Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Incubation of human plasma with 27 nM [gamma-32P]ATP in the presence of 20 mM MnCl2 results in the phosphorylation of several proteins detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. About 60% of the incorporated radioactivity is found in a 75-kDa protein containing [32P] phosphoserine. The amino-terminal amino acid sequence of the purified 75-kDa [32P]phosphoprotein is identical to that of vitronectin (also termed serum spreading factor or complement S protein). Rabbit antiserum against vitronectin precipitates greater than 90% of the 75-kDa [32P]phosphoprotein from plasma. Reverse phase chromatography of [32P]vitronectin degraded sequentially with CNBr and chymotrypsin yields one major labeled peptide. The sequence of the peptide, Ser-Arg-Arg-Pro-[32PO4]Ser-Arg-Ala-Thr, corresponds to residues 374-381 which are located in the heparin-binding fragment of vitronectin identified by Suzuki et al. [1984) J. Biol. Chem. 259, 15307-15314). Vitronectin could potentially be phosphorylated in vivo with ATP released from injured cells or secreted by platelets activated during hemostasis.
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PMID:Phosphorylation of vitronectin by a protein kinase in human plasma. Identification of a unique phosphorylation site in the heparin-binding domain. 244

Autophosphorylation plays an essential role in proteolytic activation of the type II calmodulin-dependent protein kinase (CaM kinase II). Limited proteolysis of CaM kinase II by trypsin, alpha-chymotrypsin, and Ca2+-stimulated neutral protease (calpain) yielded a catalytically active kinase fragment only when the holoenzyme was autophosphorylated prior to proteolysis. Slightly larger, inactive fragments were obtained from nonphosphorylated CaM kinase II, regardless of whether Ca2+/calmodulin or Mg2+/ATP were present or absent. The active fragment exhibited Ca2+/calmodulin-dependent kinase activity with kinetic parameters identical with those of the activated holoenzyme. The key autophosphorylation site of CaM kinase II was absent from the active fragment which indicates that proteolysis can effectively uncouple the activation state and Ca2+/calmodulin independence of the kinase from the action of phosphoprotein phosphatases. Because autophosphorylation exerts such a tight control over this irreversible process, proteolytic activation of CaM kinase II by intracellular proteases offers an attractive mechanism for prolonging the effects of Ca2+ at the synapse.
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PMID:Autophosphorylation of the type II calmodulin-dependent protein kinase is essential for formation of a proteolytic fragment with catalytic activity. Implications for long-term synaptic potentiation. 255 54

ARPP-21 (cAMP-regulated phosphoprotein, Mr = 21,000 as determined by SDS-PAGE) is a major cytosolic substrate for cAMP-stimulated protein phosphorylation in dopamine-innervated regions of the rat CNS. It has recently been purified to homogeneity from bovine caudate nucleus and characterized (Hemmings and Greengard, 1989). ARPP-21 is isolated as 2 isoforms, ARPP-21A and ARPP-21B. The amino acid sequence of purified bovine ARPP-21B has now been determined by gas-phase sequencing. The S-14C-carboxymethylated protein was subjected to enzymatic cleavage with trypsin, chymotrypsin, subtilisin, and endoproteinase Lys-C. The resulting peptides were purified by high-performance liquid chromatography, and selected peptides were subjected to amino acid analysis and/or amino acid sequencing by automated Edman degradation. ARPP-21B consists of a single NH2-terminal blocked polypeptide chain of 88 residues, with a calculated molecular mass of 9561 Da, including an NH2-terminal acetyl group inferred by deblocking with an acylaminopeptidase. This molecular mass is significantly lower than earlier estimates based on SDS-PAGE or hydrodynamic measurements. The seryl residue phosphorylated by cAMP-dependent protein kinase (Hemmings et al., 1989) is located at position 55. The molecule contains 1 cysteinyl residue, at position 71, and contains no methionyl, tyrosyl, phenylalanyl, tryptophanyl, or histidinyl residues. Determination of the primary structure of ARPP-21, one of several phosphoproteins localized to dopaminoceptive neurons in the basal ganglia, provides a framework for further investigations into the molecular mechanisms involved in dopaminergic neurotransmission.
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PMID:ARPP-21, a cyclic AMP-regulated phosphoprotein enriched in dopamine-innervated brain regions. I. Amino acid sequence of ARPP-21B from bovine caudate nucleus. 255 36

The steroid-binding subunit of the glucocorticoid receptor is known to be a approximately 100-kDa phosphoprotein composed of an immunogenic, DNA-binding, and steroid-binding domain. When isolated from WEHI-7 cells, this protein contains between two and three phosphoryl groups per steroid-binding site (Mendel WEHI-7 cells, this protein contains between two and three phosphoryl groups per steroid-binding site (Mendel et al., 1987). To identify the domains that contain these phosphorylated sites, we have analyzed the phosphate content of selected proteolytic fragments of the approximately 100-kDa steroid-binding protein from nonactivated and activated receptors. The approximately 100-kDa steroid-binding protein from WEHI-7 cells grown in the presence of [32P]orthophosphate was covalently labeled with [3H]dexamethasone 21-mesylate, purified with the BuGR2 monoclonal antibody, digested with chymotrypsin or trypsin, and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Chymotrypsin digestion of this protein yields a approximately 45-kDa fragment containing both the steroid-binding and DNA-binding domains, which contained both 32P and 3H. Trypsin digestion of the protein yields a approximately 29-kDa fragment encompassing the steroid-binding domain but not the DNA-binding domain of the approximately 100-kDa protein, which also contained both 32P and 3H. The 32P/3H ratio of each fragment provides a measure of phosphate content per steroid-binding site and indicated that each fragment has approximately 30% of the phosphate content of the intact protein. This is sufficient to account for one of the three receptor phosphoryl groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylated sites within the functional domains of the approximately 100-kDa steroid-binding subunit of glucocorticoid receptors. 276 97

cAMP-dependent protein kinase, derived from either calf lens or bovine heart, promotes the phosphorylation of three lens plasma membrane proteins of molecular mass 28 kDa, 26 kDa and 18 kDa. Correlation of the maximal level of phosphorylation of these components with the Coomassie blue staining intensity of fractionated lens membranes suggests that the phosphorylation of the 28 kDa and 18 kDa components may be approximately stoichiometric. The protein kinase substrates could be dephosphorylated by a cardiac sarcoplasmic-reticulum-bound protein phosphatase activity. The 26 k Da component comigrated with MP26, the major lens membrane component that has been localized to the lens fiber cell junction. Treatment of phosphorylated lens membranes with chymotrypsin did not suggest that any of the three major phosphorylated components was derived from the partial proteolysis of a larger phosphoprotein. After electrophoretic separation of phosphorylated proteins, treatment with N-chlorosuccinimide confirmed that there was little similarity in the structure of the three phosphoproteins. Chymotrypsin did, however, reveal a cryptic phosphorylation site in a 22 kDa fragment that appeared to be derived from MP26. Treatment of phosphorylated membranes with reducing agents resulted in the disappearance of the 28 kDa phosphorylated component and the appearance of a new phosphorylated component of 18 kDa; neither MP26 nor the original 18 kDa component was affected by such treatment. It is not clear whether the original 18 kDa phosphoprotein, present in unreduced samples, is the same as that generated with reducing agents from the 28 kDa phosphorylated lens membrane component.
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PMID:Characterization of the bovine lens plasma membrane substrates for cAMP-dependent protein kinase. 299 Sep 30

Purified phospholamban isolated from canine cardiac sarcoplasmic reticulum vesicles was subjected to proteolysis and peptide mapping to localize the different sites of phosphorylation on the protein and to gain further information on its subunit structure. Five different proteases (trypsin, papain, chymotrypsin, elastase, and Pronase) degraded the oligomeric 27-kDa phosphoprotein into a major 21-22-kDa protease-resistant fragment. No 32P was retained by this protease-resistant fragment, regardless of whether phospholamban had been phosphorylated by cAMP-dependent protein kinase, Ca2+/calmodulin-dependent protein kinase, or protein kinase C. Phosphoamino acid analysis and thin-layer electrophoresis of liberated phosphopeptides revealed that 1 threonine and 2 serine residues were phosphorylated in phospholamban and that 1 of these serine residues and the threonine residue were in close proximity. Only serine was phosphorylated by cAMP-dependent protein kinase, whereas Ca2+-calmodulin-dependent protein kinase phosphorylated exclusively threonine. The results demonstrate that phospholamban has a large protease-resistant domain and a smaller protease-sensitive domain, the latter of which contains all of the sites of phosphorylation. The 21-22-kDa protease-resistant domain, although devoid of incorporated 32P, was completely dissociated into identical lower molecular weight subunits by boiling in sodium dodecyl sulfate, suggesting that this region of the molecule promotes the relatively strong interactions that hold the subunits together. The data presented lend further support for a model of phospholamban structure in which several identical low molecular weight subunits are noncovalently bound to one another, each containing one site of phosphorylation for cAMP-dependent protein kinase and another site of phosphorylation for Ca2+/calmodulin-dependent protein kinase.
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PMID:Proteolytic cleavage of phospholamban purified from canine cardiac sarcoplasmic reticulum vesicles. Generation of a low resolution model of phospholamban structure. 300 93

Calcineurin (CN) dephosphorylated [32P] phosphotyrosyl glutamine synthetase, a model phosphoprotein substrate containing approximately 1 mol of phosphotyrosine per mol subunit. Phosphatase activity with and without calmodulin (CaM) was greatly stimulated by Mn2+; with Ca2+, even in the presence of CaM, activity was very low. CaM-stimulated phosphatase activity exhibited deactivation with time; initial rates declined markedly after 2-3 min. The Michaelis constant for substrate (3 microM) was identical whether 2 or 12 min assays (with CaM) were used suggesting that the decreased rate of hydrolysis did not result from a decrease in affinity for the phosphoprotein substrate. Limited proteolysis of CN by chymotrypsin increased phosphatase activity 2-3 times that of CaM-supported activity; however, addition of CaM to assays with protease-activated CN reduced activity to that observed for non-proteolyzed enzyme. These data suggest that, in addition to stimulation, CaM can inhibit certain activated conformations of the phosphatase.
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PMID:Modulation of calcineurin phosphotyrosyl protein phosphatase activity by calmodulin and protease treatment. 302 18

Phosphorylation of protein phosphatase 1 by pp60v-src decreased its activity towards phosphorylase kinase and glycogen synthase as well as towards phosphorylase a. Kinetic experiments indicated that the primary effect of phosphorylation was to increase the Km for each of the substrate proteins. There was little or no change in the Vmax for the reactions. The possibility that phosphorylation of protein phosphatase 1 altered its regulation by inhibitors-1 and -2 was also examined. Phosphorylation of protein phosphatase 1 did not prevent the reversible inhibition of the enzyme by inhibitor-1 or inhibitor-2 nor did it prevent the association of inhibitor-2 with protein phosphatase 1 to form the MgATP-dependent protein phosphatase. Protein phosphatase 1 is not a substrate for pp60v-src when it is complexed with inhibitor-2 to form the inactive MgATP-dependent protein phosphatase. Here we have shown that protein phosphatase 1 is also not phosphorylated by pp60v-src following activation of the MgATP-dependent protein phosphatase with glycogen synthase kinase-3 and MgATP. This indicates that the inability of pp60v-src to phosphorylate protein phosphatase 1 is not due to the change in protein phosphatase 1 conformation which accompanies the inactivation of the MgATP-dependent protein phosphatase. Rather, it appears to be the result of steric hindrance by inhibitor-2. This suggests that the pp60v-src phosphorylation site is closely associated with the inhibitor-2 binding site involved in the formation of the MgATP dependent protein phosphatase. The pp60v-src phosphorylation site was previously localized to a small (Mr less than or equal to 4000) domain which can be selectively degraded by chymotrypsin. Here we have shown that chymotryptic digestion increased the Km of unphosphorylated protein phosphatase 1 for each of the three phosphoprotein substrates used in this study. This effect was similar to that observed after phosphorylation of protein phosphatase 1. These results indicate that the pp60v-src phosphorylation site is in a region of protein phosphatase 1 which influences substrate binding and which may be near the active site.
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PMID:Effects of phosphorylation of protein phosphatase 1 by pp60v-src on the interaction of the enzyme with substrates and inhibitor proteins. 303 Apr 48

The complete amino acid sequence of bovine brain DARPP-32, a dopamine- and cyclic AMP-regulated neuronal phosphoprotein, which is a potent and specific inhibitor of the catalytic subunit of protein phosphatase-1, has been determined. The S-14C-carboxymethylated protein was subjected to enzymatic cleavage by endoproteinase Lys-C, endoproteinase Arg-C, trypsin, chymotrypsin, and Staphylococcus aureus V8 protease, and to chemical cleavage by cyanogen bromide. The overlapping sets of peptides were purified by high performance liquid chromatography and subjected to amino acid sequencing by automated Edman degradation to deduce the complete sequence. The protein consists of a single NH2-terminal blocked polypeptide chain of 202 residues, with a calculated molecular mass of 22,591 daltons, excluding the unidentified NH2-terminal blocking group. This molecular mass is significantly lower than earlier estimates based on sodium dodecyl sulfate-polyacrylamide gel electrophoresis or hydrodynamic measurements. The threonine residue that is phosphorylated by cyclic AMP-dependent protein kinase (Hemmings, H. C., Jr., Williams, K. R., Konigsberg, W. H., and Greengard, P. (1984) J. Biol. Chem. 259, 14486-14490), and that must be phosphorylated for the expression of inhibitory activity, is located at position 34. The molecule contains only 1 cysteine residue and 1 tryptophan residue, at positions 72 and 161, respectively. DARPP-32 is very hydrophilic, and contains a stretch of 16 consecutive acidic residues from position 119 to 134. The predicted secondary structure suggests the presence of 47% alpha-helix, 7% beta-sheet, and 46% random coil, with 11 beta-turns. Comparison of the complete amino acid sequence of bovine DARPP-32 with that of rabbit skeletal muscle protein phosphatase inhibitor-1 revealed a significant amount of sequence identity in the NH2-terminal regions of these two proteins. The active region of inhibitor-1 has been localized to an NH2-terminal fragment (Aitken, A., and Cohen, P. (1982) FEBS Lett. 147, 54-58), the part of the molecule that is most similar to DARPP-32. These data suggest that these two protein phosphatase inhibitors may share a common structural basis for their inhibitory activity and may be related by a common ancestral gene.
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PMID:DARPP-32, a dopamine- and cyclic AMP-regulated neuronal phosphoprotein. Primary structure and homology with protein phosphatase inhibitor-1. 351 Oct 54

Two intrinsic membrane proteins of calf lens fiber cells can be phosphorylated by a soluble bovine lens cAMP-dependent protein kinase and rabbit muscle cAMP-dependent protein kinase. After electrophoresis of the phosphorylated membranes, 32P comigrates with the lens main intrinsic protein at 26-27 kDa and with a minor band of protein that migrates at 19-20 kDa. 32P is also found with proteins that, based on the molecular sizes, are likely multimers of the 19-kDa and 26-kDa proteins. Upon boiling in NaDodSO4, all the radioactivity is found at the top of the gel, suggesting that both phosphoproteins are intrinsic membrane proteins. Serine is the only phospho amino acid detected in both proteins regardless of the source of protein kinase. The phosphorylation sites of both proteins are lost upon cleavage with trypsin and chymotrypsin. The smaller phosphoprotein is likely not a crystallin, because antibodies directed against alpha-, beta-, or gamma-crystallins do not cross-react with the 19-kDa protein. The 19-kDa 32P-labeled protein does not migrate coincident with calf alpha-crystallin.
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PMID:Phosphorylation of lens fiber cell membrane proteins. 388 45


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