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)

Extracts of rheumatoid synovial tissue obtained at surgical synovectomy contained neutral proteinases as well as cathepsin D. The neutral proteinase activity was particle-bound but could be solubilized by 1 M MgCl2. About half of the solubilized activity adsorbed to aproptinin-Sepharose at pH 7.5 and was desorbed at pH 3.3. This activity was shown to be due to leukocyte elastase and cathepsin G by enzymological and immunological criteria. The neutral proteinase activity that did not adsorb to aprotinin-Sepharose was not due to elastase or cathepsin G. It was able to hydrolyse proteoglycan and was inhibited by diisopropylfluorophosphate, soybean and lima bean trypsin inhibitors. It was, therefore, a serine proteinase. Its inhibition characteristics were different from those of plasmin, kallikrein or thrombin. All of the neutral proteinase activity of synovial extracts was attributable to serine proteinases, no evidence of metallo-proteinases was found. The possible role of the neutral proteinases in the degradation of the matrix of cartilage is discussed. A simple procedure for purifying leukocyte elastase and cathepsin G is described as well as the raising of specific antisera to these enzymes.
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PMID:Identification of proteinases in rheumatoid synovium. Detection of leukocyte elastase cathepsin G and another serine proteinase. 615 6

Highly purified native alpha 2-macroglobulin (alpha 2M), alpha 2M-trypsin, and alpha 2M-methylamine were compared in experiments designed to study protein precipitation. Significant turbidity developed within 30 min in solutions containing histone H3 and either alpha 2M-methylamine or alpha 2M-trypsin, as determined by absorbance at lambda = 550 nm. No turbidity was detected in solutions that contained histone H3 and native alpha 2M or histone H3 alone. Experiments with radioiodinated histone H3 or radioiodinated proteinase inhibitor confirmed that both the H3 and the alpha 2M "fast" forms (alpha 2M-methylamine, alpha 2M-trypsin) were present in the precipitates generated. As much as 70% of the 125I-alpha 2M-methylamine was recovered in the precipitate after incubation with a 120-fold molar excess of H3 (concentration of alpha 2M-methylamine, 0.28 microM). The ratio of histone to proteinase inhibitor by weight in the precipitate was approximately two. Under comparable conditions, somewhat less alpha 2M-trypsin precipitated from solutions containing H3 than did alpha 2M-methylamine; however, inactivation of the alpha 2M-trypsin with phenylmethylsulfonyl fluoride prior to incubation increased the level of precipitation significantly. Solutions containing poly-L-lysine (Mr approximately 13,000) instead of histone did not form precipitates with any of the forms of alpha 2M studied. In a second set of experiments, radioiodinated native alpha 2M, alpha 2M-trypsin, and alpha 2M-methylamine were incubated in solutions containing ZnCl2, BaCl2, CdCl2, CuSO4, MgCl2, or NiCl2 (concentration of divalent cation between 5 microM and 1.0 mM). Native alpha 2M was soluble in all of these salts. By contrast, alpha 2M-methylamine and alpha 2M-trypsin precipitated extensively from solutions containing greater than 100 microM ZnCl2. Precipitation was greater than 90% complete at 1 mM ZnCl2. A similar effect was not observed with any of the other divalent cations.
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PMID:Conformation-specific precipitation of human alpha 2-macroglobulin by divalent zinc or calf thymus histone H3. 620 74

The Ca ATPase from rat liver plasma membranes has been recently characterized and partially purified in our laboratory and was shown to depend on a membrane-bound protein activator (Lotersztajn, S., Hanoune, J., and Pecker, F. (1981) J. Biol. Chem. 256, 11209-11215). In the present study, we report that a factor derived from ammonium sulfate washings of rat liver plasma membranes inhibits the partially purified enzyme activity measured in the presence of activator. This factor is a protein as judged by its sensitivity to heat and trypsin. A molecular weight of 29,000 was determined by sucrose gradient centrifugation and gel chromatography. The action of the inhibitor is due to a decrease in the maximal velocity of the enzyme reaction and is reversed by an excess of the activator associated with the enzyme. An important point in the mode of action of this inhibitor is its absolute dependence on magnesium, which most probably explains the difficulty in detecting the plasma membrane Ca ATPase when MgCl2 is added to the assay medium.
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PMID:A membrane-bound protein inhibitor of the high affinity Ca ATPase in rat liver plasma membranes. 621 36

Myosin subfragment 1 (S-1) was fluorescently labeled at its rapidly reacting thiol ("SH1"). Short exposure to trypsin cuts the S-1 heavy chain into three still-associated fragments (20K, 50K, and 27K) [Balint, M., Wolf, L., Tarcsafalvi, A., Gergely, J., & Sreter, F.A. (1978) Arch. Biochem. Biophys. 190, 793-799] which bind F-actin to the same extent as does the uncut labeled S-1, as indicated by time-resolved fluorescence anisotropy decay (at 4 degrees C, pH 7, in 0.15 M KC1 and 5 mM MgC12, +/- 1 mM ADP). These results are thus in agreement with turbidity measurements on similar systems as reported by Mornet et al. [Mornet, D., Pantel, P., Audemard, E., & Kassab, R. (1979) Biochem. Biophys. Res. Commun. 89, 925-932]. The excited-state lifetime of the fluorescent label on cut S-1 is indistinguishable from that on normal S-1 (+/- ADP, +/- F-actin). F-Actin activation of MgATPase of cut S-1 is lower than that for normal S-1 at moderate concentrations of F-actin, as reported by Mornet et al. (1979). But as the F-actin concentration is increased, the MgATPase activities for cut S-1 approach those for uncut S-1. In terms of an eight-species steady-state kinetics scheme involving actin binding to free S-1, S-1 . ATP, S-1. ADP X P, and S-1 . ADP, actin affinity for the species S-1 . ADP X P was found to be 13.4 times greater for uncut S-1 than for cut S-1 [at 24 degrees C, pH 7.0, in 3 mM KC1, 1 mM ATP, 1 mM MgCl2, and 20 mM N-[tris(hydroxymethyl)methyl]-2-aminoethanesulfonic acid].
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PMID:Effects of tryptic digestion on myosin subfragment 1 and its actin-activated adenosinetriphosphatase. 621 19

An alpha-actinin-like protein was partially purified from the Triton-insoluble cytoskeleton of porcine kidney by 0.6 M MgCl2 treatment, ammonium sulfate fractionation, DEAE-cellulose chromatography and hydroxyapatite chromatography. Apparent purity of the kidney protein was approximately 90% by quantitative densitometry of Coomassie-stained polyacrylamide gels. The kidney alpha-actinin-like protein is very similar to muscle alpha-actinins by the following criteria: (1) both kidney protein and muscle alpha-actinins bind to F-actin at a similar ratio; (2) both proteins demonstrate no difference in the actomyosin turbidity assay and the ATPase assay for alpha-actinin activity; (3) both native proteins contain a large core of identical molecular weight resistant to trypsin; (4) on two-dimensional gels, both kidney protein and muscle alpha-actinins have similar isoelectric points of 5.9-6.1. However, kidney alpha-actinin-like protein is not identical in every respect with muscle alpha-actinins. Electrophoretic mobility of the kidney protein is slightly greater than that of chicken gizzard alpha-actinin and is identical to that of a component of chicken skeletal muscle alpha-actinin. One-dimensional peptide mappings of the kidney protein and muscle alpha-actinins were significantly different from each other. The interaction between kidney alpha-actinin-like protein and F-actin is sensitive to Ca2+. Similar Ca2+-sensitivity was observed with other non-muscle cell alpha-actinins.
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PMID:Purification and characterization of an alpha-actinin-like protein from porcine kidney. 622 64

Limited digestion of Acanthamoeba myosin II by trypsin selectively cleaved the 185,000-Da heavy chains into a 73,000-Da peptide containing the catalytic and actin-binding sites and a 112,000-Da peptide containing the regulatory phosphorylatable sites. The light chains were unaffected. The proteolytic products remained associated and formed bipolar filaments that were very similar in appearance to filaments of native myosin by negative staining electron microscopy. Filaments of trypsin-cleaved, dephosphorylated myosin, however, had a smaller sedimentation coefficient than filaments of native dephosphorylated myosin. Trypsin-cleaved dephosphorylated myosin retained complete Ca2+-ATPase activity but had no actin-activated ATPase activity under conditions that are optimal for native, dephosphorylated myosin (pH 7.0, 4 mM MgCl2, 30 degrees C or pH 6.4, 1 mM MgCl2, 30 degrees C). Trypsin-cleaved dephosphorylated myosin had higher actin-activated ATPase activity at pH 6.0 and 1 mM MgCl2 than undigested dephosphorylated myosin which is appreciably inhibited under these conditions. Trypsin-cleaved, dephosphorylated myosin inhibited the actin-activated ATPase activity of native, dephosphorylated myosin when both were present in the same co-polymers, when enzymatic activity was assayed at pH 7.0, 4 mM MgCl2, and 30 degrees C, but this inhibition was overcome by raising the MgCl2 to 6 mM. These results provide additional evidence that regulation of acanthamoeba myosin II occurs at the filament level and that, under most conditions of assay, the heavy chains must be intact and the regulatory serines unphosphorylated for actin-activated ATPase activity to be maximally expressed.
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PMID:Effects of limited tryptic cleavage on the physical and enzymatic properties of myosin II from Acanthamoeba castellanii. 623 25

1. Isolated intact pea (Pisum sativum) chloroplasts incorporate [32P]orthophosphate into several thylakoid polypeptides in the light. Transfer of the labelled chloroplasts to darkness results in rapid dephosphorylation of the polypeptides. The most rapidly dephosphorylated phosphoproteins are the 26000-Mr doublet derived from the light-harvesting chlorophyll a/b binding complex. 2. Incubation of isolated 32P-labelled thylakoids in buffer in the absence of stromal components also results in rapid protein dephosphorylation. Again, the most rapidly dephosphorylated phosphoproteins are the 26000-Mr light-harvesting doublet. Dephosphorylation of all thylakoid phosphoproteins is accelerated by addition of up to 10 mM MgCl2. 3. The enzyme responsible for dephosphorylation is a phosphatase rather than a phosphotransferase or the thylakoid protein kinase acting in reverse. The enzyme is specifically and totally inhibited by NaF and does not require phosphoryl group acceptors such as ADP. Unlike the protein kinase, the phosphatase is indifferent to light and the electron transport inhibitor 3(3,4-dichlorophenyl)-1,1-dimethylurea. 4. The phosphorylated regions of the thylakoid phosphoproteins protrude from the outer surface of the membrane and are removed by trypsin treatment.
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PMID:Chloroplast phosphoproteins. Evidence for a thylakoid-bound phosphoprotein phosphatase. 624 72

The properties of adult rhesus monkey testicular FSH receptor was investigated in these experiments. The interaction of 125I-labeled human FSH with a monkey testicular particulate fraction is a time- and temperature dependent phenomenon. Equilibrium of hormone-receptor interaction occurred by about 4-6 at 37 or 34 C, was slow at 25 C, and was extremely slow at 4 C. Maximum binding occurred at pH 7-7.5, with a requirement of 5-10 mM MgCl2 or CaCl2. The half-life of the receptor with exposed sites for hormone interaction was temperature related (1 h at 37 C, 1.5 h at 34 C, 6 h at 25 C, and 36 h at 4 C). Occupancy of these sites by the labeled hormone rendered the receptor more stable. The hormone-receptor complex was highly stable, as shown by the fact that excess unlabeled hormone was unable to displace the already bound labeled hormone from the receptor. Conditions unfavorable for hormone-receptor interaction, such as pH 5.0 or pH 10 or high salt concentration (0.5 M MgCl2), induced the maximum dissociation of the preformed hormone-receptor complex. The primate testis FSH receptor was inactivated by trypsin, phospholipase C, and reducing agents, but it was not influenced by nucleases. Neuraminidase treatment of the particulate receptor may have enhanced its ability to bind labeled human FSH.
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PMID:Studies on primate gonadotropin receptors: characterization of the rhesus monkey testicular follicle-stimulating hormone receptors. 629 May 23

The K+-dependent p-nitrophenylphosphatase activity catalyzed by purified (Na+ + K+)-ATPase from pig kidney shows substrate inhibition (Ki about 9.5 mM at 2.1 mM Mg2+). Potassium antagonizes and sodium favours this inhibition. In addition , K+ reduces the apparent affinity for substrate activation, whereas p-nitrophenyl phosphate reduces the apparent affinity for K+ activation. In the absence of Mg2+, p-nitrophenyl phosphate, as well as ATP, accelerates the release of Rb+ from the Rb+ occluded unphosphorylated enzyme. With no Mg2+ and with 0.5 mM KCl, trypsin inactivation of (Na+ + K+)-ATPase as a function of time follows a single exponential but is transformed into a double exponential when 1 mM ATP or 5 mM p-nitrophenyl phosphate are also present. In the presence of 3 mM MgCl2, 5 mM p-nitrophenyl phosphate and without KCl the trypsin inactivation pattern is that described for the E1 enzyme form; the addition of 10 mM KCl changes the pattern which, after about 6 min delay, follows a single exponential. These results suggest that (i) the shifting of the enzyme toward the E1 state is the basis for substrate inhibition of the p-nitrophenylphosphatase activity of(Na+ + K+)-ATPase, and (ii) the substrate site during phosphatase activity is distinct from the low-affinity ATP site.
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PMID:Potassium-p-nitrophenyl phosphate interactions with (Na+ + K+)-ATPase. Their relevance to phosphatase activity. 632 79

Reaction of rabbit skeletal muscle G-actin at pH 8.5 with fluorescein isothiocyanate (FITC) resulted in incorporation of up to 1.20 mol FITC/mol actin. At pH 8.8, the level of incorporation was raised to 1.98 mol FITC/mol actin. When excited with ultraviolet light, the FITC-actin samples fluoresced strongly with an emission maximum near 517 nm. Tryptic digests of FITC-actin containing about 1.0 mol FITC/mol actin could be separated into a nonfluorescent 33.5 kDa trypsin-resistant core protein and a fluorescent pool of small peptides. Chromatography on DEAE-Bio-Gel or two-dimensional separation on cellulose TLC plates of the peptide pool revealed that FITC was highly selective in the site of its reaction with actin, resulting in a single highly fluorescent peptide after tryptic digestion. NH2-terminal and amino acid analyses demonstrated this peptide to be derived from residues 51 to 62, with Lys-61 proposed as the major FITC-sensitive site on actin. FITC-actin is similar to G-actin in gross conformation; circular dichroism spectra of actin before and after labelling are identical. FITC-actin is also able to interact strongly with deoxyribonuclease I. However, FITC-actin solution viscosities and fluorescence properties are not altered by the addition of KCl or MgCl2. Therefore, either a localized conformational change near Lys-61 or steric hindrance due to the FITC attached to Lys-61 blocks the polymerization of actin.
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PMID:Modification of actin with fluorescein isothiocyanate. 643 49


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