane. Even though this domain of C9 carried 90% of the radioiodine associated with native C9, its m.w. was found to be only 18,000 daltons by analysis on SDS-PAGE. This represents one-quarter of the native C9 molecule.
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PMID:On the mechanism of cell membrane damage by complement: evidence on insertion of polypeptide chains from C8 and C9 into the lipid bilayer of erythrocytes. 55

Conformational studies on an isolated integral membrane protein are reported. Lipoprotein of Escherichia coli outer membrane was released from murein by treatment with either lysozyme or trypsin. The isolated lysozyme-released lipoprotein (lipoprotein I) contained 2 or 3 muropeptides covalently linked at the C-terminal end, while the trypsin-released lipoprotein (lipoprotein II) was free of muropeptides and lacked the C-terminal peptide Tyr-Arg-Lys. Circular dichroism spectra of the two preparations were essentially identical, and they show an alpha-helix content of about 80%. According to calculations based on the Chou-Fasman rules for proteins of known sequence, lipoprotein is 64% alpha-helix and 15% beta-structure. Infrared spectroscopy qualitatively supports these values. The conformation was stable in the pH range of 5 - 12. Danaturation of lipoprotein by heat, 8 M urea, or sodium dodecylsulphate was a fully reversible, cooperative process. The thermal denaturation of lipoprotein occurs in two steps with transition points at 79.4 degrees C for lipoprotein I and at 85.1 degrees C for lipoprotein II. Lioprotein markedly changes conformation at dodecylsulphate concentrations where micelle formation sets in. The unusual behaviour of the lipoprotein convormation in sodium dodecylsulphate is discussed in relation to the lipoprotein conformation and aggregation within the membrane.
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PMID:Conformational studies on murein-lipoprotein from the outer membrane of Escherichia coli. 79 57

A marked increase in water permeability can be induced in Xenopus oocytes by injection of mRNA from tissues that express water channels, suggesting that the water channel is a protein. In view of this and previous reports which showed that proteinases may interfere with mercurial inhibition of water transport in red blood cells (RBC), we examined the influence of trypsin, chymotrypsin, papain, pronase, subtilisin and thermolysin on water permeability as well as on ATPase activity, H(+)-pump, passive H+ conductance, and Na+/H+ exchange in apical brush-border vesicles (BBMV) and endosomal (EV) vesicles from rat renal cortex. H+ transport was measured by Acridine orange fluorescence quenching and water transport by stopped-flow light scattering. As measured by potential-driven H+ accumulation in BBMV and EV, proteinase treatment had little effect on vesicle integrity. In BBMV, ecto-ATPase activity was inhibited by 15-30%, Na+/H+ exchange by 20-55%, and H+ conductance was unchanged. Osmotic water permeability (Pf) was 570 microns/s and was inhibited 85-90% by 0.6 mM HgCl2; proteinase treatment did not affect Pf or the HgCl2 inhibition. In EV, NEM-sensitive H+ accumulation and ATPase activity were inhibited by greater than 95%. Pf (140 microns/s) and HgCl2 inhibition (75-85%) were not influenced by proteinase treatment. SDS-PAGE showed selective digestion of multiple polypeptides by proteinases. These results confirm the presence of water channels in BBMV and EV and demonstrate selective inhibition of ATPase function and Na+/H+ exchange by proteinase digestion. The lack of effect of proteinases on water transport by mercurials. We conclude that the water channel may be a small integral membrane protein which, unlike the H(+)-ATPase and Na+/H+ exchanger, has no functionally important membrane domains that are sensitive to proteolysis.
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PMID:Proteinases inhibit H(+)-ATPase and Na+/H+ exchange but not water transport in apical and endosomal membranes from rat proximal tubule. 130 58

Monoclonal antibodies (MAbs) were generated against lysates of clinical Mycoplasma hominis isolates. Three of these, designated BG2, BA10, and FE6, recognized an integral membrane protein of M. hominis with an apparent molecular weight of 50,000 (p50). Electron microscopy studies demonstrated that this protein is distributed evenly over the cell surface. These anti-p50 MAbs were species specific for M. hominis; they reacted with 42% of 126 tested clinical M. hominis isolates and showed no reactivity to heterologous mycoplasma species. Immunoblot analysis after limited proteolysis of purified p50 demonstrated that the three MAbs reacted with different epitopes of the protein. Unlike BA10 and FE6, MAb BG2 induced a decrease in arginine metabolism and a reduction of CFU in metabolic inhibition tests. F(ab)2 fragments of MAb BG2 showed the same inhibitory effect as the intact MAb molecule, while Fab and Fc fragments had no influence on vital functions. Preincubation of the mycoplasmas with MAb BG2 followed by trypsin treatment yielded the same amount of CFU as the control without antibodies. In conclusion, the cell aggregates were resolved by the trypsin treatment. These experiments and tests with the antibody fragments led to the conclusion that only the intact MAb structure or the F(ab)2 structure had metabolic inhibition potential and that the observed metabolism inhibition as well as the apparent decrease in viability were a result of agglutination by MAb BG2.
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PMID:Decreased metabolism and viability of Mycoplasma hominis induced by monoclonal antibody-mediated agglutination. 137 Feb 72

Cardiac Na+/Ca(2+)-exchange is an integral membrane protein consisting of approx. 970 amino acids with as many as 12 membrane-spanning and 11 extramembranal regions (Nicoll, D.A., Lognoni, S. and Philipson, K.D. (1985) Science 250, 562-565). Based upon primary sequence information, 3 amino-acid sequences located in either extramembranal segment a or f, consisting largely of acidic amino-acids, were selected for the production of synthetic peptides. The peptides were cross-linked to carrier ovalbumin and used to generate site-directed polyclonal antibodies (sd-Ab). Western blot analysis of bovine cardiac sarcolemmal (SL) proteins demonstrated that sd-Ab against segment a and 1 against loop f recognized a 70 kDa protein and a lower molecular mass band at 55 kDa under reducing conditions. A different loop f sd-Ab failed to recognize the 70 kDa protein but did associate with a 120, 65 and 55 kDa protein under the same conditions. Under non-reducing conditions, antibodies to all three peptides recognized the 65 kDa protein. All sd-Ab were blocked by addition of their respective peptides and were not inhibited by either of the other peptides. A sd-Ab against loop f was immobilized to an affinity support matrix and used to immunoprecipitate detergent solubilized cardiac SL vesicle protein. Immunoprecipitated protein was reconstituted into proteoliposomes which demonstrated Na+/Ca(2+)-exchange activity. Immunoprecipitated protein cross-reacted with sd-Ab against all three peptides with bands at 120, 70 and 55 kDa on Western blots. Tryptic digests of native SL vesicles abolished recognition of segment a sd-Ab for SL proteins while having little or no affect on reactivity to the protein by both sd-Ab against loop f. Digestion of the SL vesicle protein with endoproteinase Arg C did not alter sd-Ab recognition. The results suggest that specific domains of the cardiac Na+/Ca(2+)-exchanger depending upon the conformation of the protein, may not be available for antibody binding. The 70 kDa polypeptide appears to include the N-terminal region of the protein and what is believed to be a large cytoplasmic extramembranal loop. Limited proteolysis by trypsin and endoproteinase Arg C yielded results consistent with the model which places the N-terminus of the protein on the extracellular surface and a large extramembranal segment (loop f) on the cytoplasmic side of the SL membrane.
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PMID:Characterization of cardiac Na+/Ca(2+)-exchange by site-directed polyclonal antibodies. 147 2

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

Human phagocyte cytochrome b is the terminal component of the microbicidal superoxide generating system. Although the primary structure of this protein has been determined, little is known about the placement of the heme prosthetic groups in this heterodimeric integral membrane protein. Analysis of the cytochrome using lithium dodecyl sulfate-polyacrylamide gel electrophoresis at 0 degree C followed by tetramethylbenzidine heme staining demonstrated the presence of heme in both the 91- and 22-kDa subunits identified by Western blot analysis using peptide specific antisera. Exposure of cytochrome b (purified or in isolated neutrophil plasma membranes) to Staphylococcal protease V8 or trypsin did not affect absorbance spectra. However, such treatment resulted in degradation of both subunits to smaller fragments, including characteristic immunoreactive 20-kDa fragments of both the large and small subunits of the cytochrome that retained one or both of the hemes. The spectral stability to proteolysis and size of the proteolytic heme-containing fragments generated explains previous reports which suggested that the heme resided in the small subunit. Our current results indicate that human neutrophil cytochrome b is a bi-heme or possibly tri-heme molecule with at least one heme residing in the large subunit and one shared between both subunits and that the heme-containing regions of the cytochrome probably lie within the membrane lipid bilayer. Such a multi-heme structure would be consistent with an electron transfer function for this cytochrome by providing an efficient mechanism for transferring electrons across the plasma membrane to the extracellular surface where oxygen could be reduced to create superoxide.
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PMID:Human neutrophil cytochrome b contains multiple hemes. Evidence for heme associated with both subunits. 155 74


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