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)

Solubilization of proteins from total membranes (a mixture of cytoplasmic and outer membranes) of Rickettsia prowazekii, a typical gram-negative bacterium, was studied using three different detergents. It was shown that isolated outer membranes and sarkosyl-insoluble material contain major polypeptides of 134, 31, 29.5 and 25 kDa as well as minor polypeptides of 78, 60, 42, and 17 kDa, while the total membranes--the same plus a great number of additional minor proteins. The material solubilized by octyl glucoside in the presence of MgCl2 contains exclusively major proteins (134, 31, 29.5, and 25 kDa). No differential solubilization takes place upon membrane treatment with octyl glucoside in the absence of Mg2+ or with Triton X-100. Rickettsial proteins are insensitive to trypsin in both whole cells and total membranes, unless the latter are presolubilized with octyl glucoside. Proteinase K degrades all of the total membrane proteins but only the 134 kDa polypeptide of whole cells. Upon immunoblotting predominantly the major outer membrane proteins (134, 31, and 20.5 kDa) and, to a lesser extent, the minor proteins (60, 42, and 17 kDa) interact with human convalescent serum.
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PMID:[Selective solubilization and biochemical analysis of R. prowazekii outer membrane proteins]. 139 Dec 24

Heterotrimeric Go bound to the membranes of bovine brain, but Go alpha remained bound to the membranes even after activation with GTP gamma S. Furthermore, Go alpha bound to a Triton X-100-insoluble fraction of the membranes in a saturable manner. However, the 37-kDa Go alpha eliminated by trypsin at the amino-terminus could not bind to the fraction. Using a blot overlay approach of the Triton-insoluble fraction, only a 20-kDa protein was identified that interacts with Go alpha. These results indicate that Go alpha binds to a 20-kDa Triton-insoluble protein in the bovine brain membranes.
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PMID:Interaction of alpha subunit of GTP-binding protein Go with a 20-kDa Triton-insoluble membrane protein in bovine brain. 145 1

Dramatic changes in morphology and extensive reorganization of membrane-associated actin filaments take place during mitosis in cultured cells, including rounding up; appearance of numerous actin filament-containing microvilli and filopodia on the cell surface; and disassembly of intercellular and cell-substratum adhesions. We have examined the distribution and solubility of the membrane-associated actin-binding protein, spectrin, during interphase and mitosis in cultured CHO and HeLa cells. Immunofluorescence staining of substrate-attached, well-spread interphase CHO cells reveals that spectrin is predominantly associated with both the dorsal and ventral plasma membranes and is also concentrated at the lateral margins of cells at regions of cell-cell contacts. In mitotic cells, staining for spectrin is predominantly in the cytoplasm with only faint staining at the plasma membrane on the cell body, and no discernible staining on the membranes of the microvilli and filopodia (retraction fibers) which protrude from the cell body. Biochemical analysis of spectrin solubility in Triton X-100 extracts indicates that only 10-15% of the spectrin is soluble in interphase CHO or HeLa cells growing attached to tissue culture plastic. In contrast, 60% of the spectrin is soluble in mitotic CHO and HeLa cells isolated by mechanical "shake-off" from nocodazole-arrested synchronized cultures, which represents a four- to sixfold increase in the proportion of soluble spectrin. This increase in soluble spectrin may be partly due to cell rounding and detachment during mitosis, since the amount of soluble spectrin in CHO or HeLa interphase cells detached from the culture dish by trypsin-EDTA or by growth in spinner culture is 30-38%. Furthermore, mitotic cells isolated from synchronized spinner cultures of HeLa S3 cells have only 2.5 times as much soluble spectrin (60%) as do synchronous interphase cells from these spinner cultures (25%). The beta subunit of spectrin is phosphorylated exclusively on serine residues both in interphase and mitosis. Comparison of steady-state phosphorylation levels of spectrin in mitotic and interphase cells demonstrates that solubilization of spectrin in mitosis is correlated with a modest increase in the level of phosphorylation of the spectrin beta subunit in CHO and HeLa cells (a 40% and 70% increase, respectively). Two-dimensional phosphopeptide mapping of CHO cell spectrin indicates that this is due to mitosis-specific phosphorylation of beta-spectrin at several new sites. This is independent of cell rounding and dissociation from other cells and the substratum, since no changes in spectrin phosphorylation take place when cells are detached from culture dishes with trypsin-EDTA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Spectrin redistributes to the cytosol and is phosphorylated during mitosis in cultured cells. 146 48

Filensin is a 100/110 kDa membrane-associated protein found in lens fiber cells. Previous studies have shown that this protein polymerizes in vitro and binds strongly to vimentin and to another 47 kDa lens membrane protein. Using cosedimentation assays, flotation assays and immunoelectron microscopy, we have examined the properties of purified filensin and measured its binding to lens membranes. Filensin behaves as a ureaextractable, hydrophilic protein which does not partition with Triton X-114 and is not affected by 1 M hydroxylamine at alkaline pH, an agent known to release fatty-acylated proteins from the membrane. Immunoblotting of urea-extracted lens membranes with two different affinity-purified antibodies reveals that, unlike intact filensin, a COOH-terminal filensin degradation product (51 kDa) remains tightly associated with the membranes. Purified filensin binds directly to urea-stripped lens membranes, but not to protein-free vesicles reconstituted from total lens lipids. The binding of filensin is not significantly influenced by the purified 47 kDa protein. Interestingly, the filensin-binding capacity of urea-extracted membranes is increased at least two-fold after trypsin treatment, which removes entirely the 51 kDa peptide from the membranes and presumably unmasks additional filensin-acceptor sites. Consistent with this, filensin binds to trypsinized and non-trypsinized membranes with similar affinities (2 x 10(-7) and 4 x 10(-7) M, respectively). Treatment of the membranes with thrombin, which also eliminates the 51 kDa peptide, does not increase their binding capacity, apparently because filensin-acceptor sites are also destroyed during proteolysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Membrane-binding properties of filensin, a cytoskeletal protein of the lens fiber cells. 147 67

We used a modification of fracture-flip to reveal the nanoanatomy of the inner surface of the plasma membrane in promastigotes of Leishmania. After freeze-fracture, lightly fixed promastigotes were coated with a stabilizing layer of carbon evaporated from an electron gun, thawed, and washed. Fractured promastigotes attached to the carbon casts by the protoplasmic (i.e., inner) halves of their plasma membranes were treated with Triton X-100, followed by exposure to low concentrations of trypsin and thorough washing. This was followed by picking up and flipping of the replicas, followed by air-drying. The actual inner surfaces of the plasma membrane were then imaged by platinum shadowing. Extended, three-dimensional, high-resolution views of the inner surface of the plasma membrane showed parallel arrays of microtubules (average spacing 47 nm) closely apposed to the inner surface. Cytochemical labeling confirmed the morphological identification of both subpellicular and flagellar microtubules, as determined by treatment with mouse monoclonal anti-alpha- or anti-beta-tubulin, followed by labeling with goat anti-mouse IgG adsorbed to colloidal gold. Removal of the microtubules revealed parallel arrays of particles (average diameter 17 nm). We hypothesize that these particles represent the cytoplasmic portion of proteins that link the microtubules to the plasma membrane.
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PMID:Stereo views and immunogold labeling of the pellicular microtubules at the inner surface of the plasma membrane of Leishmania as revealed by fracture-flip. 150 68

A mAb AD7, raised against canine liver Golgi membranes, recognizes a novel, 200-kD protein (p200) which is found in a wide variety of cultured cell lines. Immunofluorescence staining of cultured cells with the AD7 antibody produced intense staining of p200 in the juxtanuclear Golgi complex and more diffuse staining of p200 in the cytoplasm. The p200 protein in the Golgi complex was colocalized with other Golgi proteins, including mannosidase II and beta-COP, a coatomer protein. Localization of p200 by immunoperoxidase staining at the electron microscopic level revealed concentrations of p200 at the dilated rims of Golgi cisternae. Biochemical studies showed that p200 is a peripheral membrane protein which partitions to the aqueous phase of Triton X-114 solutions and is phosphorylated. The p200 protein is located on the cytoplasmic face of membranes, since it was accessible to trypsin digestion in microsomal preparations, and is recovered in approximately equal amounts in membrane pellets and in the cytosol of homogenized cells. Immunofluorescence staining of normal rat kidney cells exposed to the toxin brefeldin A (BFA), showed that there was very rapid redistribution of p200, which was dissociated from Golgi membranes in the presence of this drug. The effect of BFA was reversible, since upon removal of the toxin, AD7 rapidly reassociated with the Golgi complex. In the BFA-resistant cell line PtK1, BFA failed to cause redistribution of p200 from Golgi membranes. Taken together, these results indicate that the p200 Golgi membrane-associated protein has many properties in common with the coatomer protein, beta-COP.
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PMID:Identification of a 200-kD, brefeldin-sensitive protein on Golgi membranes. 155 55

gp65 and gp55 are glycoprotein components of CNS synapses that are recognised by a single monoclonal antibody, SMgp65. This antibody has now been used to investigate the molecular properties of these two glycoproteins and the structural relationship between them. Both gp65 and gp55 occur in most brain regions as doublets of apparent molecular masses of 63 and 67 kDa, and 52 and 57 kDa, respectively. Striatal samples, however, are enriched in a novel gp65 isoform of 69 kDa. Removal of oligosaccharide residues from gp65 and gp55 with trifluoromethanesulphonic acid shows that gp65 and gp55 are composed of single polypeptide chains of 40 and 28 kDa, respectively. Removal of sialic acid residues with neuraminidase lowers the apparent molecular mass of both glycoproteins by 5-6 kDa. Triton X-114 phase partitioning and alkaline extraction of synaptic membranes indicate that both gp65 and gp55 are integral membrane glycoproteins. Treatment of synaptic membranes with phosphatidylinositol-specific phospholipase C does not solubilise either glycoprotein. One-dimensional peptide and epitope maps obtained by digestion of gp65 and gp55 with endoproteinase lys C or subtilisin are consistent with a close structural relationship between the two molecules. Tryptic digestion of samples enriched in gp65 and/or gp55 results in the formation of a novel immunoreactive 53-kDa species that is resistant to further trypsin degradation except in the presence of 0.1% (wt/vol) sodium dodecyl sulphate. Trypsin treatment of cultures of forebrain neurones in situ lowers the apparent molecular mass of gp65 to 53 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular characterisation and structural relationship of the synapse-enriched glycoproteins gp65 and gp55. 157 91

Protein kinase C (PKC) was found to be a zinc metallo-enzyme. Atomic absorption measurements on the intact enzyme indicated that four zinc atoms (4.2 +/- 0.5) were bound per PKC alpha molecule. Similar stoichiometric ratios were determined for PKC beta II and PKC gamma, other PKC isoforms individually expressed in the baculovirus-insect cell expression system, as well as for purified rat brain PKC. By trypsin treatment of PKC alpha, a 32-kDa lipid binding regulatory and a 50-kDa catalytic domain were generated that were subsequently completely separated by gel filtration in the presence of Triton X-100/phosphatidylserine mixed micelles. Zinc was present at levels significantly above background in fractions that contained the 32-kDa fragment and displayed phorbol ester binding activity. Lipid association and phorbol ester binding did not lead to displacement of zinc from the protein. The stoichiometry determined for this fragment (4.7 +/- 0.9) suggested that zinc was bound exclusively within the lipid binding regulatory domain of intact PKC. Furthermore, this stoichiometry is consistent with zinc being coordinated between 6 cysteine residues in a structural motif related to the Zn(II)2Cys6 binuclear cluster identified in the GAL4 transcriptional factor (Pan, T., and Coleman, J.E. (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 2077-2081).
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PMID:The regulatory domain of protein kinase C coordinates four atoms of zinc. 157 87

Surface proteins of the mammalian stage of the parasitic protozoan, Trypanosoma brucei, were biotinylated with sulfosuccinimidyl 6-(biotinamido) hexanoate. Since the predominant protein labeled by this reagent is the membrane form of the variant surface glycoprotein (mfVSG), a procedure was developed to convert mfVSG to its soluble form by the endogenous glycosylphosphatidylinositol-specific phospholipase C while retaining other biotinylated surface proteins in a membrane-bound state. From these membranes, three novel glycoproteins of 60, 65, and 75 kDa could be isolated by a combination of Triton X-114 phase separation and precipitations by streptavidin and concanavalin A coupled to solid supports. These polypeptides were detected in trypanosomes expressing different mfVSGs and are thus considered to be invariant. In a variant clone in which the mfVSG is trypsin-sensitive, the invariant surface glycoproteins of 65 and 75 kDa, designated ISG65 and ISG75, respectively, were proteolytically degraded with similar kinetics as the mfVSG. Neither ISG65 nor ISG75 could be detected in procyclic trypanosomes, the stage of the parasite characteristic for the insect midgut. Gene cloning reported in the accompanying paper (Ziegelbauer, K., Multhaup, G., and Overath, P. (1992) J. Biol. Chem. 267, 10797-10803) suggests that ISG65 and ISG75 are transmembrane proteins.
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PMID:Identification of invariant surface glycoproteins in the bloodstream stage of Trypanosoma brucei. 158 55

Various studies have shown that mannose receptors rapidly eliminate glycoproteins and microorganisms bearing high mannose-type carbohydrate chains from the blood circulation. The purpose of this study was to characterize the mannose receptor in the liver, which in vivo is involved in the rapid clearance of tissue-type plasminogen activator from the circulation. Human liver membranes were solubilized in Triton X-100, and the solution was applied to a tissue-type plasminogen activator Sepharose column. Bound proteins were eluted with ethylenediaminetetraacetate (10 mmol/L). A second, similar purification step rendered a single liver protein of 175,000 daltons. A combination of ligand blotting and a chromogenic assay for tissue-type plasminogen activator demonstrated that the identified liver protein is a mannose receptor because it bound tissue-type plasminogen activator, this tissue-type plasminogen activator binding being fully inhibited by 0.2 mol/L D-mannose. Western-blot analysis revealed that the isolated liver protein is immunologically identical to the human mannose receptor from placenta. Treatment of the liver protein and the placenta mannose receptor with trypsin yielded the same pattern of proteolytic degradation products as identified on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. We conclude that the physiologically relevant mannose receptor for tissue-type plasminogen activator clearance isolated from human liver is immunologically and structurally similar to or identical with the human mannose receptor isolated from placenta.
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PMID:Isolation and characterization of the mannose receptor from human liver potentially involved in the plasma clearance of tissue-type plasminogen activator. 161 83


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