EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Immobilization of enzymes (penicillin amidase and alpha-chymotrypsin) in water-soluble nonstoichiometric polyeloctrolyte complexes (PEC) formed by poly(4-vinyl-N-ethylpyridinium bromide) (polycation) and polymethacrylic acid (polyanion) was carried out. Particles of these PEC consist of a nucleus formed by sequences of salt bonds between the units of oppositely charged polyelectrolytes and the hydrophylic shell formed by ionized groups of polyanions which is in excess in PEC. Such a structure of PEC particles results in a cooperative phase transitions of these systems at slight variations of pH and ionic strength. The work demonstrates phase diagrams of PEC solutions. The values of pH and ionic strength at which phase transitions in solutions of different PEC occur were elucidated. The decrease of pH value from 6.1 to 5.7 leads to reversible phase transition followed by a saltatory increase of Km for immobilized penicillin amidase by 5-10 fold depending on substrate used. The phase transition induced by ionic strength increase up to 0,27 M NaCl doesn't change significantly the Km-value of enzymic reaction. The phenomenon observed can be accounted for by the different structure of PEC particles. The catalytic properties of immobilized chymotrypsin were shown to depend on the loci of enzyme attachment. If the enzyme is bound to polyanion, neither conformational changes of the matrix nor phase transition in solution influence its accessibility for the protein inhibitor, but rather change the binding constant. If the enzyme is attached to polycation, i.e. included in the polycomplex nucleus, two fractions of enzymes accessible and inaccessible for protein inhibitor appear.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Enzymes incorporated in polyelectrolyte complexes. Effect of matrix conformational changes and phase transitions in solutions on catalytic properties]. 635 18

Five isoinhibitors, proteins that inactivate chymotrypsin and elastase, were isolated from aqueous extracts of the intestinal parasite Ascaris lumbricoides var. suum by affinity chromatography. They were named in the order that they eluted from a CM-Sephadex C-25 column at pH 8.6 using a salt gradient. Isoinhibitor 1, first reported in this paper, is anionic on polyacrylamide gel electrophoresis at pH 9.3. The other four isoinhibitors are cationic on electrophoresis at pH 9.3, separable from each other, and identical with those reported previously [R.J. Peanasky and G. M. Abu-Erreish (1971) in Proceedings International Research Conference on Proteinase Inhibitors (Fritz, H., and Tschesche, H., eds.), pp. 281-293, de Gruyter, New York]. Amino acid compositions show differences between the isoinhibitors. Antibody to isoinhibitor 1 reacts with its self-antigen only. Antibody to isoinhibitor 5 reacts with isoinhibitors 2-5 but not with isoinhibitor 1. Association equilibrium constants show that each of the isoinhibitors interacts most avidly with alpha-chymotrypsin. For isoinhibitor 1, the K alpha for alpha-chymotrypsin was 2.6 X 10(11) M-1, for porcine elastase I 1.6 X 10(10) M-1, and for Subtilisin Carlsberg 3.3 X 10(7) M-1. For isoinhibitors 2-5, the K alpha ranges were 7.1 X 10(10) to 1.3 X 10(11) M-1 for alpha-chymotrypsin, 1.0 X 10(9) to 5.6 X 10(9) M-1 for porcine elastase I, and 6.0 X 10(8) to 1.3 X 10(9) M-1 for subtilisin Carlsberg. Because of the strong affinity of these inhibitors for alpha-chymotrypsin and elastase, two proteins in the normal environment of the nematode, the name isoinhibitors of chymotrypsin/elastase is suggested for these proteins.
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PMID:The isoinhibitors of chymotrypsin/elastase from Ascaris lumbricoides: isolation by affinity chromatography and association with the enzymes. 643 Feb 35

The influence of inorganic salts on the trans-cinnamoyl-chymotrypsin deacylation kinetics at 25 degrees C and various pH values has been studied: KCl (pH 6.0-13.4), CsCl (pH 9.8 and 13.1), NaCl and Na2SO4 (pH 9.8). Each salt was found to accelerate the reaction with different effectiveness which depended upon pH. The data show that the acyl-enzyme occurs in two forms, which are seen kinetically by different salting effects in deacylation; the equilibrium between the forms is controlled by an ionizing group in the enzyme with pKa about 12.
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PMID:Salting effects in cinnamoyl-chymotrypsin deacylation. 647 33

A single topical instillation (50 microliter) of the water soluble sodium salt of dichlorphenamide (10%) produced a pronounced and prolonged lowering of intraocular pressure (IOP), compared to suspensions of its free acid, in rabbits with alpha-chymotrypsin-induced ocular hypertension. In normal rabbits, instillation of dichlorphenamide sodium also produced a markedly elevated drug aqueous humor level relative to instillation of its free acid, indicating enhanced penetration into the eye. The IOP response after ocular instillation of dichlorphenamide sodium was equivalent to that produced by oral administration of 6 or 18 mg/kg dichlorphenamide sodium. Serum drug levels were lower and aqueous humor and iris-ciliary body levels were higher after instillation of dichlorphenamide sodium (10%) than after oral administration of 2 or 6 mg/kg. The data indicate that topically instilled dichlorphenamide sodium is capable of lowering IOP by a local action in the eye and provides a rationale for the potential utility of topical carbonic anhydrase inhibitors as a therapy for glaucoma in man.
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PMID:Topical ocular hypotensive activity and ocular penetration of dichlorphenamide sodium in rabbits. 651 Jul 19

The variable hydrophobic nature of proteins allows their separation through differential hydrophobic surface interactions. From these observations two modes of protein chromatography have been developed, hydrophobic-interaction chromatography (HIC) and reversed-phase chromatography (RPC). Selectivity of the HIC column can be easily manipulated by changing mobile phase variables. Protein retention was increased by decreasing the pH from neutrality or by using a salt with a greater "salting-out" ability. In addition, selectivity can be altered through chemical modification of the matrix surface. Protein retention and resolution decreased concomitantly with matrix ligand density. There were several major differences in HIC and RPC selectivity. Hydrophilic proteins such as cytochrome c and myoglobin were weakly retained on the HIC column but strongly retained on the RPC column. In contrast, a hydrophobic protein such as beta-glucosidase was strongly retained on the HIC column and only weakly retained on the RPC column. Other proteins were retained equally by RPC and HIC columns. Load capacity on the HIC column was determined by plotting resolution as a function of protein load. Resolution decreased significantly after 7.5 mg of total protein had been loaded onto the column per cm3 of column material. Samples of lactic dehydrogenase and alpha-chymotrypsin ranging in size from 10-200 micrograms were recovered from an HIC column with greater than 86% enzymatic activity in all cases. The recovery of enzymatic activity of alpha-chymotrypsin ranged from 55-91%, while none of the activity of beta-glucosidase was recovered from the RPC column.
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PMID:Comparison of hydrophobic-interaction and reversed-phase chromatography of proteins. 653 Apr 30

Rat liver and kidney cytosolic extracts contain the glucocorticoid receptor (binder II) and corticosteroid binder IB, both of which possess the steroid- and DNA-binding domains. Since it has been speculated that the smaller binder IB may be generated from binder II by proteolysis, the chymotrypsin-produced receptor fragment in rat liver cytosol has been compared with binder IB in terms of charge, size and DNA binding characteristics. The [3H]triamcinolone acetonide-receptor complex is converted to a smaller fragment by short term digestion (10 degrees C, 30 min) with 100 micrograms/ml alpha-chymotrypsin. Although the chymotrypsin fragment produced from previously heat-activated binder II and binder IB both exhibit DNA-binding capability, they differ in charge and size. Whereas the alpha-chymotrypsin-treated receptor has a Stokes radius of 30 A and elutes from DEAE-cellulose at 0.06 M potassium phosphate in a linear salt gradient, binder IB has a Stokes radius of 20 A and elutes in the buffer wash of the DEAE-cellulose column. Thus, while binder IB can be resolved from the heat-activated form of the [3H]TA-receptor on DEAE, the heat activated alpha-chymotrypsin product elutes from the anion exchange resin at the same ionic strength as intact activated binder II (i.e. at 0.05 M potassium phosphate), and the unactivated intact receptor elutes at about 0.20 M potassium phosphate. A more extended digestion with alpha-chymotrypsin (24 h, 0 degrees C) results in elimination of the DNA binding site without further reduction of the Stokes radius or change in the elution pattern from DEAE-cellulose. Furthermore, molybdate completely blocks formation of binder IB but does not inhibit the production of the receptor fragment by alpha-chymotrypsin. Treatment of the hepatic [3H]TA-receptor complex with RNase has no effect on the charge, size or DNA binding properties of the bound receptor. These results suggest that RNase does not activate the [3H]TA-receptor complex nor does it produce a IB-like component in the liver cytosol. The present results are consistent with the hypothesis that binder IB is formed in vitro by a process which may not involve proteolytic cleavage or RNase-induced modification of the glucocorticoid receptor (binder II).
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PMID:Comparison of corticosteroid binder IB with the alpha-chymotrypsin- and RNase-treated hepatic glucocorticoid receptors. 667 55

Streptococcus mutans GS5 was grown in a synthetic medium containing radioactive thymidine to monitor cell lysis by assay of the release of DNA. Bacteriolysis was achieved by sequential treatment of the cells with either hen egg white lysozyme and sodium thiocyanate or a combination of hen egg white lysozyme and a proteolytic enzyme followed by addition of the thiocyanate. In the absence of sodium thiocyanate, a small percentage of the total macromolecular thymidine was released in control reaction mixtures during incubation. This amount of released DNA more than doubled in trypsin-treated cells, but the inclusion of lysozyme in reaction mixtures prevented assay of the DNA. Lysis was found to be optimal in the late log phase of growth and was dependent on the concentrations of both lysozyme and protease. Concentrations of trypsin or chymotrypsin as low as 0.01 microgram/ml were found to be effective in enhancing the lytic process. The addition of protease to lysozyme-inorganic salt reaction mixtures altered both the pH and ionic strength profiles of cell lysis. At pHs of 5.5 or lower, both the lysozyme-NaSCN and the lysozyme-trypsin-NaSCN systems were inactive in mediating lysis. The loss of insoluble cell wall peptidoglycan by lysozyme treatment was pH independent and did not appear to be affected by the addition of protease. Either diluted whole saliva or neutrophil extracts could replace trypsin to enhance cell lysis further.
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PMID:Bacteriolysis of Streptococcus mutans GS5 by lysozyme, proteases, and sodium thiocyanate. 675 7

We have found that the collagen from a patient with the Ehlers-Danlos syndrome type VII contained a polypeptide chain, pN alpha 2, not present in collagen prepared from normal tissue. Fibroblasts cultured from the patient's skin produced type I procollagen in which the NH2-terminal propeptide of pro alpha 2 was cleaved to about half of normal values by chick procollagen neutral protease which removes the NH2-terminal propeptides from procollagen (N-protease). The NH2-terminal propeptide on the pro alpha 2 chain of the patient's procollagen was also more resistant than procollagen from control fibroblasts to digestion by pepsin or alpha-chymotrypsin. assays for procollagen N-protease indicated that the patient's fibroblsts contained about the same level of enzymic activity as normal fibroblasts. These results suggest that the patient's fibroblasts synthesize both an abnormal pro alpha 2 chain and a normal pro alpha 2 chain. The abnormality probably consists of a structural mutation in or near the site at which procollagen N-protease cleaves the pro alpha 2 chain. The results presented here appear to provide the first example of a mutation in a structural gene for collagen. Since equal amounts of pN alpha 2 and alpha 2 are found in the protein in neutral salt extracts of the patient's tissue, as well as in newly synthesized collagen produced by cultured skin fibroblasts, and since both parents are phenotypically normal and express exclusively normal collagen chains, the patient is likely to be a sporadic heterozygote, arisen by new mutation, with one normal and one abnormal gene coding for pro alpha 2.
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PMID:Evidence for a structural mutation of procollagen type I in a patient with the Ehlers-Danlos syndrome type VII. 677 53

Larger ribosomal subparticles (L-subparticles) of rabbit ribosomes were treated with either ribonucleases (I or T1) or proteinases (trypsin or chymotrypsin), and their capacity to function in poly(U)-directed polyphenylalanine synthesis and in the puromycin reaction was investigated. The effects of pretreatment of L-subparticles on the reconstruction of active subparticles from core-particles derived by treatment with 2.75 M-NH4Cl/69 mM-MgCl2 and split-protein fractions were also examined. The protein moiety of proteinase-treated L-subparticles was analysed by one-dimensional sodium dodecyl sulphate/polyacrylamide- and two-dimensional polyacrylamide-gel electrophoresis. The introduction of 16--100 scissions in the RNA moiety had no effect on the activity of the L-subparticles in polyphenylalanine synthesis, and there was no effect on the stability of L-subparticles to high-salt shock treatment and a marginal effect on the reconstruction of L-subparticles from high-salt-shock core-particles and split-protein fractions. In contrast, L-subparticles treated with low amounts of trypsin (0.56 ng of trypsin/microgram of L-subparticle) were inactive in polyphenylalanine synthesis, and their capacity to function in partial-reconstruction experiments was diminished. Activity in the puromycin reaction was increased by 70% as a result of trypsin treatment (280 ng of trypsin/microgram of L-subparticle). At least two of the acidic proteins implicated in the translocation function were not affected by trypsin treatment. Trypsin-treated L-subparticles had lost their capacity to bind the smaller ribosomal subparticle (S-subparticle). The protein(s) needed for S-subparticle binding were shown to be present in high-salt-shock cores. At least six proteins associated with the core-particles were attack during trypsin treatment of L-subparticles. An examination of L-subparticles isolated from trypsin-treated polyribosomes showed that the amount of trypsin necessary to decrease the activity of the subparticle by 50% was about twice that needed in the treatment of L-subparticles alone. The largest protein of rabbit L-subparticles (approx. 51 000 daltons) was cleaved in a stepwise fashion by trypsin to fragments of approx. 40 000 daltons. This protein was also cleaved by chymotrypsin.
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PMID:Resistance of the peptidyltransferase centre of rabbit ribosomes to attack by nucleases and proteinases. 677 76

Culture-produced subendothelium (SE) has been prepared from cultured porcine aortic endothelial cells (ECs) by a rapid freeze-thaw, ice-shearing method. En face preparations of this in situ SE material are essentially free of intact or damaged cells and cell debris and consisted of an extensive meshwork of microfibrillar and amorphous material. Washed porcine platelets reacted extensively with this SE material and were associated with the SE as single adherent platelets, single spread platelets, and varying-sized platelet aggregates or 'microthrombi'. Platelet aggregates were associated only with the damaged or frayed edges of the SE, and the platelets had undergone extensive SE-induced contraction and degranulation, as indicated by transmission electron microscopy. Platelet-SE interaction was affected by pH, calcium, platelet concentration, rapid shaking and exposure time. Platelet-SE interaction was significantly enhanced by the addition of 0.1-1% citrated plasma or purified porcine F.VIIIR:WF. Pretreatment of the SE with thrombin, elastase, neuraminidase or hyaluronidase had no effect on platelet-SE interaction, whereas pretreatment with pepsin, plasmin, trypsin, alpha-chymotrypsin or collagenase decreased or completely abolished all platelet-SE interaction. Extraction of the SE with various solutions (high salt, detergents, etc.) had no effect on platelet-SE interaction, only solutions containing sodium dodecyl sulfate completely abolished all platelet-SE interaction.
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PMID:Culture-produced subendothelium. I. Platelet interaction and properties. 680 25

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