Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cDNA coding for the E isoform of alpha-1-antiproteinase (also called alpha-1-antitrypsin or alpha-1-proteinase inhibitor) was isolated by oligonucleotide hybridization following immunochemical screening of the rabbit liver cDNA library. The deduced amino acid sequence of the E isoform showed 96.4% identity in 413 residues of the F and S-1 isoforms of rabbit alpha-1-antiproteinase. The N-terminal half of the amino acid residues of the three isoforms was almost identical, but the putative reactive-site loop structure (P8-P'8) was significantly different in the various forms, the P1 site of the E form being glutamic acid. Interaction of the recombinant E form with the various proteinases was investigated by SDS/PAGE, followed by immunoblot analysis. The recombinant protein and trypsin formed a 62 kDa equimolar complex, which gradually became graded to the 37 kDa fragment through several intermediates. The E form also formed a complex of a similar size with elastase and became degraded to the 31 kDa fragment. Several proteinases which cleaved the E form without forming a detectable complex on SDS/PAGE are chymotrypsin, protease V8, pancreas kallikrein, thermolysin, papain and ficin. Other proteinases, with a stringent substrate specificity, such as thrombin, factor Xa, plasmin, plasma kallikrein and cathepsin G, did not attack the E form. Unlike the F and S-1 forms of rabbit plasma alpha-1-antiproteinase, the recombinant E form did not inhibit the amidolytic and proteolytic activities of trypsin. Neither elastase nor protease V8 was inhibited by the E form. Thus the change in the amino acid residues in the reactive-site loop, probably in the P1 site, is responsible for the loss of inhibitory activity of rabbit alpha-1-antiproteinase E. The novel character of the E form could provide a new insight into the interaction of serpin and proteinases.
 ...
PMID:Rabbit alpha-1-antiproteinase E: a novel recombinant serpin which does not inhibit proteinases. 773 71

The serum of EH reacted with all red cells (RBCs) except her own, ficin- or trypsin-treated red cells, and En(a-) red cells. This reactivity defined an anti-EnaTS specificity. The red cells of the proposita typed as M-N+S-S+, Vw+Mur-Hil-Hut-Anek-Lane-, Wr(a-b+), EnaKT+. Red cells of five relatives were Vw+ and positive with her serum. Titration studies suggest that EH is genetically an MiI homozygote and that her Vw+ relatives are MiI heterozygotes. There is no history of consanguinity. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting studies have agreed with the serologic observations. A variant sialoglycoprotein of faster mobility than normal glycoprotein A, but no normal glycoprotein A, was detected on her red cells. Treatment with N-glycanase did not alter the mobility, which indicated that there was no N-glycosylation of residue 26. These findings are in agreement with the reported properties of the Mi.I-specific glycoprotein A. The relatives' Vw+ red cells showed the variant sialoglycoprotein and normal glycoprotein A. EH appears to be the first reported MiI homozygote.
 ...
PMID:An anti-EnaTS detected in the serum of an MiI homozygote. 823 29

Young adult Sprague-Dawley rats were partially hepatectomized (two-thirds organ removal) and administered a basal diet supplemented with various animal- and plant-derived enzymes (trypsin, alpha-chymotrypsin, pepsin, lipase, alpha-amylase, malt diastase, ficin and bromelain) over a post-operative period of up to 10 days. Porcine or bovine dialyzed and lyophilized crystalline trypsin products containing 2400-3200 NF u/mg in addition to enteric-coated tablets with trypsin to chymotrypsin in a ratio of 6:1, were tested at supplementary levels of up to 4980 u/g ration. With the weight of tissue regenerated or the liver increment as indicator, trypsin in excess of 1000-1200 u/g ration proved inhibitory. This effect did not extend to alpha-chymotrypsin (levels of up to 4000 u/g diet) and the remaining 6 enzyme products specified above, nor to the s.c. injection of trypsin daily at 12,860 u/rat for the 1st 7 days. The last route promoted little change in increment with soy bean trypsin inhibitor (8.0 mg/rat daily for days 1 to 9). When a portion of the group fed a trypsin supplement of 2000 u/g was injected with phenobarbital i.p. at 80 mg/kg daily on each of the last 3 days, the resulting liver increment rose to the control range. As with lysine and arginine, acids of pertinence in tryptic proteolysis, no significant change was elicited by feeding a diet supplemented with peptone from tryptic digestion of casein. The enzyme-containing diets fed to sham-operated rats over a similar interval, did not affect the wet- or dry-liver weight per 100 g body weight. Microsomal parameters as total protein, cytochrome P-450 and the enzymes, aminopyrine demethylase and benzo[a]pyrene hydroxylase of livers from the partially hepatectomized or sham-operated rats fed trypsin and the other enzyme diets, presented no significant changes in the respective levels. The possible action of dietary trypsin in conjunction with inhibitors and growth factors controlling liver regeneration is discussed.
 ...
PMID:Liver regeneration in trypsin-fed partially hepatectomized rats. 843 34

The objective of this research was to formulate a mixture of commercial proteases that would mimic the rate and extent of protein degradation obtained using strained ruminal fluid. The proteolytic activity of strained ruminal fluid and several commercial proteases was characterized using 13 L-amino acid p-nitroanilides as artificial substrates. A mixture of Streptomyces griseus protease, chymotrypsin, and proteinase K at .042, 2.5, and .5 enzyme units/mL, respectively, was similar to the activity of strained ruminal fluid against the same artificial substrates. However, degradative activities were different in incubations with feed proteins as substrates. The rates of degradation of expeller soybean meal, solvent soybean meal, and casein were .08, .05, and .08/h, respectively, using the enzyme mixture and .03, .15, and .24/h using strained ruminal fluid. A second experiment compared degradative activity of S. griseus protease at .066 enzyme units/mL, ficin at .5 enzyme units/mL, and a mixture of trypsin, carboxypeptidase B, chymotrypsin, and carboxypeptidase A at 116.6, .5, 2.5, and .5 enzyme units/mL, respectively. Protein degradation rates obtained with strained ruminal fluid were two to six times faster than those obtained with the enzyme mixtures. A third experiment compared the degradability of 15 feed proteins with the mixture of trypsin, carboxypeptidase B, chymotrypsin and carboxypeptidase A to that with strained ruminal fluid. Degradation rates obtained using strained ruminal fluid ranged from .007 to .217/h; degradation rates using the enzyme mixture ranged from .010 to .079/h and were lower (P = .004) than with strained ruminal fluid. Overall, the experiments indicated that the commercial enzymes tested did not mimic the protein degradative activity of strained ruminal fluid.
 ...
PMID:Characterization of the proteolytic activity of commercial proteases and strained ruminal fluid. 870 28

Papain is inhibited by bullfrog plasma. CPI was isolated from bullfrog plasma by two step column chromatography; Cm-papain agarose column chromatography followed by FPLC Mono Q column chromatography with addition of benzamidine. Isolated CPI gave a single band on SDS-PAGE under reducing condition, and the molecular weight of reduced CPI was estimated to be over 200 kDa. When the isolated CPI was stored at 4 degrees C in the absence of benzamidine, the CPI was cleaved and yielded a protein consisting of heavy chain (60 kDa) and light chain (54 kDa). Both chains were linked with disulfide bond(s). The cleaved form of CPI was also isolated from the plasma in the absence of benzamidine. Intact and cleaved form of CPI inhibited papain and ficin, but not trypsin.
 ...
PMID:Bullfrog plasma cysteine proteinase inhibitor (CPI). 879 76

This work represents our first step toward fulfilling the need to discover a model system for experimental investigations of temporal oscillations, pattern formations, and other non-linearity related dynamic behavior in immobilized-enzyme-membrane systems. In this paper, the regions in the parameter space where self-sustained pH oscillations can be induced were determined via extensive numerical simulation for five enzyme-membrane systems involving four proteolytic enzymes: alpha-chymotrypsin, trypsin, bromelain, and ficin. From this study, we concluded that, even with current enzyme-immobilization techniques, the possibility of experimentally observing self-sustained pH oscillations in a flat membrane immobilized with alpha-chymotrypsin and using N-acetyl-L-tryptophan ethyl ester as a substrate is high. Under suitable conditions and with extra efforts, self-sustained oscillations may also occur in membrane systems immobilized with ficin, trypsin and bromelain.
 ...
PMID:Self-sustained pH oscillations in immobilized proteolytic enzyme systems. 886 29

Among sixty-nine monoclonal antibodies submitted to the workshop, 28 antibodies directed to glycophorins A and/or B but without blood group specificity were investigated by a series of methods involving agglutination, flow cytometry with CHO transfected cells expressing glycophorin A, ELISA with a carbohydrate-free peptide (residues 1-72) of glycophorin A, and immunoblotting. These MAbs were subdivided in several groups according to their specificity: N-terminal portion of GPA and GPB; N-terminal trypsin-sensitive portion of GPA; extracellular ficin-sensitive portion of GPA; intracellular domain of GPA; undetermined. Both flow cytometry with transfectant cells and ELISA with the synthetic peptide prove to be of value in order to determine subspecificities within these groups.
 ...
PMID:Immunochemical characterisation of monoclonal antibodies directed to glycophorins A and/or B. 909 10

The ratio of kininogen that is substrate of plasma kallikrein to kininogen, which is not substrate of plasma kallikrein in canine plasma, was about 1:3.6 by differential assay of kininogens. When the plasma was gel-filtered through a column of Sephacryl S-300 superfine, two fractions, which released kinin by trypsin, were obtained. These results indicate that two kininogens with different molecular weights are present in the plasma and they show different susceptibility to plasma kallikrein. One kininogen was purified by ion-exchange and zinc-chelating affinity chromatographies. Purified kininogen showed a single band in sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing condition and its molecular weight was 125 kDa. Released kinin from the kininogen by trypsin was bradykinin. The kininogen inhibited papain and ficin but did not inhibit bromelain at the concentration used. The kininogen bound to carboxymethylated-papain and this binding was dissociated by 3M NaSCN. Canine plasma shortened the abnormal clotting time of human high molecular weight kininogen-deficint plasma. The kininogen also shortened the abnormal clotting time of the plasma. From these results, the purified kininogen was high molecular weight kininogen and it was multi-functional protein.
 ...
PMID:Canine plasma kininogen: evidence for the presence of two kininogens and purification of high molecular weight kininogen and characterization as multi-functional molecule. 929 98

Three protein inhibitors of proteolytic enzymes with molecular weights 21, 22, and 23 kD were isolated from potato tubers (Solanum tuberosum L.) by ammonium sulfate precipitation followed by gel and ion-exchange chromatography. The 21- and 22-kD proteins were shown to be serine proteinase inhibitors with different specificities. The 21-kD protein inhibits human leucocyte elastase and trypsin effectively, but it is less effective towards chymotrypsin. The 22-kD protein is an inhibitor of cysteine proteinases and suppresses the activities of papain, ficin, and bromelain with the same affinities. None of the isolated proteins inhibit subtilisin, pepsin, or cathepsin D. The 21-kD protein consists of two disulfide-linked polypeptide chains with molecular weights of 16.5 +/- 1 kD and 4.5 +/- 1 kD. The 22-kD and 23-kD proteins have a single polypeptide chain. The N-terminal 22-25 amino acid sequences of these three proteins were determined. These sequences have significant homology to other plant inhibitors from the Kunitz soybean inhibitor superfamily.
 ...
PMID:Potato tuber protein proteinase inhibitors belonging to the Kunitz soybean inhibitor family. 948 70

Malaria male gametocytes within a newly ingested infected blood meal in the mosquito midgut emerge from erythrocytes and extrude approximately eight flagellar microgametes in a process termed exflagellation. In culture, and in blood removed from infected patients, emerging microgametes avidly adhere to neighboring uninfected and infected erythrocytes, as well as to emerged female macrogametes, creating "exflagellation centers". The mechanism of erythrocyte adherence is not known nor has it been determined for what purpose microgametes may bind to erythrocytes. The proposition of a function underlying erythrocyte adherence is supported by the observation of species-specificity in adhesion: microgametes of the human malaria Plasmodium falciparum can bind human erythrocytes but not chicken erythrocytes, whereas avian host Plasmodium gallinaceum microgametes bind chicken but not human erythrocytes. In this study we developed a binding assay in which normal, enzyme-treated, variant or null erythrocytes are identified by a cell surface fluorescent label and assayed for adherence to exflagellating microgametes. Neuraminidase, trypsin or ficin treatment of human erythrocytes eliminated their ability to adhere to Plasmodium falciparum microgametes, suggesting a role of sialic acid and one or more glycophorins in the binding to a putative gamete receptor. Using nulls lacking glycophorin A [En(a-)], glycophorin B (S-s-U-) or a combination of glycophorin A and B (Mk/Mk) we showed that erythrocytes lacking glycophorin B retain the ability to bind but a lack of glycophorin A reduced adherence by exflagellating microgametes. We propose that either the sialic acid moiety of glycophorins, predominantly glycophorin A, or a more complex interaction involving the glycophorin peptide backbone, is the erythrocyte receptor for adhesion to microgametes.
 ...
PMID:Adherence of erythrocytes during exflagellation of Plasmodium falciparum microgametes is dependent on erythrocyte surface sialic acid and glycophorins. 958 38


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>