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 binding of triiodothyronine by Rana catesbeiana tadpole tail fin, tail muscle, kidney, and liver cytosol was studied using dextran-coated charcoal to separate bound and free hormone. A metal ion dependency was suggested by the fact that EDTA decreased the binding of triiodothyronine 80 to 90% in tail fin and tail muscle cytosol. Inhibition of binding in kidney or liver was less, 40 to 50%. This inhibition could be restored by adding an excess of divalent cations with an order of potency of Mn2+ greater than Ca2+ congruent to Co2+ greater than Sr2+ greater than Ba2+ greater than Mg2+. Other chelators, e.g. o-phenanthroline, 8-hydroxyquinoline, and ethylene glycol bis(beta-aminoethylether)-N,N'-tetraacetate also decreased the binding of triiodothyronine, whereas citrate, oxalate, imidazole, and glycine had no effect. The triiodothyronine binding capacity of tail fin cytosol was reduced by EDTA treatment and dialysis against buffer. Ca2+ in the 1 to 10 mM range and Mn2+ at 1 mM could restore the binding to normal levels. Higher Mn2+ increased binding 70% above normal or to Ca2+-restored levels. The triiodothyronine cytosol binding activity was nondialyzable, heat-labile. pH-dependent, pronase-digestible, but unaffected by incubation with trypsin, RNase, and DNase, suggesting that the cytosol binding sites are acidic proteins. Scatchard analysis of triiodothyronine binding by the cytosol of different tissues, revealed Kassoc of 7.1 x 10(6) M(-1), 11.6 x 10(6) M(-1), 3.6 X 10(6) M(-1), and 68.0 x 10(6) M(-1) for tail fin, tail muscle, kidney, and liver cytosol, respectively. The corresponding maximal binding capacities in picomoles per mg of crude cytosol protein in these four tissues were 10.4, 0.86, 1.3, and 0.04, respectively.
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PMID:Metal ion dependence of the binding of triiodothyronine by cytosol proteins of bullfrog tadpole tissues. 0 Mar 82

Tetrasodium ethylenediaminetetraacetic acid is one of the most effective agents that dissolve renal calculi, especially calculi containing calcium. To study the dissolving process of calculi in solutions, with or without trypsin, serial thin sections of renal calculi composed of calcium oxalate and/or phosphate were prepared and observed by polarizing microscopy. The effects of the solution on the surface of human renal calculi and rat uroepithelium also were studied by scanning electron microscopy. A remarkable difference in solubility was noted between the crystalline and the amorphous components in struvite calculi. Under the polarizing microscope the dissolving effect of 5 per cent tetrasodium ethylenediaminetetraacetic acid solution on struvite after 30 minutes of incubation was equivalent to the use of saline for 24 hours. The effect of trypsin was not apparent. However, under the scanning electron microscope trypsin accelerated the dissolving effect of the tetrasodium ethylenediaminetetraacetic acid solution in struvite and calcium oxalate calculi. The contradictory findings of the ineffectiveness of trypsin on the thin sections as opposed to the pronounced changes seen on the surface of the calculi could be attributed to the difference in the exposed area. The results suggest that trypsin does not seem to dissolve calculi but mainly facilitates the solution to permeate the calculi. The cellular arrangement of the uroepithelium was preserved in tetrasodium solution and in 0.04 per cent trypsin tetrasodium ethylenediaminetetraacetic acid solution.
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PMID:Effects of ethylenediaminetetraacetic acid-4 sodium solution on the surface of renal calculi and the uroepithelium. 9 99

Membrane vesicles from human platelets were prepared by various disruption and isolation techniques reported in the literature to yield fractions of predominantly surface or intracellular membrane origin. ATP + Mg2+-dependent Ca2+ accumulation and the formation of acylphosphate intermediates of the calcium pump(s) were followed in parallel experiments, and the consequences of a limited proteolysis of the membranes examined. In all types of preparations active Ca2+ uptake had both oxalate-sensitive and insensitive fractions and calmodulin had no effect on the rate of Ca2+ uptake. Limited proteolysis by trypsin eliminated oxalate-sensitive Ca2+ uptake while it had no effect on the oxalate-insensitive fraction. The Ca2+-induced EP complex had an apparent molecular mass of 100-110 kDa in all of the preparations, the EP showing a broad or even duplicated line in most autoradiographies. Mild trypsin digestion resulted in the formation of 80-, 55-, and 35-kDa phosphorylated fragments. The 80-kDa fragment corresponded to the limit polypeptide found in the proteolyzed erythrocyte membrane Ca2+ pump, its phosphorylation was stimulated by lanthanum, and it appeared in a different time course than the smaller fragments. The molecular mass and the formation pattern of the latter species corresponded to the tryptic fragments in the sarcoplasmic reticulum Ca2+ pump. Based on these results we suggest that platelet membrane preparations contain two types of Ca2+ pump proteins, one similar to the sarcoplasmic reticulum-type and the other to the erythrocyte-type enzyme.
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PMID:Demonstration of two distinct calcium pumps in human platelet membrane vesicles. 242 15

Spin-labeled derivatives of the bee venom protein, melittin, were obtained by reacting on the average one of the four amino groups of the protein with succinimidyl-2,2,5,5-tetramethyl-3-pyrroline-1-oxyl-3-carboxylate. All 16 statistically possible reaction products with 0, 1, 2, 3 or 4 spin labels per protein were then separated in a single pass with reversed phase high performance liquid chromatography. With the help of trypsin digestion and diode array detection it was possible to assign the primary structure of all 16 eluting fractions. All fractions with only one spin label per protein were purified for electron paramagnetic resonance measurements. The labeling sites cover different regions of the protein: one is at the N-terminus, one at lysine-7, and two are near the C-terminus at lysine-21 and lysine-23, respectively. This set of specifically labeled melittins was used to study the structure and dynamics of melittin in aqueous solutions and when bound to neutral or negatively charged membranes. In aqueous solution a reduction in rotational correlation time and appearance of spin-spin interaction was observed during salt-induced transition from a random coil monomer to a mostly alpha-helical tetramer. Membrane binding to phospholipid bilayers in low or high ionic strength was reflected only in a further decrease in mobility. The absence of any spin interaction in the membrane-bound state suggests that melittin is monomeric under these conditions. All derivatives were able to detect these structural changes, but melittin labeled at the N-terminal amino group was especially valuable. Because of postulated intramolecular hydrogen bonding, this label reflects directly the motion of the entire protein or tetramer. Broadening experiments with chromium oxalate show that all labeled sites are at least partially exposed to the aqueous phase when melittin is bound to membranes. This suggests that an alpha-helical melittin monomer binds to membranes with its axis parallel to the membrane surface.
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PMID:The aggregation state of spin-labeled melittin in solution and bound to phospholipid membranes: evidence that membrane-bound melittin is monomeric. 284 50

Mild trypsin treatment of canine cardiac microsomes consisting largely of sarcoplasmic reticulum vesicles produced a severalfold activation of oxalate-facilitated calcium uptake. The increase in calcium uptake was associated with an increase in ATP hydrolysis. Proteases other than trypsin were also effective although to a lesser degree. Trypsin produced a shift of the Ca2+ concentration dependency curve for calcium uptake toward lower Ca2+ concentrations, which was almost identical with that produced by phosphorylation of microsomes by cyclic AMP dependent protein kinase when the trypsin and the protein kinase were present at maximally activating concentrations. The Hill numbers (+/- SD) of the Ca2+ dependency after treatment of microsomes with trypsin (1.5 +/- 0.1) or protein kinase (1.7 +/- 0.1) were similar and were not significantly different from those for untreated control microsomes (1.6 +/- 0.1 and 1.8 +/- 0.1, respectively). Autoradiograms of sodium dodecyl sulfate-polyacrylamide electrophoretic gels indicate that 32P incorporation into phospholamban (Mr 27.3K) or its presumed monomeric subunit (Mr 5.5K) was markedly reduced when trypsin-treated microsomes were incubated in the presence of cyclic AMP dependent protein kinase and [gamma-32P]ATP compared to control microsomes incubated similarly but pretreated with trypsin inhibitor inactivated trypsin. The activation of calcium uptake by increasing concentrations of trypsin was paralleled by the reduction of phosphorylation of phospholamban. Trypsin treatment of microsomes previously thiophosphorylated in the presence of cyclic AMP dependent protein kinase and [gamma-35S]thio-ATP did not result in a loss of 35S label from phospholamban, which suggests that phosphorylation of phospholamban protects against trypsin attack.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Proteolytic activation of the canine cardiac sarcoplasmic reticulum calcium pump. 294 17

Human liver microsomal fractions exhibit ATP-supported Ca2+ uptake which is half-maximal at 7 X 10(-7) M free Ca2+ in the presence of oxalate. Ca2+ uptake is coupled to a Ca2+-stimulated ATPase activity, which is half-maximal at 4 X 10(-7) M free Ca2+. Catalysis involves formation of an Mr = 116,000 phosphoprotein with stability characteristics of an acylphosphate compound suggested to represent a phosphoryl protein intermediate of the Ca2+-ATPase. Phosphorylation is half-maximal at about 10(-6) M free Ca2+. The Mr = 116,000 protein is highly susceptible to proteolysis with trypsin. The phosphorylated active site was localized in an Mr = 58,000 primary tryptic fragment and in an Mr = 34,000 subfragment. Analyses on the mechanism of the Ca2+-ATPase suggest the following reaction sequence: formation of an ADP-reactive phosphoenzyme (Mr = 116,000) with bound Ca2+, which can transphosphorylate its Pi to ADP, giving rise to synthesis of ATP; reversible transformation of the ADP-reactive phosphoenzyme into an isomer without bound Ca2+, which cannot further react with ADP; hydrolytical cleavage, probably catalyzed by Mg2+, of the ADP-unreactive phosphoenzyme with liberation of Pi. Comparison with the Ca2+-transport ATPase in sarcoplasmic reticulum of skeletal muscle led us to suggest that the Mr = 116,000 Ca2+-ATPase belongs to the class of E1P . E2P-ATPases and might be operative as a Ca2+-transport ATPase at the level of the endoplasmic reticulum in human liver.
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PMID:Ca2+-activated ATPase in microsomes from human liver. 295 25

The effects of anticoagulants on the determination of both trypsin inhibitory capacity and the concentration of alpha 1-antitrypsin measured by radial immunodiffusion, and on the alpha 1-antitrypsin phenotype were investigated. These results were compared with those obtained for serum. The following anticoagulants were investigated: sodium citrate; sodium oxalate; buffered citrate; potassium oxalate/sodium fluoride; sodium heparin; and potassium EDTA. It was found that plasmas from all of the anticoagulants, except sodium heparin, resulted in apparently significant decreases of both trypsin inhibitory capacity and concentration of alpha 1-antitrypsin measured by radial immunodiffusion, relative to serum. These decreases were not simply due to dilution by anticoagulants. Using both acid starch gel electrophoresis followed by immunofixation and isoelectric focusing in agarose, no interference was found in the phenotype determination. It is concluded that serum should be used to measure the trypsin inhibitory capacity or the concentration of alpha 1-antitrypsin by radial immunodiffusion, although plasma is also suitable provided that sodium heparin is used as the anticoagulant. The alpha 1-antitrypsin phenotype can be determined with either serum or any of the plasma. None of the anticoagulants employed in this study was present in excess.
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PMID:Alpha 1-antitrypsin: the effect of anticoagulants on the trypsin inhibitory capacity, concentration and phenotype. 392 40

A cationic protein of rabbit serum bactericidal for Staphylococcus aureus was purified. The specific activity per unit of protein of the purified staphylocidal preparation was approximately 37,000 times greater than that of the serum from which it was isolated. Similar techniques were used to purify serum beta-lysin active against Bacillus subtilis approximately 24,000 times. The staphylocidal activity cannot be attributed to the same beta-lysin active against B. subtilis, lysozyme, or antibody-complement systems. The concentrations of staphylocidal beta-lysin in the sera of the five mammalian species studied did not correlate with their beta-lysin activities against B. subtilis. The two beta-lysins are similar in that both were heat-stable, sensitive to trypsin digestion, had molecular weights near 6,000, and were found in higher concentrations in serum than in plasma. Furthermore, similar techniques can be used to absorb and elute both substances in highly purified forms using cellulose asbestos filter pads and ion exchange chromatography on carboxymethyl cellulose. In contrast to the beta-lysin against B. subtilis, the staphylocidal beta-lysin was not released from blood platelets, and it was inactive in the presence of heparin, sodium citrate, sodium oxalate, ethylenediaminetetraacetic acid, acidic phospholipids, and acid pH values. A variety of proteins, including those of normal serum, preferentially inhibited the bactericidal activity of staphylocidal beta-lysin but not the beta-lysin against B. subtilis.
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PMID:Purification of staphylocidal beta-lysin from rabbit serum. 497 97

Cytosol from rabbit heart and slow and fast skeletal muscles was fractionated using (NH4)2SO4 to yield three cytosolic protein fractions, viz., CPF-I (protein precipitated at 30% saturation), CPF-II (protein precipitated between 30 and 60% saturation), and cytosol supernatant (protein soluble at 60% saturation). The protein fractions were dialysed and tested for their effects on ATP-dependent, oxalate-supported Ca2+ uptake by sarcoplasmic reticulum from heart and slow and fast skeletal muscles. CPF-I from heart and slow muscle, but not from fast muscle, caused marked inhibition (up to 95%) of Ca2+ uptake by sarcoplasmic reticulum from heart and from slow and fast muscles. Neither unfractionated cytosol nor CPF-II or cytosol supernatant from any of the muscles altered the Ca2+ uptake activity of sarcoplasmic reticulum. Studies on the characteristics of inhibition of sarcoplasmic reticulum Ca2+ uptake by CPF-I (from heart and slow muscle) revealed the following: (a) Inhibition was concentration- and temperature-dependent (50% inhibition with approx. 80 to 100 micrograms CPF-I; seen only at temperatures above 20 degrees C). (b) The inhibitor reduced the velocity of Ca2+ uptake without appreciably influencing the apparent affinity of the transport system for Ca2+. (c) Inhibition was uncompetitive with respect to ATP. (d) Sarcoplasmic reticulum washed following exposure to CPF-I showed reduced rates of Ca2+ uptake, indicating that inhibition results from an interaction of the inhibitor with the sarcoplasmic reticulum membrane. (e) Concomitant with the inhibition of Ca2+ uptake, CPF-I also inhibited the Ca2+-ATPase activity of sarcoplasmic reticulum. (f) Heat-treatment of CPF-I led to loss of inhibitor activity, whereas exposure to trypsin appeared to enhance its inhibitory effect. (g) Addition of CPF-I to Ca2+-preloaded sarcoplasmic reticulum vesicles did not promote Ca2+ release from the vesicles. These results demonstrate the presence of a soluble protein inhibitor of sarcoplasmic reticulum Ca2+ pump in heart and slow skeletal muscle but not in fast skeletal muscle. The characteristics of the inhibitor and its apparently selective distribution suggest a potentially important role for it in the in vivo regulation of sarcoplasmic reticulum Ca2+ pump, and therefore in determining the duration of Ca2+ signal in slow-contracting muscle fibers.
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PMID:Inhibition of sarcoplasmic reticulum calcium pump by cytosolic protein(s) endogenous to heart and slow skeletal muscle but not fast skeletal muscle. 631 55

Ca2+ binding and ATP dependent Ca2+ uptake by plasma membrane fraction were studied and the effect of treating plasma membrane fraction with trypsin, phospholipase c and neuraminidase on both activities was observed. 1. Plasma membrane fraction possessed the ability to bind Ca2+. The Scatchard plot of Ca2+ binding showed that plasma membrane had at least two types of Ca2+ binding sites of high and low affinity. 2. The amount of Ca2+ uptake by plasma membrane fraction was 18.51 +/- 1.31 nmoles Ca2+/mg protein/30 min at 10(-5)M Ca2+. The Ca2+ concentration for half maximal activation in Ca2+ uptake was 3.7 x 10(-7)M. 3. The ATP dependent Ca2+ uptake by the microsome isolated from guinea pig intestine was clearly stimulated by 4 mM K2-oxalate whereas that of plasma membrane fraction was not. 4. Trypsin and phospholipase c treatment led to a 40--88% reduction in the ATP dependent Ca2+ uptake. The Ca2+ concentration for half maximal activation Ca2+ uptake shifted to a high concentration. On the other hand, neuraminidase treatment resulted in a 43--93% increase in ATP dependent Ca2+ uptake. But, the Ca2+ concentration for half maximal activation in Ca2+ uptake was not shifted by neuraminidase treatment. The results show that plasma membrane plays an important role in regulating the cytoplasmic Ca2+ concentration. The results also suggest that a glycoprotein linked with sialic acid is involved in the flux of Ca2+ across the plasma membrane.
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PMID:[ATP dependent calcium uptake activity in plasma membrane fraction of intestinal smooth muscle (author's transl)]. 726 98


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