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

The amino acid sequences surrounding three major phosphorylation sites in rat and bovine synapsin I have been determined by employing automated gas-phase sequencing and manual Edman degradation of purified phosphopeptide fragments. Site 1 is a serine residue phosphorylated by cAMP-dependent protein kinase and by calcium/calmodulin-dependent protein kinase I. The sequence around site 1 was derived from tryptic/chymotryptic phosphopeptides and overlapping cyanogen bromide cleavage fragments. This sequence, identical in rat and bovine synapsin I, is Asn-Tyr-Leu-Arg-Arg-Arg-Leu-Ser(P)-Asp-Ser-Asn-Phe-Met. Site 1 is located at the NH2 terminus of the protein, within the collagenase-resistant head region. Sites 2 and 3 are serine residues phosphorylated by calcium/calmodulin-dependent protein kinase II. The sequences surrounding bovine site 2 and site 3 were derived from tryptic phosphopeptides and overlapping fragments generated by cleavage with chymotrypsin, collagenase, and endoproteinase Lys-C. The sequence around bovine site 2 is Thr-Arg-Gln-Thr-Ser(P)-Val-Ser-Gly-Gln-Ala-Pro-Pro-Lys, and the sequence around bovine site 3 is Thr-Arg-Gln-Ala-Ser(P)-Gln-Ala-Gly-Pro-Met-Pro-Arg. Sites 2 and 3 are located within the COOH-terminal, collagenase-sensitive tail region of the molecule, separated by 36 amino acids. The sequences surrounding rat site 2 and site 3 were derived from tryptic phosphopeptides. The sequence around rat site 2 is Gln-Ala-Ser(P)-Ile-Ser-Gly-Pro-Ala-Pro-Pro-Lys, and the sequence around rat site 3 is Gln-Ala-Ser(P)-Gln-Ala-Gly-Pro-Gly-Pro-Arg. Thus, the sequences surrounding the four sites that are phosphorylated by calcium/calmodulin-dependent protein kinase II, namely sites 2 and 3 in rat and bovine synapsin I, exhibit a high degree of homology.
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PMID:Amino acid sequences surrounding the cAMP-dependent and calcium/calmodulin-dependent phosphorylation sites in rat and bovine synapsin I. 311 71

A variety of eukaryotic viral and cellular proteins possesses an NH2-terminal N-myristoylglycine residue important for their biological functions. Recent studies of the primary structural requirements for peptide substrates of the enzyme responsible for this modification in yeast demonstrated that residues 1, 2, and 5 play a critical role in enzyme: ligand interactions (Towler, D. A., Adams, S. P., Eubanks, S. R., Towery, D. S., Jackson-Machelski, E., Glaser, L., and Gordon J. I. (1987b) Proc. Natl. Acad. Sci. U. S. A. 84, 2708-2812). This was determined by examining as substrates a series of synthetic peptides whose sequences were systematically altered from a "parental" peptide derived from the known N-myristoylprotein bovine heart cyclic AMP-dependent protein kinase (A kinase) catalytic subunit. We have now extended these studies in order to examine structure/activity relationships in the COOH-terminal regions of octapeptide substrates of yeast N-myristoyltransferase (NMT). The interaction between yeast NMT and the side chain of residue 5 in peptide ligands is apparently sterically constrained, since Thr5 is unable to promote the very high affinity binding observed with a Ser5 substitution. A substrate hexapeptide core has been defined which contains much of the information necessary for recognition by this lower eukaryotic NMT. Addition of COOH-terminal basic residues to this hexapeptide enhances peptide binding, while COOH-terminal acidic residues destabilize NMT: ligand interactions. Based on the results obtained from our in vitro studies of over 80 synthetic peptides and yeast NMT, we have identified a number of potential N-myristoylproteins from searches of available protein databases. These include hepatitis B virus pre-S1, human SYN-kinase, rodent Gi alpha, and bovine transducin-alpha. Peptides corresponding to the NH2-terminal sequences of these proteins and several known N-myristoylproteins were assayed using yeast NMT as well as partially purified rat liver NMT. While a number of the synthetic peptides exhibited similar catalytic properties with the yeast and mammalian enzymes, surprisingly, the SYN-kinase, Gi alpha, and transducin-alpha peptides were N-myristoylated by rat NMT but not by yeast NMT. This suggests that either multiple NMT activities exist in rat liver or the yeast and rodent enzymes have similar but distinct peptide substrate specificities.
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PMID:Myristoyl CoA:protein N-myristoyltransferase activities from rat liver and yeast possess overlapping yet distinct peptide substrate specificities. 312 78

The phosphorylation of synthetic peptides derived from the NH2-terminal sequence of smooth-muscle myosin was studied with purified protein kinase C. The protein kinase C phosphorylation domain included both serine residues and threonine residues in the sequence SSKRAKAKTTKKR(G), denoted myosin light chain (1-13) (MLC(1-13)). Kinetic analysis of MLC(1-13) and truncated peptides derived from the parent peptide established that removal of the serine residues had little effect on protein kinase C reactivity. MLC(1-13) had a V/K of 2.4 min-1.mg-1, whereas the V/K of MLC(3-13) was 3.0 min-1.mg-1. Removal of Lys-3 resulted in a 50% decrease in V/K which was attributable to a 50% decrease in apparent Vmax.Arg-4 was established as a significant protein kinase C specificity determinant, since the apparent Km increased 7-fold and the Vmax decreased 3-fold when the parent peptide was truncated at that residue. All peptides studied required calcium and lipid effectors for full activity with protein kinase C, indicating that they are Class C substrates as defined by Bazzi and Nelsestuen (Biochemistry 26 (1987) 5002) for protein kinase C. Other protein kinases, including cyclic AMP- and cyclic GMP-dependent protein kinase, S6/H4 kinase, myosin light-chain kinase and calcium/calmodulin-dependent kinase II, had little or no activity with these peptides. In studies on the purification of lymphosarcoma protein kinase C by several chromatographic procedures, the results showed that the myosin light-chain peptides can provide convenient and well-characterized substrates for purification and mechanistic studies of protein kinase C biochemistry.
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PMID:Synthetic peptides derived from the nonmuscle myosin light chains are highly specific substrates for protein kinase C. 317 14

In the yeast Saccharomyces cerevisiae, three genes TPK1, TPK2, and TPK3 encode catalytic subunits of cAMP-dependent protein kinase. We have purified and characterized the catalytic subunit, C1, encoded by the TPK1 gene. In order to purify C1 completely free of C2 and C3, a strain was constructed that contained only the TPK1 gene and genetic disruptions of the other two TPK genes. The cellular level of C1 was increased by expressing the genes for C1 (TPK1) and yeast regulatory subunit (BCY1) on multiple copy plasmids within this strain. Purification was accomplished by a two-column procedure in which holoenzyme was chromatographed on Sephacryl-200, then bound to an anti-regulatory subunit immunoaffinity column. Pure C1 was released from the antibody column by addition of cAMP. The protein migrated on a sodium dodecyl sulfate-polyacrylamide gel with an Mr of 52,000. Kinetic analysis showed that the apparent Km for ATP and Leu-Arg-Arg-Ala-Ser-Leu-Gly was 33 and 101 microM, respectively. The kcat was determined to be 640 min-1. The protein weakly autophosphorylated, incorporating less than 0.1 mol of phosphate/mol of catalytic subunit. NH2-terminal sequencing revealed that the protein was blocked.
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PMID:Purification and characterization of C1, the catalytic subunit of Saccharomyces cerevisiae cAMP-dependent protein kinase encoded by TPK1. 328 29

cDNA clones encoding the regulatory subunit of the cAMP-dependent protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) from Dictyostelium discoideum were isolated by immunoscreening of a cDNA library constructed in the expression vector lambda gt11. High-affinity cAMP-binding activity was detected in extracts from bacteria lysogenized with these clones. Nucleotide sequence analysis of three overlapping clones allowed the determination of a 1195-base-pair cDNA sequence coding for the entire regulatory subunit and containing nontranslated 5' and 3' sequences. The open reading frame codes for a protein of 327 amino acids, with molecular weight 36,794. The regulatory subunit from Dictyostelium shares a high degree of homology with its mammalian counterparts, but is lacking the NH2-terminal domain required for the association of regulatory subunits into dimers in other eukaryotes. On the basis of the comparison of the regulatory subunits from Dictyostelium, yeast, and bovine tissues, a model for the evolution of these proteins is proposed.
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PMID:Cloning and cDNA sequence of the regulatory subunit of cAMP-dependent protein kinase from Dictyostelium discoideum. 346 59

The specificity of casein kinase II has been further defined by analyzing the kinetics of phosphorylation reactions using a number of different synthetic peptides as substrates. The best peptide substrates are those in which multiple acidic amino acids are present on both sides of the phosphorylatable serine or threonine. Acidic residues on the NH2-terminal side of the serine (threonine) greatly enhance the kinetic constants but are not absolutely required. Acidic residues on the COOH-terminal side of the serine (threonine) are absolutely required. One position for which the occupation of an acidic residue is especially critical is the position located 3 residues to the COOH terminus of the phosphate acceptor site, although the presence of an acidic amino acid in the positions that are 4 or 5 residues removed may also provide an appropriate structure that will serve as a substrate for the kinase. Aspartate serves as a better amino acid determinant than glutamate. A relatively short sequence of amino acids surrounding the phosphate acceptor site appears to serve as the basis for the specificity of casein kinase II. The peptides in this study were also assayed with casein kinase I and the casein kinase from the mammary gland so that the specificities of these kinases could be compared to that of casein kinase II.
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PMID:Substrate specificity determinants for casein kinase II as deduced from studies with synthetic peptides. 347 30

Nuclear Overhauser effects were used to determine interproton distances on MgATP bound to rabbit muscle creatine kinase. The internuclear distances were used in a distance geometry program that objectively determines both the conformation of the bound MgATP and its uniqueness. Two classes of structures were found that satisfied the measured interproton distances. Both classes had the same anti glycosidic torsional angle (chi = 78 +/- 10 degrees) but differed in their ribose ring puckers (O1'-endo or C4'-exo). The uniqueness of the glycosidic torsional angle is consistent with the preference of creatine kinase for adenine nucleotides. One of these conformations of MgATP bound to creatine kinase is indistinguishable from the conformation found for Co(NH3)4ATP bound to the catalytic subunit of protein kinase, which also has a high specificity for adenine nucleotides [chi = 78 +/- 10 degrees, O1'-endo; Rosevear, P.R., Bramson, H.N., O'Brian, C., Kaiser, E.T., & Mildvan, A.S. (1983) Biochemistry 22, 3439]. Distance geometry calculations also suggest that upper limit distances, when low enough (less than or equal to 3.4 A), can be used instead of measured distances to define, within experimental error, the glycosidic torsional angle of bound nucleotides. However, this approach does not permit an evaluation of the ribose ring pucker.
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PMID:Nuclear overhauser effect studies on the conformation of magnesium adenosine 5'-triphosphate bound to rabbit muscle creatine kinase. 349 34

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

An expression vector has been constructed for the type I regulatory subunit of cAMP-dependent protein kinase. A cDNA clone for the bovine RI-subunit has been inserted into pUC7. When Escherichia coli JM105 was transformed with this plasmid, R-subunit was expressed in amounts that approached 4 mg/liter. The expressed protein was visualized in total cell extracts by photolabeling with 8-azidoadenosine 3':5'-mono[32P]phosphate following transfer from sodium dodecyl sulfate-polyacrylamide gels to nitrocellulose. Expression of R-subunit was independent of isopropyl-beta-D-thiogalactopyranoside. R-subunit accumulated in large amounts only in the stationary phase of growth, and the addition of isopropyl-beta-D-thiogalactopyranoside during the log phase of growth actually blocked the accumulation of R-subunit. Maximum expression (20 mg/liter) was achieved when E. coli 222 was transformed with the RI-containing plasmid. E. coli 222 is a strain that contains two mutations; it is cya- and also has a mutation in the catabolite gene activator protein (crp) that enables the protein to bind to DNA in the absence of cAMP. The expressed RI-subunit was a soluble, dimeric protein, and no significant proteolysis was apparent in the cell extract. The purified RI-subunit bound 2 mol of cAMP/mol of R monomer, reassociated with C-subunit to form holoenzyme, and migrated as a dimer on sodium dodecyl sulfate-polyacrylamide gels in the absence of reducing agents. The expressed protein was also susceptible to limited proteolysis, yielding a monomeric cAMP-binding fragment having a molecular weight of 35,000. In all of these properties, the expressed protein was indistinguishable from RI purified from bovine tissue even though the R-subunit expressed in E. coli represents a fusion protein that contains 10 additional amino acids at the amino terminus that are provided by the lac Z' gene of the vector. This NH2-terminal sequence was confirmed by amino acid sequencing.
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PMID:Expression of the type I regulatory subunit of cAMP-dependent protein kinase in Escherichia coli. 352 60

The activity of protein tyrosine kinase (EC 2.7.1.37) was characterized from Leydig tumor cells (M5480A) using the synthetic peptide NH2-Glu-Asp-Ala-Glu-Tyr-Ala-Ala-Arg-Arg-Arg-Gly-COOH as a substrate. Relatively high tyrosine-specific protein kinase activity (about 135 pmol/mg protein per min) was detected in a particulate fraction (30 000 X g pellet) and was found to be linear as a function of time and protein concentration. The enzymic activity in the particulate fraction was stimulated 1.4-fold by 0.02% Nonidet P-40 as judged by 32PO4 incorporated into the peptide. Phosphorylation of endogenous proteins in M5480A particulate fractions with [gamma-32P]ATP resulted in several alkali-resistant radiolabeled bands in polyacrylamide gels in the presence of sodium dodecyl sulfate. Included in this group was a major radiolabeled doublet with an apparent molecular-weight in the range of 50 000-54 000. Phosphoamino acid analysis of hydrolysates of these eluted proteins indicated the presence of phosphotyrosine. Several alkali-resistant radio-labeled bands, including a major doublet with an apparent molecular-weight of 32 000, were also detected after culturing M5480A cells in the presence of 32PO4. These studies demonstrate the presence of high levels of protein tyrosine kinase activity in Leydig tumor cells and of endogenous protein substrates for this enzyme activity.
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PMID:Characterization of protein tyrosine kinase activity in murine Leydig tumor cells. 369 80


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