EC:3.4.21.4 - FACTA Search

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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)

1. Two distinct patterns of tryptic modification of the catalytic functions of purified (Na+ + K+)-ATPase can be related to the two previously described patterns of enzyme inactivation and cleavage of the large chain seen with NaCl and KCl (Jorgensen, P.L. (1975) Biochim. Biophys. Acta 401, 399-415). 2. With NaCl, in phase A, the rapid inactivation of 50-55% of the (Na+ + K+)-ATPase activity is associated with loss of 85% of the K+-phosphatase activity and an increase in Na+-ADP-ATP exchange activity to 150% of control. ATP binding and phosphorylation are unchanged and the inactivation may result from cleavage of bonds within the large chain which are involved in dephosphorylation reactions. In phase B with NaCl, ATP binding and phosphorylation are lost slowly in parallel to inactivation of (Na+ + K+)-ATPase and cleavage of the large chain to a fragment with Mr=78 000. 3. With KCl, cleavage of the large chain to almost equal fragments abolish ATP binding and phosphorylation in parallel to the inactivation of (Na+ + K+)-ATPase. An additional split seems required for inactivation of the K+-pNPPase activity. 4. After completion of the digestion in phase A with NaCl a stable preparation can be isolated in which the activity of (Na+ + K+)-ATPase is 40%. ATP binding and phosphorylation are 90%, K+-phosphatase is 15%, and Na+-ADP-ATP exchange is 150% of control. We currently examine if these levels are related to changes in phosphorylation kinetics. 5. The ATP binding area is much more stable to trypsin with NaCl than with KCl, but loss of the binding capacity is in both cases correlated to a distinct cleavage of the large chain. The relationship between the fractional loss of ATP binding and cleavage of the large chain suggests that the nucleotide binding area is confined to one of the two large chains in the protein complex with Mr=270 000 which binds one molecule of ATP. 6. The data also suggest that the phosphatase site is remote from the ATP binding area. It is proposed that the protein complex with Mr=270 000 contains two large chains with different catalytic functions and that each chain forms a cation channel.
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PMID:Purification and characterization of (Na+ + K+)-ATPase. VI. Differential tryptic modification of catalytic functions of the purified enzyme in presence of NaCl and KCl. 13 23

By means of both centrifugation and filtration techniques, the Ca binding activity of intestinal myosin B was studied. The binding capacity of myosin B was Ca dependent and was approximately linear when the concentration of Ca in the medium ranged from 10(-4) to 10(-7) M. The Ca sensitivity of ATPase activity in the same range of Ca concentration exhibited a sigmoid curve. The Scatchard plot of Ca binding showed that intestinal myosin B had at least two types of binding sites. One of these was defined as a high affinity site with an apparent affinity constant of 2.5 x 10(6) M-1. The other was supposed to be a low affinity site of Ca binding. Mild trypsin treatment reduced the Ca binding capacity of intestinal myosin B by 1.45-2.44 nmol/mg protein. These values are approximately the concentration of the high affinity Ca binding sites in the intestinal myosin B. A major concern regarding the effect of trypsin is that the reduction of Ca binding surely accompanied the elimination of Ca sensitivity of myosin B ATPase activity. From these results, it seems likely that the high affinity sites of Ca binding identified in this study are based on the troponin-like component included in intestinal myosin B.
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PMID:Ca binding of intestinal smooth muscle myosin B. 14 Feb 56

30-S dynein ATPase from Tetrahymena cilia was digested with trypsin (dynein: trypsin = 20:1, by weight) at 25 degrees C for 20 min, resulting in the release of a 12-S fragment possessing ATPase activity. The 12-S ATPase fraction obtained by sucrose gradient centrifugation contained several polypeptide chains as indicated by SDS gel electrophoresis. The largest chain was smaller than the subunit of 30-S dynein and almost the same size as 14-S dynein. On the other hand, when 14-S dynein was digested in a similar manner, its sedimentation value changed from 14 to 12 S, but the peak of ATPase activity was retained at 14 S, suggesting differences in amino acid sequences between the 30 and 14-S dyneins. When the time course of tryptic digestion of 30-S dynein was investigated in a trypsin:dynein ratio of 1:200, discrete fragmentation took place, producing an intermediate fragment of 24 S and the 12-S fragment. The 24-S fragment recombined with outer fibers to some extent, while the 12-S fragment lacked this ability. However, the 12-S fragment was somewhat stimulated to recombine with outer fibers in the presence of other components involved in the trypsin digest. The enzymatic characteristics of the 12-S fraction were different from those of 30-S dynein, especially the activity dependence on pH showing a typical bell-shaped curve.
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PMID:Tryptic fragmentation of 30-S dynein from Tetrahymena cilia. 14 Jul 5

Pancreas of the cat was fractionated into its subcellular components by centrifugation through an exponential ficoll-sucrose density gradient in a zonal rotor. This enables a preparation of four fractions enriched in plasma membranes, endoplasmic reticulum, mitochondria and zymogen granules, respectively. The first fraction, enriched by 9- to 15-fold in the plasma membrane marker enzymes, hormone-stimulated adenylate cyclase, (Na+K+)-ATPase, and 5'-nucleotidase, is contaminated by membranes derived from endoplasmic reticulum but is virtually free from mitochondrial and zymogen-granule contamination. The second fraction from the zonal gradient shows only moderate enrichment of the above marker enzymes but contains a considerable quantity of plasma membrane marker enzymes and represents mostly rough endoplasmic reticulum. The third fraction contains the bulk of mitochondria and the fourth mainly zymogen granules as assessed by electron microscopy and marker enzymes for both mitochondria and zymogen granules, namely succinic dehydrogenase, trypsin and amylase. Further purification of the plasma membrane fractions by differential and sucrose step-gradient centrifugation yields plasma membranes enriched 40-fold in basal and hormone-stimulated adenylate cyclase and (Na+K+)-ATPase.
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PMID:Studies on isolated subcellular components of cat pancreas. I. Isolation and enzymatic characterization. 14 36

Photophosphorylation by spinach chloroplasts is inhibited after they have been incubated in the dark with either phenylglyoxal or butanedione. Inhibition by phenylglyoxal is strongest when N-ethylmorpholine is the buffer used during the incubation; that by butanedione requires the presence of borate as buffer. The inhibitions are not reversed by simply washing out the inhibitor, suggesting that a covalent modification of one or more arginine residues is responsible. This is supported by the reversibility of the butanedione inhibition if both the inhibitor and borate buffer are removed. ATPase of the chloroplasts, and of extracted protein, is inhibited, whether activated by trypsin or by heating. This indicates that arginine residues of the coupling factor are the probable major site(s) for attack by these modifiers, leading to the observed inhibitions.
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PMID:Arginine modifiers as energy transfer inhibitors in photophosphorylation. 14 62

Latent ATPase, located on the inner surface of protoplast ghosts of Mycobacterium phlei, was unmasked either by trypsin or an impermeable form of trypsin, ethylene maleic anhydride-trypsin. Density gradient experiments showed that the ghost preparations remained intact following trypsin treatment. Evidence was obtained that 125I-trypsin failed to penetrate the ghost membranes. Thus, attempts were made to determine whether the ATPase molecule in the ghost membranes is accessible from the outer surface. Treatment of protoplast ghosts and trypsin-treated ghosts with 125I by the lactoperoxidase method resulted in the labeling of ATPase only in the trypsin-treated ghost preparations. The antibody to latent ATPase inhibited ATPase activity in trypsin-treated ghosts. The changes in the fluorescence polarization of diphenyl hexatriene indicated that trypsin treatment of the ghost membranes resulted in an increase in membrane fluidity. These studies suggest that the latent ATPase moiety has undergone translocation to the outer surface or it became accessible to trypsin digestion from the outer surface of the membranes as a result of removal of some proteins covering ATPase molecule in the membranes.
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PMID:Trypsin-induced changes in the orientation of latent ATPase in protoplast ghosts from Mycobacterium phlei. 14 35

The 20K dalton fragment of Ca2+ + Mg2+-ATPase obtained from th tryptically digested sarcoplasmic reticulum has been further purified using Bio-Gel P-100. This removed low-molecular-weight UV-absorbing and positive Lowry-reacting contaminants. The ionophoric activity of the 20K fragment in both oxidized cholesterol and phosphatidylcholine:cholesterol membranes is unaltered by this further purification. The 20K selectivity sequence in phosphatidylcholine:cholesterol membrane is Ba2+ greater than Ca2+ greater than Sr2+ greater than Mn2+ Mg2+. Digestion of intact sarcoplasmic reticulum vesicles with trypsin, which results in the dissection of the hydrolytic site (30K) from the ionophoric site (20K), is shown to disrupt energy transduction between ATP hydrolysis and calcium transport. This further implicates the 20K dalton fragment as a calcium transport site. These data and previous evidence are discussed in terms of a proposed model for the ATPase molecular structure and the mechanisms of cation transport in sarcoplasmic reticulum.
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PMID:Active calcium treatment transport via coupling between the enzymatic and the ionophoric sites of Ca2+ + Mg2+-ATPase. 14 15

The coupling factor, F1-ATPase of Escherichia coli (ECF1) contains five different subunits, alpha, beta, gamma, delta, and epsilon. Properties of delta-deficient ECF1 have previously been described. F1-ATPase containing only the alpha, beta, and gamma subunits was prepared from E. coli by passage of delta-deficient ECF1 through an affinity column containing immobilized antibodies to the epsilon subunit. The delta, epsilon-deficient enzyme has normal ATPase activity but cannot bind to ECF1-depleted membrane vesicles. Both the delta and epsilon subunits are required for the binding of delta, epsilon-deficient ECF1 to membranes and the restoration of oxidative phosphorylation. Either delta or epsilon will bind to the deficient enzyme to form a four-subunit complex. Neither four-subunit enzyme binds to depleted membranes. The epsilon subunit, does, however, slightly improve the binding affinity between delta and delta-deficient enzyme suggesting a possible interaction between the two subunits. Neither subunit binds to trypsin-treated ECF1, which contains only the alpha and beta subunits. A role for gamma in the binding of epsilon to F1 is suggested. epsilon does not bind to ECF1-depleted membranes. Therefore, the in vitro reconstitution of depleted membranes requires an initial complex formation between epsilon and the rest of ECF1 prior to membrane attachment. Reconstitution experiments indicate that only one epsilon is required per functional ECF1 molecule.
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PMID:The epsilon subunit of Escherichia coli coupling factor 1 is required for its binding to the cytoplasmic membrane. 14 71

An isolation procedure is worked out and properties are studied of CF1 ATPase from chloroplasts with changed submolecular structure. The enzyme, isolated by chlorophorm treatment, produced Ca-dependent ATPase activity in water solution. As compared with the enzyme isolated by well known Lien and Racker method, the enzyme preparation obtained is slightly activated by heating, is not activated by trypsin and has a lesser ability to recover ATP synthesis in EDTA-treated chloroplasts. Purification on DEAE-Sephadex produced the enzyme preparation free of delta-subunit. Chlorophorm treatment is suggested to change submolecular protein structure, in particular, loosening of the link of delta-subunit with other enzyme subunits. The data obtained suggest that delta-subunit participates in the binding of CF1 ATPase with chloroplast membrane.
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PMID:[Isolation and properties of CF1 ATPase chloroplasts with changed submolecular structure]. 14 26

The membrane-bound, solubilized, and trypsin-treated forms of Mg, Ca-ATPase from E. coli are inhibited by ruthenium red [RR]. The inhibition is noncompetitive and is reduced at higher substrate concentrations. n-Butanol-extracted ATPase is not inhibited by ruthenium red and is not activated by KCl.
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PMID:Inhibition of Mg, Ca-ATPase from E. coli by ruthenium red. 14 51

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