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

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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)

Two highly purified sarcoplasmic reticulum membrane fractiones differing in their sensitivities to the uncoupling action of caffeine were isolated from white skeletal muscles of the rabbit. The main protein component of both fractions is a catalytical polypeptide of Ca2+-dependent ATPase. Treatment of the caffeine-sensitive reticular fraction by trypsin or DTNB completely removes the effect of caffeine. It was found that similar effects on the caffeine-sensitive reticular fraction are exerted by bemegride, camphor, ethymizole and cordiamine. Isolation of Ca2+-dependent ATPase from both reticular fractions and reconstruction of Ca2+-transporting vesicles were carried out. Ca2+ transport by the vesicles enriched by ATPase from the caffeine-sensitive reticular fraction is uncoupled under the effect of caffeine; however, caffeine has no effect on the vesicles enriched by caffeine-insensitive reticular ATPase. The molecular weight of caffeine-sensitive and caffeine-insensitive ATPases determined in the presence of sedium dodecyl sulfate are found to be identical. Electrophoresis in the presence of digitonin revealed different electrophoretic behaviour of the two forms of ATPase.
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PMID:[Two forms of Ca2+-dependent ATPase from sarcoplasmic reticulum]. 15 30

The purified preparations of glyceraldehyde-3-phosphate dehydrogenase isolated from frog and pike skeletal muscles were found homogenous under polyacrylamide gel electrophoresis. Their amino acid composition is similar to that of glyceraldehyde-3-phosphate dehydrogenase from other animal species. The interaction kinetics for frog and pike glyceraldehyde-3-phosphate dehydrogenase SH-groups with 5,5'-dithio-bis-(2-nitrobenzoate) (DTNB) were studied. A negative correlation between the thermal stability of the enzyme preparations from pig, pike, lamprey and frog muscles and the reactivity of their SH-groups with respect to DTNB was observed. NAD at saturating concentrations was found to protect the enzyme from lower vertebrates muscles against thermal inactivation in a lesser degree than does the pig muscle enzyme. The weaker protective effect of NAD was observed for lamprey and frog enzyme preparations, which are characterized by a low SH-group reaction ability. Frog and pike apoenzymes are considerably more resistant to trypsin proteolysis than the pig apoenzyme.
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PMID:[Comparative study of D-glyceraldehyde-3-phosphate dehydrogenase from frog and pike skeletal muscles]. 31 19

Purified pea chloroplast NADP-malate dehydrogenase (S)-malate: NADP+ oxidoreductase, EC 1.1.1.82) was digested with trypsin and the resulting peptides were separated by HPLC and sequenced. Together with the information from earlier work (Fickenscher, K. et al. (1987) Eur. J. Biochem. 168, 653-658) the total sequence is not known to an extent of 78%. Comparison with the sequence of the corn NADP-malate dehydrogenase deduced from its cDNA (Metzler, M.C. et al. (1989) Plant Mol. Biol. 12, 713-722) showed 84% agreement; however, the 11 N-terminal residues exhibit only 27% similarity. The N- and C-terminal extrapeptides of the pea NADP-malate dehydrogenase when aligned with non-regulatory NAD-malate dehydrogenases from bacteria or mammals consist of 30 and 17 amino acids, respectively. Since all cysteine-containing peptides were sequenced, the number of eight cysteines per subunit of the pea enzyme was established. The native, oxidized enzyme is characterized by an extremely slow reactivity of two thiols. Titration of the thiols of the denatured, oxidized enzyme both with DTNB and with pCMB resulted in six thiols not involved in disulfide formation. Therefore, one disulfide bridge must be present per 38.9 kDa subunit. Analysis of disulfide bonds by urea gel electrophoresis confirmed this finding. Using digestion products of NADP-malate dehydrogenase with aminopeptidase K, the location of the single disulfide bridge was established to be on the N-terminal arm (Cys-12 and Cys-17) of the polypeptide chain.
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PMID:Primary structure and analysis of the location of the regulatory disulfide bond of pea chloroplast NADP-malate dehydrogenase. 198 82

NADPH-cytochrome P-450 reductase in rat testicular microsomal fraction was solubilized by trypsin, and purified to apparent homogeneity in polyacrylamide gel electrophoresis. Molecular weight of the enzyme was estimated to be about 70,000 by SDS-polyacrylamide gel electrophoresis. Km values were estimated as 18 microM for cytochrome c, 17 microM for dichlorophenol indophenol (DCPIP), 50 microM for K3Fe (CN)6 and 1.7 microM for NADPH. The cytochrome c reducing activity of the purified preparation was decreased by tetranitromethane (TNM), a reagent for nitration of tyrosine residues in a protein. The inactivation exhibited pseudo-first-order kinetics. A plot of log kapp vs log [TNM] gave a straight line with slope = 1.05, indicating the reaction of one modifier molecule in the inactivation process. The decrease of the reducing activities for DCPIP and K3Fe(CN)6 by TNM progressed more slowly than that for cytochrome c. The inactivation of cytochrome c reduction was protected completely by 0.1 mM NADP(H) and partially by 0.1 mM DCPIP and cytochrome c. No preventive change of the inactivation by TNM was observed by addition of NAD+ or testosterone. On the other hand, the differential modification by DTNB, TNM and DTT indicated that there were amino acid residues modified by TNM, such as tyrosine residues, at or near the active-site of the NADPH-cytochrome P-450 reductase.
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PMID:Purification of NADPH-cytochrome P-450 reductase from microsomal fraction of rat testes, and its chemical modification by tetranitromethane. 309 39

Identical tripeptides of the sequence X-Pro-Lys, where X is an unknown blocking group, were isolated from trypsin digests of bovine cardiac alkali light chain and the LC2 light chain of rabbit fast muscle. Chemical, electrophoretic and 1H-NMR evidence characterized X as an unusual amino acid, alpha-N-trimethylalanine (Me3Ala), which was earlier reported as the N-terminal amino acid of the A1 alkali light chain of rabbit fast muscle [Henry et al. (1982) FEBS Lett. 144, 11-15]. The narrow line width and chemical shift position (delta = 3.23 ppm) of the--N+-(CH3) protons of Me3Ala made 1H-NMR spectroscopy a convenient method to search for this residue in other light chains. A survey of many different light chains showed that this signal was present in all vertebrate striated muscle light chains of the A1-type (LC1, 'essential' light chains) and LC2-type ('DTNB'-light chains, 'phosphorylatable' light chains) but was absent from all invertebrate muscle and vertebrate smooth muscle light chains tested. It was also absent from the vertebrate fast-muscle-specific A2-type (LC3) light chains. The spectral characteristics of these signals were consistent with their having arisen from the protons of an--N+-(CH3)3 grouping. Since no epsilon-trimethyllysine could be detected in acid hydrolysates of these proteins, it appears that Me3Ala is a general feature as the N-terminal amino acid in these light chains. 1H-NMR studies on bovine cardiac myosin subfragment 1 (S1) showed that the Me3Ala methyl proton signal was clearly visible and that the spectrum more closely resembled that of a rabbit S1 isoenzyme, S1(A1), than S1(A2), suggesting that the 40-residue N-terminal segment of the alkali light chain in cardiac S1 also possesses a high segmental mobility. Addition of actin caused the same gross changes to the cardiac S1 spectrum as noted earlier for rabbit S1(A1) [Prince et al. (1981) Eur. J. Biochem. 121, 213-219]. In particular, a marked reduction in the segmental mobility of the N-terminal region of the alkali light chain was noted, consistent with a direct interaction of this area with actin.
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PMID:The widespread distribution of alpha-N-trimethylalanine as the N-terminal amino acid of light chains from vertebrate striated muscle myosins. 397 97

1. A latent collagenase (EC 3.4.24.3) has been isolated from rheumatoid synovial fluids and purified by (NH4)2SO4 precipitation and column chromatography, utilising Sephadex G-150, DEAE Sephadex A-50 and Sephadex G-100 superfine grade. 2. The final preparation activated by trypsin (EC 3.4.21.4) had a specific activity against thermally reconstituted collagen fibrils of 259 micrograms collagen degraded/min per mg enzyme protein, representing a nearly 800-fold increase over that of the original rheumatoid synovial fluid. 3. The latent collagenase preparation can be activated by trypsin and to some extent by HgCl2 but not by 3 M NaSCN, 3.5 M NaCl, 5,5'-dithiobis-(2-nitrobenzoic acid) (DTNB) or p-chloromercuribenzoate. 4. Inhibition studies and the acrylamide gel electrophoretic pattern of collagen degradation products showed that the trypsin-activated enzyme has the essential features of a neutral collagenase. 5. The molecular weights, determined by calibrated gel filtration, were 52 000 and 43 000 for the latent and the activated enzyme, respectively. 6. The nature of the latency of synovial fluid collagenase is discussed.
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PMID:A latent collagenase from rheumatoid synovial fluid. Purification and partial characterization. 625 72

The changes in water diffusion across human erythrocyte membranes following exposure to various inhibitors and proteolytic enzymes have been studied on isolated erythrocytes suspended in isotonic buffered solutions. An important issue was to investigate whether the sulfhydryl reacting reagents that have been applied in osmotic experiments showed similar effects on diffusional permeability. It was found that mercurials, including mersalyl, were the only sulfhydryl reacting reagents that were efficient inhibitors. Under optimal conditions a similar degree of inhibition (around 45%) was found with all mercury-containing sulfhydryl reagents. Other reagents, including the sulfhydryl reagent DTNB, phloretin, or H2DIDS, the specific inhibitor of the anion transport system in erythrocyte membrane, did not appear to inhibit significantly the diffusional permeability. No changes in water diffusion were noticed after exposure to erythrocytes to trypsin and chymotrypsin. A new kind of experiments was that in which the effects of exposure of erythrocytes to two or more agents were studied. It was found that none of the chemical manipulations of membranes that did not affect water diffusion hampered the inhibitory action of mercurials. These findings show that the SH groups involved in water diffusion across erythrocyte membrane do not react with any of the other SH reagents aside from mercurials and that the molecular mechanism of water transport is not affected by chymotryptic cleavage of band 3 protein into the 60 and 35 kD fragments. The NMR method appears as a useful tool for studying changes in water diffusion in erythrocyte membranes following various chemical manipulations of the membranes with the aim of locating the water channel.
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PMID:Water exchange through erythrocyte membranes: nuclear magnetic resonance studies on the effects of inhibitors and of chemical modifications of human membranes. 664 95

During proteolytic digestion of myosin to prepare HMM or HMM-S-1 subfragments, myosin light chains are affected variously according to experimental conditions. In the presence of Ca2+ at low ionic strength trypsin rapidly degrades the DTNB light chain to a 18 K peptide. This new DTNB light chain is compared to a DTNB (17K) light chain obtained by chymotryptic digestion under similar conditions as shown here and in parallel studies. (Weeds and Pope (1977), J. Mol. Biol, 111, 129--157). Whereas the chymotryptic DTNB (17K) has lost its phosphorylation site (Ser-15), tryptic DTNB (18K) has lost only a strongly basic N-terminal peptide. A transitory (ca 14K) fragment is formed when digestion occurs in the presence of EDTA. A-1 light chain (20.7K) is cut to form a 20K species when myosin (of (CT)-HMM obtained ina high ionic strength medium) is digested with trypsin whether Me2+ is present or not. The new formed species has also lost its strongly basic N-terminal peptide and assumes a primary structure closer to that of A-2. Chymotrypsin was shown to have no effect on the A-1 light chain under the present conditions, whereas A-2 is not affected by chymotrypsin or trypsin under any of the conditions described in the present study.
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PMID:Fate of the light chains in the course of proteolytic digestion of rabbit fast skeletal myosin. 676 1

Evidence is presented that the removal of the alkali light chain subunit from myosin subfragment 1 results in the exposure of a site (or sites) at the carboxyl-terminal region of the heavy chain that is rapidly digested by both trypsin and alpha-chymotrypsin. In the case of trypsin digestion, cleavage at this site proceeds at a much higher rate than cleavage at the two other sensitive regions located in the interior of the primary structure of this chain. This initial cleavage is responsible for the generation, on further digestion with trypsin, of a carboxyl-terminal fragment about 3000 daltons smaller than the corresponding fragment formed by digestion of subfragment 1. The ability of the heavy chain to reassociate with alkali light chain at 4 degrees C in the presence of MgATP is essentially abolished by cleavage at this exposed site by either trypsin or chymotrypsin. These observations indicate that the alkali light chain is binding to, or is capable of perturbing, a region of the heavy chain adjacent to the subfragment 1/subfragment 2 "hinge" region and support recent proposals that both the DTNB light chain and the alkali light chain may be interacting and may be modulating this flexible region of the cross bridge.
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PMID:On the mode of the alkali light chain association to the heavy chain of myosin subfragment 1. Evidence for the involvement of the carboxyl-terminal region of the heavy chain. 688 36

Trypsin-treatment of the microsome fraction of the ileum and the synaptic membrane fraction of the cerebral cortex of guinea-pig caused selective reduction in the apparent affinity of an agonist (carbachol), but not an antagonist (atropine), to muscarinic acetylcholine receptors (mAChR), measured as inhibition of binding of 3H-quinuclidinyl benzilate (3H-QNB). This effect was similar to that of Gpp(NH)p. The effects of trypsin and Gpp(NH)p were not additive. On the other hand, treatment of these fractions with 5,5'-dithiobis (2-nitrobenzoic acid) (DTNB) increased the apparent affinity of agonist, but not antagonist. The effect of DTNB predominated over those of trypsin and Gpp(NH)p, when the fractions were treated with two reagents simultaneously.
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PMID:Effects of trypsin-treatment on agonist binding affinity to the muscarinic acetylcholine receptor. 712 Dec 3


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