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

---

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

An equilibrium dialysis technique, applied to lyophilized particulate fractions of Torpedo electroplax, gave data consistent with a single kind of macromolecular binding of muscarone, with binding constant, 7 x 10(-7)M and an amount of 1 nmole per gram original electroplax. The effects on muscarone binding of 38 drugs suggested that muscarone binding reflected acetylcholine receptor activity. Of 18 enzyme preparations, only trypsin, chymotrypsin, and phospholipase C reduced binding activity, suggesting that a phospholipoprotein was binding. Partial "solubilization" of the binding protein was achieved, but the "solubilized" activity did not migrate on electrophoresis. Additional evidence was provided that acetylcholinesterase was not responsible for this muscarone binding.
...
PMID:A muscarone-binding material in electroplax and its relation to the acetylcholine receptor. II. Dialysis assay. 526 75

The transmembrane topology of acetylcholine receptor (AChR) delta subunit, synthesized in vitro and co-translationally integrated into dog pancreas rough microsomal membranes, was studied using limited proteolysis and domain-specific immunoprecipitation. Forty-four kilodaltons (kd) of the 65-kd delta subunit comprise a single fragment that is inaccessible to exhaustive proteolytic digestion from the cytoplasmic surface of the membrane by trypsin, chymotrypsin, thermolysin, and pronase. Previously, we have shown that this 44-kd "protected" fragment contains the amino terminus of the intact molecule and all of the core oligosaccharides (Anderson, D.J., P. Walter, and G. Blobel (1982) J. Cell Biol. 93: 501-506). Here we demonstrate that this domain can be further dissected into a 26-kd fragment, together with low molecular weight material, when the membranes are rendered permeable to trypsin by low concentrations of deoxycholate (Kreibich, G., P. Debey, and D. D. Sabatini (1973) J. Cell Biol. 58: 436-462). This 26-kd fragment contains all of the core oligosaccharides present on the intact subunit and therefore constitutes at least part, if not all, of the extracellular domain. The remaining low molecular weight material may derive from the membrane-embedded domain; our data imply that as much as 18 kd may be internal to the lipid bilayer. On the other hand, part of the cytoplasmic pole of AChR-delta can be recovered as a discrete, 12-kd fragment upon mild trypsinization of intact vesicles. We have used this 12-kd fragment to identify anti-AChR-delta monoclonal antibodies (mAbs) that react with the cytoplasmic domain of this subunit. Partial proteolytic fragmentation of the AChR in vitro translation products, in topologically well defined rough microsomes, may be used as a general assay to characterize the domain specificity of anti-AChR mAbs. For example, in the case of AChR-beta, we were able to identify two mAbs that recognize extracellular and cytoplasmic fragments, respectively.
...
PMID:Transmembrane orientation of an early biosynthetic form of acetylcholine receptor delta subunit determined by proteolytic dissection in conjunction with monoclonal antibodies. 619 54

The effect of tryptic degradation on structural and functional properties of the membrane-bound acetylcholine receptor from Torpedo californica has been investigated. Under conditions of proteolysis which resulted in extensive degradation of receptor subunits, the membrane preparations retained their full capability of mediating agonist-induced cation flux as measured in rapid kinetic experiments. Low concentrations on trypsin also cleaved receptor dimers to monomers, and this effect was paralleled by degradation of the Mr 65 000 subunits which are known to contain sulfhydryl group(s) involved in receptor dimerization through an interchain disulfide bond(s). This conversion to monomers occurred at lower trypsin concentrations when the enzyme was added to the outside of the vesicles compared with the effects observed when the enzyme was present inside the vesicles. Similarly Mr 43 000 protein consistently found in preparations of the membrane-bound acetylcholine receptor, which can readily be removed without apparent effect on receptor function, displayed greater susceptibility to proteolysis when trypsin was added to the exterior medium rather than inside the vesicles. The results emphasize the full functionality of the monomeric form of the acetylcholine receptor comprised of four polypeptides.
...
PMID:Functional stability of Torpedo acetylcholine receptor. Effects of protease treatment. 628 Jul 56

The synaptic portion of a muscle fiber's basal lamina sheath has molecules tightly bound to it that cause aggregation of acetylcholine receptors (AChRs) on regenerating myofibers. Since basal lamina and other extracellular matrix constituents are insoluble in isotonic saline and detergent solutions, insoluble detergent-extracted fractions of tissues receiving cholinergic input may provide an enriched source of the AChR-aggregating molecules for detailed characterization. Here we demonstrate that such an insoluble fraction from Torpedo electric organ, a tissue with a high concentration of cholinergic synapses, causes AChRs on cultured chick muscle cells to aggregate. We have partially characterized the insoluble fraction, examined the response of muscle cells to it, and devised ways of extracting the active components with a view toward purifying them and learning whether they are similar to those in the basal lamina at the neuromuscular junction. The insoluble fraction from the electric organ was rich in extracellular matrix constituents; it contained structures resembling basal lamina sheaths and had a high density of collagen fibrils. It caused a 3- to 20-fold increase in the number of AChR clusters on cultured myotubes without significantly affecting the number or size of the myotubes. The increase was first seen 2-4 h after the fraction was added to cultures and it was maximal by 24 h. The AChR-aggregating effect was dose dependent and was due, at least in part, to lateral migration of AChRs present in the muscle cell plasma membrane at the time the fraction was applied. Activity was destroyed by heat and by trypsin. The active component(s) was extracted from the insoluble fraction with high ionic strength or pH 5.5 buffers. The extracts increased the number of AChR clusters on cultured myotubes without affecting the number or degradation rate of surface AChRs. Antiserum against the solubilized material blocked its effect on AChR distribution and bound to the active component. Insoluble fractions of Torpedo muscle and liver did not cause AChR aggregation on cultured myotubes. However a low level of activity was detected in pH 5.5 extracts from the muscle fraction. The active component(s) in the muscle extract was immunoprecipitated by the antiserum against the material extracted from the electric organ insoluble fraction. This antiserum also bound to extracellular matrix in frog muscles, including the myofiber basal lamina sheath. Thus the insoluble fraction of Torpedo electric organ is rich in AChR-aggregating molecules that are also found in muscle and has components antigenically similar to those in myofiber basal lamina.
...
PMID:Components of Torpedo electric organ and muscle that cause aggregation of acetylcholine receptors on cultured muscle cells. 674 40

Extracts of calf brain were analyzed for substances capable of blocking the binding of [125I]-alpha-bungarotoxin to chick brain membrane preparations, and shown to contain blocking activity that was insensitive to heating and trypsin. Fractionation on Sephadex G-25 yielded two components, one representing nonspecific inhibition by inorganic cations, the other identified as choline by co-chromatography experiments and analysis of the purified inhibitor using thin layer chromatography and mass spectrometry. These results support the notion that the alpha-bungarotoxin binding macromolecule in the central nervous system is an acetylcholine receptor.
...
PMID:Search for ligands of neuronal alpha-bungarotoxin receptors. 683 Jun 4

An attempt to identify amino groups of Naja naja siamensis neurotoxin that interact with acetylcholine receptor by a comparison of their reactivities in free and receptor bound neurotoxin. Toxicon 21, 219-229, 1983--Free Naja naja siamensis neurotoxin was acetylated with non-radioactive and acetylcholine receptor-bound neurotoxin with radioactive acetic anhydride. The toxins from the two experiments were combined and the monoacetyl derivatives isolated by chromatography on Bio-Rex 70. The yields were determined by spectrophotometry and scintillation counting. To localize the acetyl group, a radioactive monoacetyl toxin was oxidized with performic acid, digested with trypsin and a peptide with the radioactive acetyl group was isolated by gel filtration on Sephadex G-25 and high voltage paper electrophoresis. Amino acid analysis indicated from which part of the molecule the peptide was derived. In free toxin, Ac-Lys 23 and 49 account for 56% and 12%, respectively, of the monoacetyl derivatives, and in bound toxin for only 25% and 8%. Lys 49 is as reactive as Ile 1 in free toxin and 50-150% more reactive than Lys 69, 35 and 12, but it has the lowest reactivity in bound toxin, being only about half as reactive as any of these three residues. The large decrease in reactivity of Lys 23 and 49 indicates that they interact with the receptor. The proximity of the receptor makes them less accessible to acetic anhydride. The reactivities are compared to that of Lys 12, which in free toxin has the least reactive amino group. The yield of Ac-Lys 23 relative to that of Ac-Lys 12 drops from 12.4 to 1.5, or by 88%, Lys 49, 2.6 and 0.5 (81%); Ac-Ile 1, 2.6 and 1.1 (58%); Ac-Lys 69, 1.9 and 0.9 (53%); Ac-Lys 35, 1.8 and 1.0 (44%). The drop in reactivity relative to that of Lys 12 indicates a real decrease, provided that Lys 12 does not become more reactive in bound toxin. This is unlikely, since sequence homology shows that Lys 12 corresponds to Lys 15 of the neurotoxin oxiana II of Naja naja oxiana, a residue known to interact with the receptor. Sequence homology also supports the conclusion that the drop in the reactivity of Ile 1 has the same cause. The receptor-binding region of the siamensis toxin is rather large, containing the residue Lys 23 and 49, Ile 1 and probably also Lys 69 and 35.
...
PMID:An attempt to identify amino groups of Naja naja siamensis neurotoxin that interact with acetylcholine receptor by a comparison of their reactivities in free and receptor-bound neurotoxin. 685 7

The exposure of the four subunits of the acetylcholine receptor from Torpedo californica on both the extracellular and cytoplasmic faces of the postsynaptic membranes of the electroplaque cells has been investigated. Sealed membrane vesicles containing no protein components other than the receptor were isolated and were shown to have 95% of their synaptic surfaces facing the medium. The susceptibility of the four receptor subunits in these preparations to hydrolysis by trypsin both from the external and from the internal medium was used to investigate the exposure of the subunits on the synaptic and cytoplasmic surfaces of the membrane. It was shown by sodium dodecyl sulfate gel electrophoresis of the tryptic products that all four subunits are exposed on the extracellular surface to a similar degree. All four subunits are also exposed on the internal surface of the membrane, but the apparent degree of exposure varies with the subunit size, the larger subunits being more exposed. The results are discussed in terms of a possible topographic model of the receptor as a transmembrane protein complex.
...
PMID:Topographic studies of Torpedo acetylcholine receptor subunits as a transmembrane complex. 693 12

Protease digestion of acetylcholine receptor-rich membranes derived from Torpedo californica electroplaques by homogenization and isopycnic centrifugation results in degradation of all receptor subunits without any significant effect on the appearance in electron micrographs, the toxin binding ability, or the sedimentation value of the receptor molecule. Such treatment does produce dramatic changes in the morphology of the normally 0.5- to 2-microns-diameter spherical vesicles when observed by either negative-stain or freeze-fracture electron microscopy. Removal of peripheral, apparently nonreceptor polypeptides by alkali stripping (Neubig et al. 1979, Proc. Natl. Acad. Sci. U. S. A. 76:690-694) results in increased sensitivity of the acetylcholine receptor membranes to the protease trypsin as indicated by SDS gel electrophoretic patterns and by the extent of morphologic change observed in vesicle structure. Trypsin digestion of alkali-stripped receptor membranes results in a limit degradation pattern of all four receptor subunits, whereupon all the vesicles undergo the morphological transformation to minivesicles. The protein-induced morphological transformation and the limit digestion pattern of receptor membranes are unaffected by whether the membranes are prepared so as to preserve the receptor as a disulfide bridged dimer, or prepared so as to generate monomeric receptor.
...
PMID:Protease effects on the structure of acetylcholine receptor membranes from Torpedo californica. 699 98

The 66 000-dalton or delta subunit of the acetylcholine receptor from Torpedo marmorata was covalently labeled in the presence of carbamoylcholine by 5-azido [3H]trimethisoquin (5-A[3H]T), a photoaffinity derivative of the local anesthetic trimethisoquin. After the attack of purified receptor with increasing concentrations of trypsin, the delta chain successively yielded fragments with apparent molecular weights of 50 000 (distinct from the beta subunit and referred to as the 50 000-bis (fragment), 49 000, and 47 000. With nondenatured (sodium cholate solubilized or membrane-bound) receptor, the 47 000-dalton fragment was not sensitive to trypsin and contained all of the covalent 5-A[3H]T label. This fragment was still glycosylated and had the same amino acid N terminus, valine, as the intact delta chain. A specific in vitro phosphorylation site of the delta subunit was located between the 49 000- and 50 000-dalton trypsin cleavage fragment and most likely is exposed to the cytoplasmic side of the membrane. A 16 000-dalton fragment of the delta chain was identified, which carriers a disulfide bond (or bonds) capable of cross-linking nonreduced receptor 9S monomerse into 12S dimers. The fragment did not remain associated with the receptor molecule after trypsin treatment.
...
PMID:Dissection of the 66 000-dalton subunit of the acetylcholine receptor. 723 16

The neuropeptide substance P acts, at micromolar concentrations, as a noncompetitive antagonist of nicotinic acetylcholine receptors (AChRs) of both neuronal and muscle subtypes. The mechanism of this inhibition has been shown to be most consistent with stabilization of a nonconducting desensitized state of the AChR, via binding to a site distinct from both the agonist site and the high affinity noncompetitive antagonist site. We have used a radioiodinated photoreactive analogue of substance P, containing the amino acid p-benzoyl-L-phenylalanine in place of the Phe8 residue of substance P, to identify the sites of interaction of substance P within the Torpedo california AChR. AChR-rich membrane suspensions were photolabeled in the absence or presence of the agonist carbamylcholine and/or nonradioactive substance P, and incorporation into AChR subunits was assessed by autoradiography after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In the absence of agonist 125I incorporation was detected in each subunit and was insensitive to substance P, whereas in the presence of carbamylcholine there was a 2-fold increase in photoincorporation into the AChR delta subunit that was inhibited by the addition of an excess of substance P. The sites of specific photoincorporation in the delta subunit were initially mapped by use of Staphylococcus aureus V8 protease to a 14-kDa fragment extending from delta Ile-192 to Glu-280. Further fragmentation of this 14-kDa fragment with trypsin and S. aureus V8 protease established that the sites of specific incorporation were restricted to the region delta Ser-253 to Glu-280, which contains the membrane-spanning region 2 that is known to form the lining of the ion channel. These results establish that in the presence of agonist at least a part of the undecapeptide substance P binds within the ion channel in the desensitized state of the AChR, and it is likely that the binding of substance P to this site is responsible for the action of substance P as a noncompetitive AChR antagonist.
...
PMID:Agonist-induced photoincorporation of a p-benzoylphenylalanine derivative of substance P into membrane-spanning region 2 of the Torpedo nicotinic acetylcholine receptor delta subunit. 752 76


<< Previous 1 2 3 Next >>

---