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)

Purified measles virus was obtained from [35S]methionine-labeled cells infected at 33 degrees C and maintained in the absence of fetal calf serum. The pellet that was produced by a single high-speed ultracentrifuge spin of culture medium contained virus of purity sufficient for structural analysis. Purified virions contain seven polypeptides with estimated molecular weights of: L, 200,000; G, 80,000; P2, 70,000; NP, 60,000; A, 43,000; F1, 41,000; and M, 37,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. Treatment of virions with 0.25% trypsin resulted in a less dense particle which lacked polypeptides G and F1. Solubilization of the viral membrane with the detergent Triton X-100 in low-salt buffer resulted in the loss of the G polypeptide, whereas in the presence of 1 M KCl, Triton X-100 also removed most of the M polypeptide. The nucleocapsids (p = 1.3) obtained from virions treated with Triton X-100 and 1 M KCl contained the L, P2, NP, and M polypeptides. Nucleocapsids isolated from the cytoplasm of infected cells were predominantly composed of the NP polypeptide with smaller amounts of either polypeptide P2 or novel polypeptides, related to NP, with estimated molecular weights of 56,000 to 58,000 and 45,000 to 46,000. A significant amount of polypeptide L was always found in association with nucleocapsids isolated either from virions or from the cytoplasm of infected cells. A membrane component containing the viral membrane polypeptides G, F1, and M was also isolated from infected cells. The data presented here thus suggest that L is an integral part of the nucleocapsid complex. In addition, 37,000-molecular-weight polypeptide (M) appears to have the function described for the matrix proteins of other paramyxoviruses.
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PMID:Purification of measles virus and characterization of subviral components. 11 58

The synthesis of wild-type measles virus-specified polypeptides in Vero cells in pulse-chase experiments, in cells with synchronized protein synthesis by high salt concentration, and in the presence of proteolytic enzyme inhibitors was analyzed by polyacrylamide slab-gel electrophoresis. Six major (L, G, 2, NP, 5 and M) structural polypeptides were identified in infected cells. The results of pulse-chase experiments suggested that most of the structural polypeptides were synthesized at their final length. Polypeptide M was found to be sensitive to trypsin. In TLCK-treated cells its molecular weight was about 1000--2000 daltons higher than in untreated cells. A minor virus-specific polypeptide with a molecular weight of about 23,000 was found as a very faint and diffuse band. In addition, three nonstructural polypeptides with molecular weights of 65,000, 38,000 and 18,000 were also detected. The experiments with proteolytic enzyme inhibitors and with synchronized protein synthesis suggested that the polypeptide with a molecular weight of 65,000 might be a precursor of the structural polypeptide 5.
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PMID:Measles virus-specified polypeptides in infected cells. 11 24

A new ATPase electrophoretically and immunologically distinct from the dynein ATPase studied previously has been solublized and purified from sea urchin sperm flagella. This ATPase has properties similar to those of dynein ATPase. Therefore, we propose that the two ATPases be considered as dynein isoenzymes, with previously studied dynein being known as dynein 1, and the newly discovered ATPase as dynein 2. Some physicochemical and enzymatic properties of dynein 2 have been determined. The molecular weight calculated from the sedimentation coefficient (12.3 "/- 1 S) and Stokes radius (12.8 "/- 0.4 nm) is 690,000 +/- 70,000. The molecular weight of the high molecular weight subunit of dynein 2 has been determined to be 325,000 +/- 40,000 by Na dodecyl-SO4-polyacrylamide gel electrophoresis. The enzymatic properties of dynein 1 and dynein 2 are similar in substrate specificity, pH optimum, and Mg2+ requirement for ATPase activity, but they differ in their Michaelis constant and in their dependence of ATPase activity upon salt concentration. Digestion of dynein 2 with trypsin yields an ATPase-containing protein fragment, similar to Fragment A obtained from dynein 1. An antiserum prepared against Fragment A from dynein 1 did not precipitate dynein 2 or inhibit its ATPase activity.
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PMID:Dynein 2. A new adenosine triphosphatase from sea urchin sperm flagella. 13 96

1. The coupling ATPase of Paracoccus denitrificans can be removed from the membrane by washing coupled membrane fragments at low salt concentrations. 2. This ATPase resembles coupling ATPases of mitochondria, chloroplasts and other bacteria. It is a negatively charged protein of molecular weight about 300,000. An inhibitor protein in bound tightly to the ATPase in vivo, and can be destroyed by trypsin treatment. 3. ATP and ADP are found tightly bound to the coupling ATPase of P. denitrificans, both in its membrane-bound and isolated state. The ATP/ADP ratio on the enzyme is greater than one. 4. Under de-energised condtions, the bound nucleotides are not available to the suspending medium. When the membrane is energised however, the bound nucleotides can exchange with added nucleotides and incorporate 32Pi. 32Ppi is incorporated into the beta and gamma positions of the bound nucleotides, but beta-labelling probably does not occur on the coupling ATPase. 5. Uncouplers inhibit the exchange of the free nucleotides or 32Pi into the bound nucleotides, while venturicidin (an energy transfer inhibitor) and aurovertin stimulate the exchange. 6. The response of the bound nucleotides to energisation is consistent with their being involved directly in the mechanism of oxidative phosphorylation.
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PMID:Tightly bound nucleotides of the energy-transducing ATPase, and their role in oxidative phosphorylation. I. The Paracoccus denitrificans system. 13 62

The behavior of Ca2+-ATPase from sarcoplasmic reticulum in detergent solution was compared with that of Ca2+-ATPase which had been cleaved in half by limited trypsin digestion. Attempts to dissociate the fragments (I and II) with an excess of detergent micelles demonstrated that fragments I and II are structurally dependent upon each other, and that they must be denatured in order to be dissociated. Partial dissociation of the fragmented ATPase was found to occur in the bile salt detergents, deoxycholate and cholate, and optical data showed that there was an accompanying change in conformation. No dissociation of the fragmented ATPase was observed in nonionic detergents. The fragmented ATPase retained the same specific activity and stability as the intact ATPase under a variety of conditions when solubilized in Tween 80 or dodecyl octaoxyethylene glycol monoether. The data demonstrate that the noncovalent interactions that maintain the native conformation of the ATPase are not affected by either trypsin cleavage or solubilization in nonionic detergent solution.
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PMID:Behavior of fragmented calcium (II) adenosine triphosphatase from sarcoplasmic reticulum in detergent solution. 15 20

Protamine and polyarginine had bacteriolytic effects indicating their primary sites of action as being wall components and showing bacterial diversity genetically determined. Shake-incubation was required in producing cell-lysis. Studies on Bacillus subtilis revealed a high polycation multiplicity per cell in lytic event displaying multihit lysing kinetics; bacteriolysis was inhibited by trypsin, pronase, purified polyanionic wall polysaccharide, and by dissociative actions of salt hypermolarities used in isolation of nucleic acids. The inactivation of polycation lytic abilities during bacteriolysis was accompanied by modifications in electrophoretic running of protamine and polyarginine. It is suggested as mechanism of cell-lysis, the multiple zonal surface condensations of polyanionic wall components by basic polypeptides, likely similar with chromatin DNA picnosis. This analogy is discussed.
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PMID:Protamine and polyarginine bacteriolysis. Similarities in its mechanism with chromatin DNA picnosis. 16 38

Vesicular stomatitis virions, Indiana serotype, were solubilized with high salt solubilizer and separated by ultracentrifugation into a supernatant fraction containing L, G, NS, and M proteins and pellet fraction containing the RNA complexed with N protein. NS protein was purified from the supernatnat fluid by sequential chromatography on phosphocellulose and diethylaminoethyl cellulose columns. The purified NS protein was assayed in a standard transcription system in combination with purified L protein and purified template (pellet fraction) prepared by renografin or CsCl banding. Results of the polymerase assays indicate that both L and NS proteins are required to reconstitute transcription activity with a highly purified template composed of only RNA and N protein. The NS protein polymerase activity is destroyed by trypsin but withstands 90 C temperatures for 10 min. Cytoplasmic NS protein can substitute for virion NS protein in the in vitro transcription assay.
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PMID:Both NS and L proteins are required for in vitro RNA synthesis by vesicular stomatitis virus. 16 89

Limited tryptic hydrolysis of the estradiol cytoplasmic receptor from calf uterus has been demonstrated to yield in a high-salt buffer a stable estradiol-binding molecule with the following characteristics: sedimentation coefficient 4.0 +/- 0.1 S; Stokes radius 3.5 +/- 0.05 nm; molecular weight 60000 (for an assumed v value of 0.73 ml g-1) and frictional ratio 1.36. Nuclear KCl extracts, prepared from uteri preincubated at 37 degrees C with labeled estradiol, were analysed by Sephadex G-200 chromatography and sucrose density gradient centrifugation. The following molecular parameters were found for the estradiol-receptor complex: sedimentation coefficient 4.4 +/- 0.1 S; Stokes radius 4.12 +/- 0.02 nm; molecular weight 77000 and frictional ratio 1.47 (v = 0.73 ml g-1). Limited tryptic proteolysis of this extract gave an estradiol-binding fragment with molecular characteristics identical to the trypsin-modified cytoplasmic receptor. In addition, mild tryptic digestion of whole labeled nuclei allowed us to solubilize almost quantitatively the nuclear [3H]estradiol in a macromolecular bound form. The molecule thus obtained showed molecular parameters very similar to the 60000-dalton trypsin fragments obtained from high-salt cytoplasmic and nuclear extracts. These molecules were undistinguishable by gel electrophoresis analysis at six different acrylamide concentrations. These results in conjunction with those derived from dissociation kinetics experiments and ligand specificity studies indicate the cytosolic protein is a functional part of the nuclear receptor. Based upon these and other studies we suggest that proteolytic cleavage of the estradiol-receptor complex, which results in the removal of the estradiol-binding sites from the nuclear recognition sites of the molecule, could play a role in the inactivation of the estradiol receptor in vivo.
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PMID:Limited proteolysis of cytoplasmic and nuclear uterine estradiol receptors yields identical estradiol-binding fragments. 18 Dec 52

A high-affinity, low-capacity estradiol-binding molecule (RE) has been demonstrated in the basal zone trophoblast (BZT) of the pregnant rat. On day 11 of pregnancy (day 0 = first sperm-positive day) RE is present in BZT cytosol, where it has a ka of 1.2 X 10(6)M-1 sec-1, t1/2 = 12.7 min, at 20 C. The Kd, under similar conditions, consists of 2 components, 1.3 X 10(-4) sec-1, t1/2 = 90 min, and 5.9 X 10(-5) sec-1, t1/2 = 196 min. When one uses the faster component, the equilibrium constant, Kd, obtained from kd/ka is 1.1 X 10(-10)M, in close agreement with that obtained from Scatchard analysis of specific estradiol (E2) binding at 20 C. On day 11 there were approximately 12,000 sites/cell in BZT cytosol. Scatchard analysis of nuclear RE on day 11 indicated a Kd of 1.85 X 10(-10)M and approximately 21,000 sites/nucleus, but, in day 15 BZT, nuclear RE was undetectable. Neither cytosol nor nuclei prepared from placental labyrinthine zone (LZT) tissue (fetal placenta) showed evidence of high-affinity, low-capacity E2 binding. Sucrose density gradient analysis on 5-20% linear gradients showed the cytosol RE to be approximately 4S whether in high or low-salt conditions. When measured against binding by 3H-labeled estradiol (*E2), the cytosol BTZ RE was competed for strongly (80-90%) by estrone, estriol, diethylstilbestrol, and estradiol-17alpha at 200 times excess. Nafoxidine-HCl, also at 200X excess, competed to approximately 50%. Corticosterone, progesterone, testosterone, dehydroepiandrosterone, and pregnenolone did not compete. The hormone specificity of nuclear BZT RE was similar to that of the comparable cytosol RE with the exception that nafoxidine did not compete. This was probably due to differences in kinetics, nafoxidine requiring a longer time to reach equilibrium than the other estrogens. The size of the nuclear RE by sucrose density gradient analysis was approximately 2S by KCl extraction (which was inefficient) or 4S by trypsin extraction. We conclude that the BZT of the day-11 rat placenta contains an estrogen-binding molecule with many of the attributes of a true receptor.
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PMID:A high-affinity estrogen-binding protein in rat placental trophoblast. 18 65

An aggregation receptor from the siliceous sponge Geodia cydonium has been isolated and purified in an almost pure form. It sediments at about 2-6s, has a buoyant density of 1-51 g/ml in CsCl and elutes from Sephadex G-50 at a Ve/V0 value of 1-311. Chemical analysis revealed that the receptor consists of 81% neutral carbohydrate and 7-5% protein. The activity of the receptor is rapidly destroyed by Na-periodate. The receptor is released from the cell surface after removal of Ca2+ from the medium or after incubation of the cells with trypsin. The depleted cells can be charged again with isolated receptor molecules. The binding of the receptor molecules on the cell surface is prevented in the presence of trypsin. For optimal binding, physiological salt concentrations with respect to NaCl (540 mM NaCl) and Ca2+ ions are necessary. The receptor whose isolation is described in this report, is involved in secondary aggregation processes, which are initiated by a soluble aggregation factor. The primary aggregation of the cells is not influenced by the receptor. Time-course studies with receptor-depleted cells revealed that new aggregation receptor molecules are formed during the aggregation process. By competition experiments it could be shown that high concentrations of soluble aggregation receptor molecules inhibit secondary aggregation. The soluble receptor molecules can complete with surface-bound receptor molecules only if these are not linked with the aggregation factor.
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PMID:Species-specific aggregation factor in sponges. VI. Aggregation receptor from the cell surface. 18 97

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