EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Porcine cardiac native tropomyosin was phosphorylated by bovine cardiac 3':5'-cyclic AMP-dependent protein kinase. Most of the phosphate incorporation was observed in troponin I, the maximum of which was 0.7 mol of Pi per mol of troponin I. 2. In the presence of phosphorylated native tropomyosin, actomyosin ATPase activity was 15-40% lower than that in the presence of the unphosphorylated preparation at all calcium ion concentrations (1.5 x 10(-8) M-2.4 x 10(-5) M). Half-maximum activation of ATPase was obtained with a concentration of 7 x 10(-7) M Ca2+ (unphosphorylated) and 1.3 x 10(-6) M Ca2+ (phosphorylated), respectively. Maximum ATPase activity was reached with 3 x 10(-6) M Ca2+ (unphosphorylated) and 1.0 x 10(-5) M Ca2+ (phosphorylated). 3. Porcine cardiac troponin I isolated by affinity chromatography inhibited ATPase activity of desensitized actomyosin in the presence of tropomyosin. There was little difference between phosphorylated troponin I and a control preparation with regard to the inhibitory effect of ATPase activity. 4. Troponin C from rabbit skeletal muscle neutralized the inhibitory effect of troponin I. The minimum amount of troponin C required for complete neutralization was approximately equimolar to troponin I. The inhibitory effect of phosphorylated troponin I was neutralized by troponin C less effectively than that of unphosphorylated preparation.
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PMID:Effect of phosphorylation of porcine cardiac troponin I by 3':5'-cyclic AMP-dependent protein kinase on the actomyosin ATPase activity. 628 30

The complete primary structure of the B subunit of calcineurin (protein phosphatase 2B) has been determined by automated sequence analysis. The protein consists of a single polypeptide chain of 168 residues, relative molecular mass 19200. The structure shows 35% identity with the sequence of calmodulin and 29% with troponin C. Homology is mainly confined to the regions of the four putative Ca2+-binding loops. The results demonstrate that the B subunit is a new member of this family of Ca2+-binding proteins. The N-terminal glycine residue is blocked with the C14-saturated fatty acid myristic acid and the first four residues are very similar to those of the catalytic subunit of cyclic-AMP-dependent protein kinase which also contains a myristoyl blocking group.
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PMID:The structure of the B subunit of calcineurin. 632 Nov 84

A new protein kinase modulated by S-100 (tentatively referred to as protein kinase X) was partially purified from pig brain extracts. The activity of protein kinase X, which was independent of Ca2+, was demonstrated when protamine (free base), but not protamine sulfate and other proteins (including histone), was used as substrate. The enzyme activity, found to distribute in both soluble and particulate fractions and to occur at the highest level in brain compared with other tissues (heart, kidney, liver, skeletal muscle, spleen, and testis) of rats, was also modulated by other acidic proteins (calmodulin, troponin C, and stimulatory modulator) in a Ca2+ -independent manner. S-100 and other acidic proteins appeared to function as "substrate modifiers" by interacting with protamine (a highly basic protein), but not with the enzyme, thus rendering protamine in the complex a superior phosphate acceptor. The two isoforms of S-100 (i.e., a and b) were equally effective. Although the enzyme was not inhibited by many agents (trifluoperazine, melittin, cytotoxin I, polymyxin B, and spermine) shown to inhibit markedly phospholipid/Ca2+- or calmodulin/Ca2+ -stimulated protein kinase, gossypol was found to inhibit specifically protein kinase X. The present findings suggest that S-100, a major acidic protein specific to nervous system, may promote phosphorylation by protein kinase X of certain neural proteins resembling protamine or containing protamine-like domains, in addition to its presumed role of a low-affinity Ca2+ -binding protein.
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PMID:S-100 and other acidic proteins promote Ca2+-independent phosphorylation of protamine catalyzed by a new protein kinase from brain. 669 80

Skeletal-muscle troponin I and troponin T were found to be rapidly phosphorylated by cardiac phospholipid-sensitive Ca2+-dependent protein kinase, with Km values of 6.66 and 0.13 microM respectively. Stoichiometric phosphorylation of skeletal troponin I (endogenous phosphate content 0.7 mol/mol) indicated that the Ca2+-dependent enzyme and cyclic AMP-dependent protein kinase incorporated 0.9 and 0.8 mol/mol respectively. The same experiments with skeletal troponin T (endogenous phosphate content 1.9 mol/mol) revealed a maximal phosphorylation of 2 mol/mol by the Ca2+-dependent enzyme, whereas the cyclic AMP-dependent enzyme was unable to phosphorylate troponin T. The Ca2+-dependent enzyme phosphorylated both serine and threonine residues in skeletal and cardiac troponin I or troponin T; the cyclic AMP-dependent enzyme, in comparison, phosphorylated only serine in skeletal and cardiac troponin I. Although an equimolar amount of skeletal or cardiac troponin C markedly inhibited (80-90%) phosphorylation of skeletal and cardiac troponin I by the Ca2+-dependent enzyme, these troponin C preparations inhibited only phosphorylation of skeletal troponin I, but not that of cardiac troponin I, by the cyclic AMP-dependent enzyme. Calmodulin and Ca2+-binding protein S-100a could mimic the inhibitory effect of troponin C. A tissue specificity appeared to exist for the skeletal troponin T-skeletal troponin C interaction. Inhibition of troponin T phosphorylation by an equimolar amount of troponin C was lower than that of troponin I phosphorylation; these findings might explain in part why troponin T was the major substrate for the Ca2+-dependent enzyme in the troponin complex. The present studies indicate that skeletal and cardiac troponin I and troponin T were effective substrates for phospholipid-sensitive Ca2+-dependent protein kinase, suggesting a potential involvement of this Ca2+-effector enzyme in the regulation of myofibrillar activity.
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PMID:Phosphorylation of skeletal-muscle troponin I and troponin T by phospholipid-sensitive Ca2+-dependent protein kinase and its inhibition by troponin C and tropomyosin. 671 19

An important feature of cellular regulation is the precise control of intracellular calcium levels. This is accomplished both by dynamic organelle release and sequestration of calcium and by specific calcium active transport mechanisms located in the plasma membrane. The actual calcium signal for mediation of a cellular response is carried out by specific intracellular proteins, the most widely studied examples are calmodulin and troponin C. The recent discovery of phospholipid protein kinase and calcimedins suggests receptor mediation via several independent proteins. The physiological importance of a particular protein as a calcium messenger rests on several features: 1) calcium binding is of the order of 1-10 microns, 2) the protein is known to be localized at the site of proposed action, 3) if translocation occurs upon activation, the time required is consistent with the time course of the physiologic response and 4) substrates or effectors at the next level of action when isolated can be demonstrated to have similar activation kinetics as in situ.
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PMID:Calcium binding proteins and cellular regulation. 676 33

1. Troponin C and calmodulin were not digested by thrombin at a significant rate in the presence of Ca2+. 2. In the presence of EGTA, troponin C was digested by thrombin to yield three peptides, TH1 (residues 1--120), TH3 (residues 1--100) and TH2 (residues 121--159). 3. In the presence of EGTA calmodulin was digested by thrombin giving two peptides, TM1 (residues 1--106) and TM2 (residues 107--148). 4. The electrophoretic mobilities of peptides TH1 and TM1 were increased at pH 8.6 by Ca2+ both in the presence and absence of urea. The mobilities of peptides TH2 and TM2 were unaltered under these conditions. 5. Peptides TH1, TH2 and tM1 formed complexes with troponin I on polyacrylamide gels at pH 8.6 in the presence of Ca2+. 6. The phosphorylation of troponin I by cyclic AMP-dependent protein kinase was significantly inhibited by peptides TH1 and TH3 and to a lesser extent by peptide TM1. 7. The calmodulin peptide TM1 activated myosin light-chain kinase when present in large molar excess. Peptide TM2 did not activate the enzyme.
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PMID:Biological activities of the peptides obtained by digestion of troponin C and calmodulin with thrombin. 689 66

Muscular contraction is triggered by the increase in free calcium concentration and modulated by cyclic nucleotide-dependent phosphorylation. Beside a direct trigger of sarcomeric muscle contraction through binding of troponin C, calcium ions trigger or modulate contractility through calcium-calmodulin-dependent myosin light chain kinases, and increase the rate of relaxation through the calmodulin-dependent phosphorylation of phospholamban, the activator of the cardiac sarcoplasmic reticulum calcium pump. In both cases, a concerted regulation by calcium and cyclic nucleotides is observed. Hyperactivation of the calcium pump is brought about by additional phosphorylation of phospholamban by cAMP-dependent protein kinase. Similarly myofibrillar myosin light chain kinases from smooth and skeletal muscles are substrates of the cAMP-dependent protein kinase. The calmodulin-dependent protein kinases are probably organized into supramolecular regulatory complexes.
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PMID:Calcium-calmodulin-dependent phosphorylations in the control of muscular contraction? 701 31

A protein kinase was purified from rat liver nuclei by affinity chromatography on poly(L-lysine)-agarose and protein kinase inhibitor-Sepharose 4B columns. The relative molecular weight of this protein kinase is 105000 (determined by 10% SDS-polyacrylamide slab gel electrophoresis, gel filtration on Sephadex G-200 and sedimentation velocity ultracentrifugation). Its pH optimum is between 8.0 and 9.0. It is active over a wide range of mg2+ concentrations, and its activity is stimulated by several small acidic proteins (calmodulin, lactalbumin, parvalbumin, protein kinase inhibitor and troponin C). The enzyme phosphorylates a variety of substrates including casein, histones, protamine and the synthetic basic polypeptides, poly(L-arginine) and poly(L-lysine).
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PMID:Isolation and purification of a new 105 kDa protein kinase from rat liver nuclei. 708 80

The interaction of troponin I (CTnI) with troponin C (CTnC) from bovine cardiac muscle was studied using CTnC modified at Cys35 and Cys84 with the fluorescent probe 2-[(4'-iodoacetamido)-anilino]naphthalene-6-sulfonic acid (CTnCIAANS). The association constant for complex formation between the two proteins was determined at 20 degrees C in 0.4 M KCl, 1 mM DTT, 1 mM EGTA, and 25 mM MOPS, pH 7.2. In the presence of EGTA, Mg2+, and Ca2+ these constants were 1.46 x 10(7), 4.1 x 10(7), and 12.7 x 10(7) M-1, respectively, with corresponding free energy values of -9.62, -10.23, and -10.88 kcal mol-1. The CTnI-CTnCIAANS complex was stabilized by -0.61 kcal when the two Ca/Mg sites of CTnCIAANS were saturated with Mg2+ and by -1.26 kcal when all three Ca2+ sites were occupied by Ca2+. These results suggest that calcium activation in cardiac muscle may be accompanied by a coupling free energy of -0.65 kcal. This value is a factor of 4 smaller than the value previously determined, using a similar method, for the (troponin I).(troponin C) complex from skeletal muscle [Wang, C.-K., & Cheung, H.C. (1985) Biophys. J.48, 727-739]. Since CTnC has only one Ca(2+)-specific site and troponin C from skeletal muscle has two such sites, the present result is a factor of 2 smaller than that for the skeletal complex on the basis of a single specific site. Phosphorylation of CTnI by 3',5'-cyclic AMP-dependent protein kinase resulted in a decrease of the association constants by a factor of 2.5-3.5.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coupling of calcium to the interaction of troponin I with troponin C from cardiac muscle. 791 99

We studied the effects of a full beta 1-adrenoceptor agonist (T-0509), a beta 2-adrenoceptor agonist (procaterol) and a nonselective beta-adrenoceptor agonist (isoproterenol, ISO) on subcellular cyclic AMP levels and cyclic AMP-dependent protein kinase (cyclic AMP-PK) activity in guinea pig hearts and compared them with the effect of each drug on cardiac contractility. T-0509 (10(-8)M) and ISO (3 x 10(-8)M) caused an increase of approximately 170% in dF/dtmax, whereas 10(-7) procaterol produced only a 25% increase. All these agonists significantly increased the cyclic AMP level in ventricular homogenate. Subcellular fractions were obtained by centrifugation at 100,000 g for 10 min and by Li2SO4 precipitation of the 100,000-g supernatant. In the control heart, probably salcolemmal protein, phospholamban, and 60-kDa protein in the particulate fraction and probably troponin I and troponin C in the supernatant fraction were mainly phosphorylated by the catalytic subunit of cyclic AMP-PK. In the precipitate obtained from the supernatant fraction with Li2SO4, probably all proteins described were contained. However, none of the proteins were detected in the supernatant obtained with Li2SO4. T-0509 and ISO caused significant changes in cyclic AMP levels and cyclic-PK activities in all fractions. However, procaterol increased the cyclic AMP concentrations and cyclic AMP-PK activities only in the supernatant fraction and the supernatant obtained with Li2SO4. T-0509 and ISO increased cyclic AMP level (9-16 pmol/mg protein) and cyclic AMP-PK activity ratio (0.27-0.33) significantly to the same degree in the precipitate obtained with Li2SO4, whereas the effects of T-0509 in other fractions were about twofold less than those of ISO. These results suggest that beta 1- and beta 2-adrenoceptor agonists cause differential compartmentalization of cyclic AMP and cyclic AMP-PK in the cardiac muscle.
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PMID:Subcellular fractions of cyclic AMP and cyclic AMP-dependent protein kinase and the positive inotropic effects of selective beta 1- and beta 2-adrenoceptor agonists in guinea pig hearts. 860 25

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