EC:3.4.21.4 - FACTA Search

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)

Deletions were constructed within a functional human immunodeficiency virus type 1 (HIV-1) proviral clone in order to assess the role of the envelope protein in virus particle formation. A graded exonuclease deletion technique was used to produce 12 clones with deletions of 175-308 nucleotides in the first conserved domain of envelope. This included 9 clones with frameshift deletions and 3 clones with in-frame deletions. Isogenic pairs of env deletion clones were produced with or without an additional deletion in the vif and vpr genes. Upon transfection, all clones produced virus particles, as determined by p24 antigen, reverse transcriptase, and sucrose gradient assays with conditioned media. Virus particles produced from clones with deletions in env or vif and vpr, or both regions, banded on sucrose gradients with a mobility similar to that of virus produced by the parental clone. The p24 gag capsid protein in the particles was resistant to trypsin, but the particles were disrupted by treatment with Triton X-100, suggesting the presence of a surrounding lipid bilayer. Furthermore, electron microscopic studies revealed both mature and immature virus particles derived from COS cells transfected with the env deletion clones. Cocultivation experiments with lymphoid cells and cells transfected with each of the env deletion clones demonstrated that the virus particles were noninfectious.
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PMID:Formation of noninfectious HIV-1 virus particles lacking a full-length envelope protein. 182 17

1. Using low salt, Triton X-100 and high salt extracts of bovine atria, two main proteinases were identified by means of fluorogenic oligopeptide substrates. 2. An acidic proteinase, extracted in low salt and Triton X-100 was identified as cathepsin B, but it caused little hydrolysis of the Z-Gly-Pro-Arg- containing substrate that resembles the cleavage site for activation of pro-ANF. 3. An alkaline proteinase was extracted only with high salt and had characteristics of the serine proteinase tryptase. It cleaved Z-Gly-Pro-Arg- containing substrates more efficiently than others tested and was localized in and around mast cells histochemically. Previously, Imada et al., 1988 (J. biol. Chem. 263, 9515-9519) found an identical enzyme would cleave ANF from pro-ANF. 4. These results suggest therefore that mast cell tryptase may be involved in the activation of ANF from pro-ANF.
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PMID:Proteinase activities in bovine atrium and the possible role of mast cell tryptase in the processing of atrial natriuretic factor (ANF). 183 23

N-linked oligosaccharides devoid of glucose residues are transiently glucosylated directly from UDP-Glc in the endoplasmic reticulum. The reaction products have been identified, depending on the organisms, as protein-linked Glc1Man5-9GlcNAc2. Incubation of right side-sealed vesicles from rat liver with UDP-[14C]Glc, Ca2+ ions and denatured thyroglobulin led to the glucosylation of the macromolecule only when the vesicles had been disrupted previously by sonication or by the addition of detergents to the glucosylation mixture. Similarly, maximal glucosylation of denatured thyroglobulin required disruption of microsomal vesicles isolated from the protozoan Crithidia fasciculata. Treatment of the rat liver vesicles with trypsin led to the inactivation of the UDP-Glc:glycoprotein glucosyltransferase only when proteolysis was performed in the presence of detergents. The glycoprotein glucosylating activity could be solubilized upon sonication of right side-sealed vesicles in an isotonic medium, upon passage of them through a French press or by suspending the vesicles in an hypotonic medium. Moreover, the enzyme appeared in the aqueous phase when the vesicles were submitted to a Triton X-114/water partition. Solubilization was not due to proteolysis of a membrane-bound enzyme. The enzyme could also be solubilized from C. fasciculata microsomal vesicles by procedures not involving membrane disassembly. About 30% of endogenous glycoproteins glucosylated upon incubation of intact rat liver microsomal vesicles with UDP-[14C]GLc could be solubilized by sonication or by suspending the vesicles in 0.1 M Na2CO3. These and previous results show that the UDP-Glc:glycoprotein glucosyltransferase is a soluble protein present in the lumen of the endoplasmic reticulum. In addition, both soluble and membrane-bound glycoproteins may be glucosylated by the glycoprotein glucosylating activity.
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PMID:The UDP-Glc:glycoprotein glucosyltransferase is a soluble protein of the endoplasmic reticulum. 184 Apr 23

The testis isozyme of angiotensin-converting enzyme (ACE; EC 3.4.15.1) is a membrane-bound protein that, apart from the first 35 N-terminal residues, is identical to the C-terminal half of somatic ACE and contains the same putative C-terminal membrane anchor. Stable transfection of Chinese hamster ovary (CHO) cells with an expression vector containing the full-length human testis ACE cDNA results in the expression of two forms of recombinant human testis ACE (hTACE): membrane-bound ACE and, surprisingly, large quantities (up to 3 mg/liter) of soluble hTACE in the conditioned medium. Both forms are fully active and are physicochemically similar. However, by phase separation in Triton X-114, the soluble enzyme is hydrophilic, as is an anchor-minus mutant hTACE recovered from the medium of CHO cells transfected with a vector that contains a 3'-truncated testis ACE cDNA lacking the sequence encoding the membrane anchor. In contrast, the membrane-bound hTACE is amphipathic but is converted to a hydrophilic form on treatment with trypsin. The data establish that in ACE the hydrophobic sequence near the C terminus is necessary for membrane anchoring. Moreover, in CHO cells, membrane-bound hTACE is apparently solubilized by proteolytic cleavage of this anchor. A similar mechanism may account for the release of endothelial ACE in vivo to generate serum ACE and more generally for the constitutive processing and solubilization of analogously anchored proteins such as the amyloid precursor protein, among others. The release of membrane-bound ACE in CHO cells may, therefore, provide a useful system for the study of membrane-protein-solubilizing proteases.
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PMID:Spontaneous solubilization of membrane-bound human testis angiotensin-converting enzyme expressed in Chinese hamster ovary cells. 184 59

Three monoclonal antibodies (F6F3, F6B11, and F6B3) were developed against Borrelia coriaceae antigens. All three antibodies appeared to be specific for this species and did not cross-react with Borrelia burgdorferi (strains B31 and IRS), Borrelia hermsii, Borrelia anserina, Leptospira interrogans serovar hardjo, or Treponema hyodysenteriae, as determined by indirect fluorescent antibody staining, enzyme-linked immunosorbent assay, and Western immunoblot analysis. Only one of these antibodies, F6B3, bound to spirochetes present in organ smears from the argasid tick, Ornithodoros coriaceus. The antigens recognized by F6F3, F6B11, and F6B3 have apparent molecular weights of ca. 37,000, 35,000, and 16,000, respectively, as determined by Western blot analysis. Antigens were analyzed by immune electron microscopy as well as Western blot and indirect fluorescent antibody staining analysis of spirochetes after enzyme (trypsin and protease K) and detergent (Triton X-100) treatments. These studies suggest that all three antigens are integral membrane proteins. The characteristics of the 37K and 35K proteins are consistent with the outer surface proteins of B. burgdorferi (OSP A and OSP B) described by Barbour et al. (A. G. Barbour, S. L. Tessier, and S. F. Hayes, Infect. Immun. 45:94-100, 1984), while data regarding the 16K protein are less conclusive but may suggest a cytoplasmic membrane location. We suggest that the 37K, 35K, and 16K antigens be designated integral membrane proteins A, B, and C, respectively, as a result of these studies.
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PMID:Characterization of Borrelia coriaceae antigens with monoclonal antibodies. 185 95

We have analyzed the functional domain structure of rat mammary glucosidase I, an enzyme involved in N-linked glycoprotein processing, using biochemical and immunological approaches. The enzyme contains a high mannose type sugar chain that can be cleaved by endo-beta-N-acetyl-D-glucosaminidase H without significantly affecting the catalytic activity. Based on trypsin digestion pattern and the data on membrane topography, glucosidase I constitutes a single polypeptide chain of 85 kDa with two contiguous domains: a membrane-bound domain that anchors the protein to the endoplasmic reticulum and a luminal domain. A catalytically active 39-kDa domain could be released from membranes by limited proteolysis of saponin-permeabilized membranes with trypsin. This domain appeared to contain the active site of the enzyme and had the ability to bind to glucosidase I-specific affinity gel. Phase partitioning with Triton X-114 indicated the amphiphilic nature of the native enzyme, consistent with its location as an integral membrane protein, whereas the 39-kDa fragment partitioned in the aqueous phase, a characteristic of soluble polypeptide. These results indicate that glucosidase I is a transmembrane protein with a luminally oriented catalytic domain. Such an orientation of the catalytic domain may facilitate the sequential processing of asparagine-linked oligosaccharide, soon after its transfer en bloc by the oligosaccharyl transferase complex in the lumen of endoplasmic reticulum.
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PMID:Glucosidase I, a transmembrane endoplasmic reticular glycoprotein with a luminal catalytic domain. 188 88

We report here that at least seven low Mr GTP-binding proteins (range 21.5 to 29 kDa) are associated with the membranes of zymogen granules from rat pancreas. GTP binding proteins of similar Mr but in different relative proportions were found in the cytosolic fraction. Treatment of intact granules with either trypsin or proteinase K caused the complete digestion of all the GTP-binding proteins, indicating that the proteins are located on the cytoplasmic face of the granule membrane. All the GTP-binding proteins were relatively resistant to extraction by 1.0M NaCl, 6.0M urea and 0.2M Na2CO3 (pH 11.0) but partitioned into the detergent phase of Triton X 114 extracts indicating that the proteins are tightly associated with the granule membrane. By analogy with the function of other small Mr GTP-binding proteins in regulation of membrane fusion events in eukaryotic cells, we suggest that these low Mr GTP-binding proteins in the pancreatic acinar cell may be involved in regulated secretion.
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PMID:Low molecular weight GTP-binding proteins associated with zymogen granule membranes from rat pancreas. 189 70

We have studied the binding of [125I-iodo]androgen-binding protein (ABP) and of [3H]delta 6-testosterone photoaffinity-labelled ABP to receptors in the plasma membrane of rat epididymal cells in three ways: ABP binding to a Triton X-100-solubilized membrane extract, ABP binding to isolated epithelial cells in suspension and autoradiography of segments of dissected epididymides after in-vitro intraluminal injection of labelled ABP. The binding of iodinated ABP to the receptor was similar to that of photoaffinity-labelled ABP in gel filtration. The ABP-receptor complex was eluted from Superose 6 gels as an aggregate, with a molecular mass of 2000 kDa. It was separated into two peaks by sucrose gradient ultracentrifugation, with respective sedimentation coefficients of 18.4 and 9.0 s. The activity of the receptor (ABP-binding capacity/mg protein) was tenfold higher in the caput than in the cauda. The binding of ABP to the receptor was pH dependent, being almost abolished at pH less than 4. The binding at 4 degrees C of photoaffinity-labelled ABP to epithelial cells corresponded to two types of binding sites. The numbers of high-affinity and low-affinity sites per cell were 1600 and 7700 respectively; the association constants of these sites were 67.9 and 2.8 litres/nM respectively. The binding was decreased by treatment of the cells with trypsin or incubation in the presence of EDTA. The binding in vitro of labelled ABP to the epididymis epithelium reached a maximum after about 20 min at 4 degrees C. In the autoradiographic study the tracer was found to be closely associated with coated pits, coated vesicles, endosomes and pale multivesicular bodies. Treatment of rats with cycloheximide significantly reduced the uptake of the tracer. Perfusion in vitro of epididymides with chloroquine produced a fourfold increase of the tracer in endosomes and multivesicular bodies.
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PMID:Evidence that androgen-binding protein endocytosis in vitro is receptor mediated in principal cells of the rat epididymis. 193 Jun 25

Crotoxin, the presynaptic neurotoxin from Crotalus durissus terrificus, was iodinated and used to demonstrate high affinity, specific binding to guinea-pig (Cavia porcellus) brain synaptosomes and synaptosomal membrane fragments. 125I-crotoxin binding to the membrane fragments displays two binding plateaus, (Kd1 = 4 nM and Kd2 = 87 nM, Bmax1 = 2 and Bmax2 = 4 pmoles/mg membrane protein), but binding to whole synaptosomes revealed only one plateau (Kd = 2 nM and Bmax = 5 pmoles/mg membrane protein). Rosenthal analyses of Scatchard plots yielded similar binding constants in the presence or absence of 0.025% Triton X-100. In addition to equilibrium analyses, kinetic analyses of 125I-crotoxin binding to synaptosomal membrane fragments gave a Kd-value of 3 nM. The Kd value was not significantly changed by the exclusion of added calcium, but the binding site number was lowered. Crotoxin binding was inhibited by the acidic subunit of crotoxin and several presynaptic neurotoxins, which were classified according to their inhibitory properties as, strong (acidic subunit of crotoxin, Mojave toxin, concolor toxin, taipoxin and pseudexin), moderate (ammodytoxin A and textilotoxin), weak (notexin and scutoxin A), very weak (notechis II-5) and non-inhibitory (basic subunit of crotoxin, beta-bungarotoxin, Crotalus atrox and porcine pancreatic phospholipases A2, dendrotoxin, and notechis III-4). Purified acidic subunit of crotoxin, the most potent competitor of crotoxin binding, was somewhat more competitive than intact crotoxin and the other strong inhibitors on a molar basis. Strong, moderate and weak inhibitor groups each differed from the preceding group by requiring about a ten fold increase in concentration to effect a 50% inhibition of crotoxin binding. The weak group was therefore at least two-orders of magnitude less effective than the strong inhibition shown by the acidic subunit of crotoxin. Treatment of synaptosomal membranes with protease K lowered 125I-crotoxin binding, whereas treatment with trypsin did not. Iodinated, phospholipase A2 from C. atrox venom showed no specific binding to whole synaptosomes. Our results demonstrate the presence and describe some of the properties of high affinity, specific binding sites in brain tissue for crotoxin and related presynaptic neurotoxins.
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PMID:Specific binding of crotoxin to brain synaptosomes and synaptosomal membranes. 194 68

We have examined the interaction of chromaffin granules from bovine adrenal medulla with microtubules. Chromaffin granules were mixed with microtubules made of phosphocellulose-purified tubulin, and pelleted through a 1.6 M sucrose cushion at 12,000 x g for 10 min. Both components (granules and microtubules) were pelleted when added together but not separately. This result indicates that granules form a heavy complex with the microtubules. Such a complex was visualized by an electron microscopy of the granule/microtubule mixture. Treatment of the granules with trypsin abolished their ability to interact with the microtubules. The binding of the granules to the microtubules; (i) was not sensitive to ATP; and (ii) was completely inhibited by the cleavage of C-terminal peptides of alpha- and beta-subunits of tubulin with subtilisin. These relationships suggest that the granule binding is mediated by one of the structural microtubule-associated proteins rather than by microtubule-dependent translocators. For identification of protein(s) mediating the binding, the granules were solubilized with Triton X-100, soluble proteins were mixed with the microtubules, and microtubules with bound proteins were pelleted through a glycerol cushion. At least one granule protein interacting with the microtubules was found in the pellet. This protein was identified as MAP2 according to its electrophoretic mobility and reactivity with a MAP2 antibody. Affinity chromatography of solubilized proteins on a column containing taxol-stabilized microtubules also revealed MAP2 as a protein of chromaffin granules interacting with the microtubules.
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PMID:MAP2-mediated binding of chromaffin granules to microtubules. 202 68

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