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)

Rabbit skeletal muscle membranes contain a protein which inhibits the cAMP-dependent protein kinase. The activity of the partially purified membrane protein is characterized by an IC-50 of 10 to 30 nM with respect to the inhibition of the activity of the catalytic subunit of the cAMP-dependent protein kinase and is sensitive to treatment with heat, acid, alkali and trypsin. The active fractions contain proteins ranging from 40 to 120 kDa, analysed by SDS-gel electrophoresis.
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PMID:Characterization and partial purification of a membrane protein from rabbit skeletal muscle which inhibits the cAMP-dependent protein kinase. 173 83

Rap 1B is a low molecular weight G protein which is phosphorylated by cAMP-dependent protein kinase. In order to identify the site of phosphorylation by cAMP-dependent protein kinase, purified rap 1B from human platelets was phosphorylated and subjected to limited proteolysis with trypsin. Single digestion fragment containing the phosphorylation site was obtained and purified by reversed-phase HPLC. Sequence analysis of the phosphorylated digestion fragment demonstrated that the sequence of the phosphorylation site was -Lys-Lys-Ser-Ser-. This sequence is near the carboxy terminus and is adjacent to the site of membrane attachment of the protein.
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PMID:The localization of the cAMP-dependent protein kinase phosphorylation site in the platelet rat protein, rap 1B. 190 69

Several lines of evidence have demonstrated conclusively the presence of cAMP-dependent protein kinase (ecto-RC) activity on the external surface of goat cauda-epididymal intact spermatozoa. The intact-cell ecto-kinase that caused transfer of the terminal phosphate of exogenous ATP to the serine and threonine residues of exogenous histone was specifically activated by cAMP. As well, the ecto-kinase caused phosphorylation of the synthetic peptide Kemptide. The isolated spermatozoa, before or after incubation with reaction mixture for ecto-kinase assays, were approximately 99.5% viable, as shown by the analyses of ethidium bromide fluorescence and the cytosolic marker enzymes lactic dehydrogenase and 3-phosphoglycerate kinase. The ecto-kinase activity was not due to contamination of epididymal plasma and damaged cells or to protein kinase that may have leaked from the cells. There was little uptake of ATP and histone by the cells. The intact-cell kinase activity was strongly (80-90%) inhibited by treatment with membrane nonpenetrating surface probes: p-chloromercuriphenylsulfonic acid (2 microM), diazonium salt of sulfanilic acid (DSS, 0.5 mM), and proteases such as trypsin, chymotrypsin, and pronase (each 125 micrograms/mL). Disruption of sperm plasma membrane by sonication or Triton X-100 (0.2%) caused about a fivefold increase of the intact sperm kinase activity. Highly purified sperm plasma membrane (PM) possessed ecto-kinase activity that was resolved into type I and II kinases by DEAE-cellulose chromatography, the type I isoenzyme being the major (approximately 70%) enzymic species. Treatment of the intact spermatozoa with DSS prior to isolation of PM caused a marked loss of the activities of both the isoenzymes, indicating thereby the "ecto" nature of the PM-bound type I and II kinases. Preparations of vigorously forward-motile spermatozoa with 100% intactness had approximately fourfold higher specific activity of the ecto-kinase than the "composite" cells from which the former cells were isolated. However, the profiles of the type I and II ecto-kinases of the composite, as well as forward-motile spermatozoa, were nearly identical. The data are consistent with the view that ecto-kinases may have role in the regulation of flagellar motility.
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PMID:Type I and II cAMP-dependent ecto-protein kinases in goat epididymal spermatozoa and their enriched activities in forward-motile spermatozoa. 216 Aug 33

Two forms of the regulatory subunit of the type II cAMP-dependent protein kinase (RII55 and RII52) were identified from bovine heart by gel electrophoretic behaviour. After autophosphorylation the RII55 isoform migrated more slowly (RII55/57) while the migration of RII52 isoform did not shift. Both isoforms showed different affinity for cAMP. The RII55/57 isoform was eluted from a cAMP-agarose column at 10 mM cAMP at low ionic strength whereas the RII52 isoform required cAMP, plus 2M NaCl. Partial proteolysis, using trypsin or formic acid, of autophosphorylated regulatory subunit isoforms resulted in different cleavage pattern as determined by peptide mapping. However, the V8 125I-peptides patterns of both isoforms are quite similar. Incubation of partially purified holoenzyme with 10 nM [gamma-32P]ATP (low ATP concentration) yielded a single band of Mr = 57,000 which corresponds to the RII55/57 isoform. The incubation, however, at 20 microM [gamma-32P]ATP yielded two phosphobands corresponding to both RII55/57 and RII52 isoforms. The phosphorylation of RII52 took place with a lower efficiency and was more sensitive to the cAMP than the corresponding phosphorylation of the RII55/57.
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PMID:Different phosphorylation behaviour of regulatory subunit isoforms of type II cAMP-dependent protein kinase from bovine heart. 217 80

Retroviral infection is associated with immunosuppression, which has been shown to be due, in part, to the action of the envelope protein p15E. We studied a synthetic peptide (CKS-17) homologous to a highly conserved domain of the retroviral envelope protein p15E, which, when conjugated to BSA (CKS-17-BSA), can inhibit IL-1- and phorbol ester-mediated responses in cultured murine thymoma cells, and Ca2(+)- and phosphatidylserine-dependent protein kinase C (PKC) activity of cell homogenates. We characterized the mechanism of inhibition of PKC by the peptide. Using PKC purified from rat brain we found that CKS-17-BSA inhibited PKC-catalyzed Ca2(+)- and phosphatidylserine-dependent histone phosphorylation with an estimated ID50 of 4 microM. CKS-17-BSA did not inhibit the catalytic subunit of cAMP-dependent protein kinase. CKS-17-BSA also inhibited the Ca2(+)- and PS-independent activity of a catalytic fragment of PKC that was generated by limited trypsin treatment. However, CKS-17-BSA did not act as a competitive inhibitor of PKC with respect to ATP or phosphoacceptor substrate, despite the similarity between the CKS-17 sequence and substrates and pseudosubstrates of PKC. We conclude that this peptide homologue of a retroviral envelope protein has a novel mechanism of inhibition of PKC.
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PMID:Inhibition of protein kinase C by a peptide conjugate homologous to a domain of the retroviral protein p15E. 221 53

A role for second messenger-regulated protein kinases in the early post-IL-3 receptor signal transduction pathway was investigated in the mast cell/megakaryocyte line R6-XE.4. The activity of the calcium- and phospholipid-dependent protein kinase C (PKC) was assessed by the ability of the enzyme to phosphorylate histone H1 in the presence of calcium, diacylglycerol, and phosphatidylserine or after proteolytic activation of PKC with trypsin. In high serum-supplemented cells, but not in cells that were preincubated in serum-deficient media for 6 h, subsequent treatment for 15 min with synthetic IL-3 (10 micrograms/ml) caused up to a sixfold increase in the calcium- and lipid-stimulated histone H1 phosphorylating activity of particulate-associated PKC after fractionation on MonoQ. However, there was no corresponding reduction of cytosolic PKC activity. Therefore, IL-3 appeared to modify the activity of preexisting membrane-associated PKC rather than eliciting its recruitment from the cytoplasm in R6-XE.4 cells. This was in contrast to the situation with FDC-P1 cells, where IL-3 induced PKC translocation. IL-3 also stimulated a cytosolic protein kinase that phosphorylated a synthetic peptide patterned after a phosphorylation site in ribosomal protein S6, but this IL did not alter the activity of cAMP-dependent protein kinase.
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PMID:IL-3-induced activation of protein kinases in the mast cell/megakaryocyte R6-XE.4 line. 230 40

Phosphorylation of the insulin-regulatable glucose transporter (IRGT) is increased by incubating rat adipocytes with isoproterenol or by incubating microsomal membranes with cAMP-dependent protein kinase. To attempt to locate the sites of phosphorylation, the IRGT (apparent Mr = 46,000) was immunoprecipitated from 32P-labeled adipocytes and cleaved with CNBr or trypsin. Essentially all of the 32P could be recovered in a single CNBr fragment, denoted CB-T (Mr = 8,000), which bound a polyclonal antibody (R820) against a peptide having the sequence of the last 12 amino acids in the COOH terminus of the IRGT. 32P-Labeling of the IRGT was also confined to CB-T when membranes were incubated with [gamma-32P]ATP and cAMP-dependent protein kinase. Isoproterenol increased phosphorylation of CB-T, but insulin was without effect. To resolve phosphorylation sites further, IRGT from 32P-labeled cells was subjected to exhaustive proteolysis with trypsin. Samples were applied to a C-18 column, and 32P-labeled fragments were resolved into three peak fractions by elution with an increasing gradient of acetonitrile. [32P]Phosphoserine was the only phosphoamino acid detected in any of the peaks. Peak III contained approximately 80% of the 32P and was increased by isoproterenol. Almost all of the 32P introduced by cAMP-dependent protein kinase in vitro eluted in Peak III. In all cases, the 32P-labeled species in Peak III were quantitatively immunoprecipitated by R820. Digesting the peptide(s) in Peak III with V8 protease generated a single peak of 32P which eluted at lower acetonitrile than Peak III and contained 32P-labeled species that did not interact with R820. Automated Edman degradation indicated that the serine residue in Peak III phosphorylated by cAMP-dependent protein kinase was the 3rd or 4th residue from the NH2 terminus of the peptide. These findings indicate that phosphorylation of the IRGT is restricted to the presumed intracellular domain at the COOH terminus and that Ser488 is a major site phosphorylated both by cAMP-dependent protein kinase in vitro and in response to isoproterenol in vivo.
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PMID:Phosphorylation of the glucose transporter in rat adipocytes. Identification of the intracellular domain at the carboxyl terminus as a target for phosphorylation in intact-cells and in vitro. 240 83

A method is developed for purification of the protein of the Ca2+-activated K+ channel from outer renal medulla of pig kidney. The response of this K+ channel to physiological concentrations of Ca2+ is important for regulation of transtubular NaCl transport. In reconstituted vesicles direct addition of calmodulin doubles Ca2+ activation with sufficient affinity (K1/2 0.1 nM) for chromatographic purification of the protein. For purification luminal plasma membrane vesicles are isolated on metrizamide density gradients and solubilized in CHAPS. The fraction of soluble protein retained on calmodulin-Sepharose 4B columns in the presence of Ca2+ and eluted by EGTA is 0.7%. The purified protein has high Ca2+-activated K+ channel activity after reconstitution into phospholipid vesicles. It distributes on two bands of 51 and 36 kDa after gel electrophoresis in SDS. The 36 kDa band is rapidly cleaved by trypsin and may be involved in Ca2+ stimulation of the channel. Phosphorylation from cAMP-dependent protein kinase strongly stimulates Ca2+-activated K+ channel activity and labels the 51 kDa band suggesting that this protein is involved in regulation of K+ channel opening.
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PMID:Purification of Ca2+-activated K+ channel protein on calmodulin affinity columns after detergent solubilization of luminal membranes from outer renal medulla. 243 63

We reported that phosphorylation by either cAMP-dependent protein kinase or protein kinase C (Ca2+/phospholipid-dependent enzyme) in vitro induces disassembly of the desmin filaments (Inagaki, M., Gonda, Y., Matsuyama, M., Nishizawa, K., Nishi, Y., and Sato, C. (1988) J. Biol. Chem. 263, 5970-5978). For this subunit protein, Ser-29, Ser-35, and Ser-50 within the non-alpha-helical head domain were shown to be the sites of phosphorylation for cAMP-dependent protein kinase (Geisler, N., and Weber, K. (1988) EMBO J. 7, 15-20). In the present work, we identified the sites of desmin phosphorylated in vitro by other protein kinase which affects the filament structure. The protein kinase C-phosphorylated desmin was hydrolyzed with trypsin, and the phosphorylated peptides were isolated by reverse-phase chromatography. Sequential analysis of the purified phosphopeptides, together with the known primary sequence, revealed that Ser-12, Ser-29, Ser-38, and Ser-56 were phosphorylated by protein kinase C. All four sites are located within the non-alpha-helical head domain of desmin. Ser-12, Ser-38, and Ser-56, specifically phosphorylated by protein kinase C, have arginine residues at the carboxyl-terminal side (Arg-14, Arg-42, and Arg-59, respectively). Ser-29 phosphorylated by both protein kinase C and cAMP-dependent protein kinase has arginine residues at the amino and carboxyl termini (Arg-27 and Arg-33). These findings support the view that the head domain-specific phosphorylation strongly influences desmin filament structure; however, each protein kinase differed with regard to site recognition on this domain.
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PMID:Protein kinase C phosphorylation of desmin at four serine residues within the non-alpha-helical head domain. 249 68

In the absence of MgATP, the catalytic subunit of cAMP-dependent protein kinase is irreversibly inhibited by the hydrophobic carbodiimide dicyclohexylcarbodiimide, and this inhibition is most likely due to the formation of a cross-link between a carboxyl group and a lysine residue in the active site (Toner-Webb & Taylor, 1987). In order to identify these cross-linked residues, the catalytic subunit was modified by dicyclohexylcarbodiimide and then treated with acetic anhydride and digested with trypsin. The resulting peptides were resolved by high-performance liquid chromatography. One major absorbing tryptic peptide and one smaller peptide consistently and reproducibly showed a decrease in absorbance after the catalytic subunit had been treated with DCCD. These peptides correspond to residues 166-190 and 57-93, respectively. A unique peptide was isolated from the modified catalytic subunit, and the sequence of this peptide established that the cross-linking occurred between Asp-184 and Lys-72. The cross-linking of these two residues, which were both identified previously as essential residues, confirms the likelihood that each plays a role in the functioning of this enzyme. The fact that Asp-184 and Lys-72 appear to be invariant in all protein kinases further supports the hypothesis that these two residues, located close to one another at the active site of the enzyme, play essential roles in catalysis.
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PMID:Dicyclohexylcarbodiimide cross-links two conserved residues, Asp-184 and Lys-72, at the active site of the catalytic subunit of cAMP-dependent protein kinase. 249 73

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