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)

The alpha-keratins, the principal components of the tonafilaments, were extracted, characterized and compared in bovine hoof and snout epidermis. The alpha-fibrous proteins of these tissues are similar with respect to their molecular weights, amino acid composition and percentage of helical structure. However, distinct differences in the polypeptides comprising these proteins were observed. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of these proteins consistently showed that the polypeptide chain in snout, designated as band B (mol.wt. 67,000), was completely absent from hoof preparations. This was confirmed with several alternative preparative procedures. The peptides produced by digestion of the intact keratins from hoof and snout with CNBr were distinctly different. Finally, digestion of keratins from hoof and snout with trypsin yielded products that differed in size and resistance to further digestion. Thus, in addition to the interspecies polypeptide heterogeneity documented in the literature, this report establishes the intraspecies heterogeneity of keratins and suggests that these differences are due to either the expression of different gene products or differences in post-translational modifications in these two tissues.
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PMID:Intraspecies heterogeneity of epidermal keratins isolated from bovine hoof and snout. 42 68

The importance of glycosylation for the re-expression of surface immunoglobulin in trypsin-treated MOPC 315 plasmacytoma cells was examined by using tunicamycin, an antibiotic that prevents glycosylation by inhibiting the formation of N-acetylglucosamine-lipid intermediates. Tunicamycin greatly inhibited the secretion of nonglycosylated MOPC 315 IgA in trypsin-treated cells. Two hours after trypsin treatment, there was an 80% inhibition of secretion as measured by immunoprecipitation assays of biosynthetically labeled immunoglobulin. However, tunicamycin had no effect on the time course of re-expression of surface IgA in these cells as measured by TNP-sheep erythrocyte rosette formation and [125I] TNP-albumin binding to the plasmacytoma cells. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of 125I-labeled cell surface IgA re-expressed in the presence of tunicamycin revealed a protein with an apparent m.w. identical to nonglycosylated MOPC 315 alpha-chains, further suggesting that nonglycosylated surface IgA was being inserted into the plasma membrane. This protein did not bind to concanavalin A-Sepharose. These data suggest that in MOPC 315 plasmacytoma cells, glycosylation is necessary for immunoglobulin secretion but not for immunoglobulin expression at the cell surface.
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PMID:Re-expression of nonglycosylated surface IgA in trypsin-treated MOPC 315 plasmacytoma cells. 44 54

Trypsin inhibitors were isolated from wheat germ and two major inhibitors (trypsin inhibitors I and II) were purified by various chromatographies including ion-exchange chromatographies on DEAE-Sephadex and CM-Sephadex as well as gel filtration on Bio-gel and Sephadex. Both inhibitors were polypeptides composed solely of amino acids. In the presence of 1% SDS, inhibitor I showed a single symmetrical sedimentation boundary of 1.6 S and a single band in SDS-gel electrophoresis, but in the absence of SDS, it tended to aggregate. Inhibitor II was found to be homogeneous in gel electrophoresis and velocity sediemntation with or without SDS in the solutions. The molecular weights of inhibitors I and I were approxiamtely 16,000 and 10,000, respectively, by SDS-gel electrophoresis. Some other properties of the two inhibitors, including specific inhibitory activities, amino acid compositions and UV spectral properties are presented.
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PMID:Isolation and characterization of trypsin inhibitors from wheat germ. 44 76

The cytoplasmic nitrate reductase in heme mutant H-14 of Staphylococcus aureus was partially purified by steps which included ammonium sulfate fractionation and chromatography on Bio-Gel A 1.5m and ion-exchange columns. The active fractions from the ion-exchange columns showed two forms of the enzyme upon electrophoresis in nondenaturing gels of polyacrylamide; these corresponded to proteins of R(f) 0.16 and 0.28. Each form contained a predominant polypeptide of molecular weight 140,000, as shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The R(f) 0.16 form contained another major polypeptide of molecular weight 57,000, but the R(f) 0.28 form contained several other polypeptides. The sedimentation properties of the enzyme were examined after partial purification on Bio-Gel A 1.5m. In sucrose gradients containing Triton X-100 the enzyme sedimented as a homogeneous peak with an estimated molecular weight of 225,000; without detergent a heterogeneous profile was observed of molecular weight greater than 250,000. Treatment of the enzyme with trypsin increased the specific activity, and the enzyme sedimented as a homogeneous peak in sucrose gradients without Triton X-100, with an estimated molecular weight of 202,000. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that trypsin treatment converted the polypeptide of molecular weight 140,000 to a polypeptide of molecular weight 112,000. We conclude that the cytoplasmic nitrate reductase of S. aureus has a large subunit of molecular weight 140,000, which can be modified by trypsin to a polypeptide of molecular weight 112,000 without loss of catalytic activity.
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PMID:Partial purification and some properties of the Staphylococcus aureus cytoplasmic nitrate reductase. 45 98

The state of chick embryo chondroblasts in culture was found to be sensitive to both fibronectin and another substance(s) (activity A) which could be extracted from chick embryo fibroblasts with 1 M urea or from conditioned medium. In the presence of either of these activities at concentrations of 25-150 micrograms/ml, chondroblasts, which normally grow as mixed cultures of floating and adherent cells, all immediately became attached to the tissue culture dish and spread. After several days, the morphology of these typically epithelioid cells became fibroblastic. This did not involve a selection process, since the effect was reversible. The synthetic program of these cells was also dramatically modified: the cultures no longer synthesized the chondroblast-unique type IV sulfated proteoglycan and began synthesizing alpha 2 collagen chains typical of fibroblastic or early limb bud cells. Fibronectin was resolved from activity A by gelatin affinity chromatography or gel filtration. Both activities were trypsin-sensitive. The two activities differed, however, on the basis of how the protein fractions in which they were found migrated in SDS-polyacrylamide gels, their specific activities and their effects on cell morphology and cell growth.
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PMID:Fibronectin alters the phenotypic properties of cultured chick embryo chondroblasts. 47 27

1-Acyl-2-(7-(4-azido-2-nitrophenoxy)-[1-14C]heptanoly)-sn-glycero-3-phosphocholine was synthesized in order to study the lipid-binding site of the phosphatidylcholine exchange protein from bovine liver. Photosensitive phosphatidylcholine was incorporated into the protein by incubation with vesicles of this phosphatidylcholine derivative. The lipid-protein complex was separated from the vesicles by chromatography on Biogel A-0.5m. Photolysis of the complex by irradiation with light of a high pressure mercury lamp at a wavelength above 340 nm generated the highly reactive nitrene. Sodium dodecyl sulfate gel electrophoresis of the photolysed complex indicated that 30% of the endogenous 14C-labeled phosphatidylcholine was covalently linked to the protein. Peptides were isolated after digestion of the photolysed complex with protease from Staphylococcus aureus and trypsin. It was determined that the 2-acyl chain of the phosphatidylcholine molecule was linked to the peptide segment -Gly-Ser-Lys-Val-Phe-Met-Tyr-Tyr-. This segment was part of a protease peptide of about 65 residues of which the sequence was determined by Edman degradation for the first 38 residues. This peptide contains a cluster of apolar residues -Val-Phe-Met-Tyr-Tyr-Phe with an extremely high hydrophobicity index and with a predicted beta-sheet conformation. It is concluded that this hydrophobic cluster forms part of the binding site.
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PMID:Determination of the hydrophobic binding site of phosphatidylcholine exchange protein with photosensitive phosphatidylcholine. 49 8

Ca(2+)-activated neutral proteinase was purified from rabbit skeletal muscle by a method involving DEAE-Sephacel chromatography, affinity chromatography on organomercurial-Sepharose and gel filtration on Sephacryl S-200 and Sephadex G-150. The SDS (sodium dodecyl sulphate)/polyacrylamide-gel-electrophoresis data show that the purified enzyme contains only one polypeptide chain of mol.wt. 73000. The purification procedure used allowed us to eliminate a contaminant containing two components of mol.wt. about 30000 each. Whole casein or alpha(1)-casein were hydrolysed with a maximum rate at 30 degrees C, pH7.5, and with 5mm-CaCl(2), but myofibrils were found to be a very susceptible substrate for this proteinase. This activity is associated with the destruction of the Z-discs, which is caused by the solubilization of the Z-line proteins. The activity of the proteinase in vitro is not limited to the removal of Z-line. SDS/polyacrylamide-gel electrophoresis on larger plates showed the ability of the proteinase to degrade myofibrils more extensively than previously supposed. This proteolysis resulted in the production of a 30000-dalton component as well as in various other higher- and lower-molecular-weight peptide fragments. Troponin T, troponin I, alpha-tropomyosin, some high-molecular-weight proteins (M protein, heavy chain of myosin) and three unidentified proteins are degraded. Thus the number of proteinase-sensitive regions in the myofibrils is greater than as previously reported by Dayton, Goll, Zeece, Robson & Reville [(1976) Biochemistry15, 2150-2158]. The Ca(2+)-activated neutral proteinase is not a chymotrypsin- or trypsin-like enzyme, but it reacted with all the classic thiol-proteinase inhibitors for cathepsin B, papain, bromelain and ficin. Thus the proteinase was proved to have an essential thiol group. Antipain and leupeptin are also inhibitors of the Ca(2+)-activated neutral proteinase.
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PMID:Purification and some physico-chemical and enzymic properties of a calcium ion-activated neutral proteinase from rabbit skeletal muscle. 53 1

SDS-polyacrylamide gel electrophoresis of plasma membrane proteins from sea urchin embryos at the swimming blastula stage allows the identification of fifteen-seventeen components, five of which are glycoproteins. One of these (molecular weight about 145,000) is almost completely absent in the plasma membrane of trypsin treated cells.
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PMID:Trypsin treatment which elicits DNA synthesis, removes a high molecular weight glycoprotein from the plasma membrane of sea urchin embryonic cells. 56 27

Sodium dodecyl sulfate-polyacrylamide gel electrophoresis was used to examine the polypeptide patterns of rat liver rough and smooth endoplasmic reticulum (ER) membrane fractions stripped of ribosomes. Approximately 67 polypeptides were resolved from the rough ER membrane fraction. The polypeptide pattern of the smooth ER membrane fraction was similar to that of the rough ER membrane fraction, but exhibited substantially lower amounts of some seven polypeptides. Three of these polypeptides, of apparent molecular weights 63,000, 65,000, and 87,000, were of particular interest, as they could not be ascribed to contamination of stripped rough ER membrane fractions by residual ribosomal polypeptides. Conditions of treatment with low concentrations of trypsin were established that markedly diminished the capacity of the stripped rough ER membrane fraction to bind ribosomes in vitro and that also effected a partial detachment of ribosomes from nonstripped rough ER membranes; the results of electrophoretic analyses of rough ER membrane fractions treated in these manners are described. Comparison of the polypeptide patterns of guinea pig, mouse, and rabbit liver ER membrane fractions with rat liver ER membrane fractions revealed considerable variations in the distribution of the polypeptides of 63,000, 65,000, and 87,000 molecular weight among the ER membrane fractions of these species. The combined results of these studies indicate that the polypeptide of 87,000 molecular weight, although particularly sensitive to attack by trypsin, is not involved in the binding of ribosomes to the rough ER membrane fraction. Studies by others (cf. Kreibich, G., Grebenau, R., Mok, W., Pereyra, B., Rodriguez-Boulan, E., and Sabatini, D. D. (1977) Fed. Proc. 36, 656) have implicated the polypeptides of 63,000 and 65,000 molecular weight in this process. The patterns of phosphorylated polypeptides of rough and smooth ER membrane fractions of rat and mouse liver were also examined, using labeling in vivo with sodium [32p]phosphate or in vitro with [gamma-32P]ATP. Approximately 25 phosphorylated components were resolved by electrophoresis in the ER membrane fractions of both species. Evidence is presented that suggests that the great majority of these components are phosphopolypeptides. Differences were noted in the patterns of phosphorylation produced by in vivo and in vitro labeling; minor differences were also observed between the patterns of phosphorylation of the rough and smooth ER membrane fractions in either situation. The overall results afford an indirect approach toward evaluating the possible involvement of specific rough ER membrane polypeptides in ribosome-binding and reveal that liver ER membranes contain a substantially greater number of phosphorylated polypeptides thatn previously reported.
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PMID:Electrophoretic studies on liver endoplasmic reticulum membrane polypeptides and on their phosphorylation in vivo and in vitro. 63 54

Moloney leukemia virus activated both the classical and alternative pathways of human complement. About 500,000 virions were required to detect activation of the classical pathway whereas 5,000 times as many virions were necessary to initiate the alternative pathway, indicating that in this system only the former is of biological significance. Disruption of the virus with Triton X-100 destroyed its ability to initiate the alternative pathway without affecting its ability to activate the classical pathway. After ultracentrifugation of disrupted virus the active component could be recovered in the supernate and was isolated by isoelectric focusing in granulated gels. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic and analysis and cyanogen bromide digestion studies revealed that the activity resided in a methionine-containing protein having a pI of 7.5 and a molecular weight of approximately equal to 15,000 daltons. The purified protein interacts strongly with Clq and efficiently activates Cl. RNase and lipolytic enzymes had no effect on the isolated protein but incubation with trypsin resulted in loss of activity. Enzymatic digestion studies of surface-labeled virus indicate that the active protein is a viral membrane protein. On the basis of these results it is concluded that the complement receptor of Moloney leukemia virus is the surface protein p15E.
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PMID:Lysis of oncornaviruses by human serum. Isolation of the viral complement (C1) receptor and identification as p15E. 63 50


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