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 primary sequence of the microtubule-associated protein tau contains multiple repeats of the sequence -X-Ser/Thr-Pro-X-, the consensus sequence for the proline-directed protein kinase (p34cdc2/p58cyclin A). When phosphorylated by proline-directed protein kinase in vitro, tau was found to incorporate up to 4.4 mol of phosphate/mol of protein. Isoelectric focusing of the tryptic phosphopeptides demonstrated the presence of five distinct peptides with pI values of approximately 6.9, 6.5, 5.6-5.9, 4.7, and 3.6. Mapping of the tryptic phosphopeptides by high performance liquid chromatography techniques demonstrated three distinct peaks. Data from gas phase sequencing, amino acid analysis, and phosphoamino acid analysis suggest that proline-directed protein kinase phosphorylates tau at four sites. Each site demonstrates the presence of a proline residue on the carboxyl-terminal side of the phosphorylated residue. Two phosphorylation sites are located adjacent to the three-repeat microtubule-binding domain that has been found to be required for the in vivo co-localization of tau protein to microtubules. Two other putative phosphorylation sites are located within the identified epitope of the monoclonal antibody Tau-1. Phosphorylation of these sites altered the immunoreactivity of tau to Tau-1 antibody. Since the neuronal microtubule-associated protein tau is multiply phosphorylated in Alzheimer's disease, and Tau-1 immunoreactivity is similarly reduced in neurofibrillary tangles and enhanced after dephosphorylation, phosphorylation at one or more of these sites may correlate with abnormally phosphorylated sites in tau protein in Alzheimer's disease.
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PMID:Proline-directed phosphorylation of human Tau protein. 142 6

Increases in the plant hormone abscisic acid (ABA) initiate water-stress responses in plants. We present evidence that a transcript with homology to protein kinases is induced by ABA and dehydration in wheat. A 1.2-kilobase cDNA clone (PKABA1) was isolated from an ABA-treated wheat embryo cDNA library by screening the library with a probe developed by polymerase chain reaction amplification of serine/threonine protein kinase subdomains VIb to VIII. The deduced amino acid sequence of the PKABA1 clone contains the features of serine/threonine protein kinases, including homology with all 12 conserved regions of the catalytic domain. PKABA1 transcript levels are barely detectable in growing seedlings but are induced dramatically when plants are subjected to dehydration stress. The PKABA1 transcript can also be induced by supplying low concentrations of ABA, and coordinate increases in ABA levels and PKABA1 mRNA occur when seedlings are water-stressed. Identification of this ABA-inducible transcript with homology to protein kinases provides a basis for examining the role of protein phosphorylation in plant responses to dehydration.
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PMID:Isolation of a wheat cDNA clone for an abscisic acid-inducible transcript with homology to protein kinases. 143 7

A number of molecules have recently been described that effect the correct transport and assembly of cytoplasmically synthesized proteins to cellular membranes. To identify proteins that bind or modify other proteins during the process of membrane translocation, we developed a yeast selection scheme that employs the yeast transcriptional activator GAL4. This selection facilitates the isolation of cDNAs that encode proteases and binding proteins for known target peptide sequences. We report the isolation of an Arabidopsis cDNA encoding a polypeptide that can interact with the amino terminus of a ligh-harvesting chlorophyll a/b-binding protein (LHCP), a cytoplasmically synthesized protein that is integral to the chloroplast thylakoid membrane. The cDNA was selected in yeast from an Arabidopsis expression library for its ability to inhibit a transcriptional activator GAL4-LHCP fusion protein, but not inhibit native GAL4 protein. The LHCP amino-terminal sequences included in the fusion protein are known to regulate LHCP biogenesis and function. The Arabidopsis cDNA encodes a 595-amino acid protein with at least two functional domains, one with similarity to the family of protein-serine/threonine kinases and another that contains an epidermal growth factor repeat. The identification of an EGF repeat in Arabidopsis indicates that the motif is conserved between the plant and animal kingdoms. Hybridization studies indicate that this gene is likely to be present in other genera of plants. Its mRNA is detected in green leaves but not in other plant tissues or in etiolated plants. The specificity in yeast and the expression pattern in plants together are suggestive of a role for this protein kinase in the assembly or regulation of LHCP.
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PMID:An Arabidopsis serine/threonine kinase homologue with an epidermal growth factor repeat selected in yeast for its specificity for a thylakoid membrane protein. 143 3

Calmodulin is phosphorylated by casein kinase II on Thr-79, Ser-81, Ser-101 and Thr-117. To determine the consensus sequences for casein kinase II in intact calmodulin, we examined casein kinase II-mediated phosphorylation of engineered calmodulins with 1-4 deletions in the central helical region (positions 81-84). Total casein kinase II-catalyzed phosphate incorporation into all deleted calmodulins was similar to control calmodulin. Neither CaM delta 84 (Glu-84 deleted) nor CaM delta 81-84 (Ser-81 to Glu-84 deleted) has phosphate incorporated into Thr-79 or Ser-81, but both exhibit increased phosphorylation of residues Ser-101 and Thr-117. These data suggest that phosphoserine in the +2 position may be a specificity determinant for casein kinase II in intact proteins and/or secondary structures are important in substrate recognition by casein kinase II.
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PMID:Casein kinase II-catalysed phosphorylation of calmodulin is altered by amino acid deletions in the central helix of calmodulin. 144 20

Cloning and analysis of a gene that encodes a homologue of protein kinase (PK) from Arabidopsis thaliana is reported. Oligodeoxyribonucleotides (oligos) corresponding to conserved regions in catalytic domains of various PKs were used for polymerase chain reaction (PCR) amplification with genomic DNA from A. thaliana as template, in an attempt to identify genes encoding PK in plants. We obtained several amplified DNA fragments that encoded part of a PK. We screened a genomic DNA library of A. thaliana with these oligos or PCR fragments as probes. Three genomic clones were obtained and one of them, named Atpk7, was sequenced and analyzed. Atpk7 was demonstrated by PCR to contain an intron. The mRNA transcribed from Atpk7 was detected predominantly in root tissue by Northern blot analysis. The transcription start point was determined by primer extension. The deduced amino acid (aa) sequence of the putative product of Atpk7 resembles those of S6 kinases, cyclic nucleotide-dependent PKs and calcium-dependent PKs. From this comparison of aa sequences, the ATPK7 protein is considered to be a member of a novel subfamily of Ser/Thr PKs in plants.
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PMID:Characterization of a gene that encodes a homologue of protein kinase in Arabidopsis thaliana. 144 31

During the course of characterizing polymerase chain reaction products corresponding to protein kinases of a higher plant, Arabidopsis thaliana, we found a DNA fragment that potentially codes for a polypeptide with mosaic sequences of two classes of protein kinases, a tyrosine-specific and a serine/threonine-specific one. Overlapping complementary DNA (cDNA) clones coinciding with this fragment were isolated from an A. thaliana cDNA library. From their sequence analyses a protein kinase was predicted composed of 410 amino acid residues (APK1, Arabidopsis protein kinase 1), in which the kinase domain was flanked by short non-kinase domains. Upon expression of APK1 in Escherichia coli cells, several bacterial proteins became reactive with anti-phosphotyrosine antibody but not with the same antibody preincubated with phosphotyrosine, convincing us that APK1 phosphorylated tyrosine residues. APK1 purified from an over-producing E. coli strain showed serine/threonine kinase activity, and no tyrosine kinase activity, towards APK1 itself, casein, enolase, and myosin light chains. APK1 was thus concluded to be a novel type of protein kinase, which could phosphorylate tyrosine, serine, and threonine residues, though tyrosine phosphorylation seemed to occur only on limited substrates. Since the structure of the APK1 N-terminal portion was indicative of N-myristoylation, APK1 might associate with membranes and thereby contribute to signal transduction. The A. thaliana genome contained two APK1 genes close to each other (APK1a and APK1b).
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PMID:Novel protein kinase of Arabidopsis thaliana (APK1) that phosphorylates tyrosine, serine and threonine. 145 Mar 80

Two series of synthetic peptides that reproduce the amino- and carboxyl-terminal segments of the beta-subunit of casein kinase-2, including the sites phosphorylated by CK2 and cdc2 kinase, respectively, have been used as model substrates for these enzymes. The N-terminal peptide beta(1-9), MSSSEEVSW, is readily phosphorylated by CK2 but not all by cdc2. The opposite is true of the C-terminal peptide beta(206-215), NFKSPVKTIR, whose Ser-4 is a good target for cdc2 while being unaffected by CK2. The individual substitutions of Pro-5 and Lys-7 in the latter peptide with Gly and Ala (or Glu), respectively, prevent its phosphorylation by cdc2, whereas the substitution of Lys-3 with Ala is well tolerated and the substitution of the target Ser with Thr actually improves phosphorylation. Thus the consensus sequence for cdc2 is shown to be X-S-P-X-K. Such a requirement for a basic residue at position +3 is opposite to that of CK2 whose consensus sequence (S-X-X-E/D/Yp/Sp) includes an acidic residue at the same position. Moreover the motif Ser-Pro is detrimental for CK2, preventing the phosphorylation of otherwise suitable peptides. These observations would rule out the possibility that the site specificity of CK2 might overlap with that of cdc2 and possibly of other Pro-directed protein kinases.
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PMID:The consensus sequences for cdc2 kinase and for casein kinase-2 are mutually incompatible. A study with peptides derived from the beta-subunit of casein kinase-2. 145 79

The catalytic subunit of cAMP-dependent protein kinase contains two stable phosphorylation sites, Thr-197 and Ser-338 (Shoji, S., Titani, K., Demaille, J. G., and Fischer, E. H. (1979) J. Biol. Chem. 254, 6211-6214). Thr-197 is very resistant to dephosphorylation and thus cannot typically be autophosphorylated in vitro once the stable subunit is formed. Ser-338 is slowly dephosphorylated and can be rephosphorylated autocatalytically. In addition to these two stable phosphorylation sites, a new site of autophosphorylation, Ser-10, was identified. Phosphorylation at Ser-10 does not have a major effect on activity, and phosphates from Ser-10 or Ser-338 are not transferred to physiological substrates such as the type II regulatory subunit. Autophosphorylation at Ser-10 is associated with one of the two major isoelectric variants of the catalytic subunit. The form having the more acidic pI can be autophosphorylated at Ser-10 while the more basic form of the catalytic subunit cannot. Phosphorylation at Ser-10 does not account for the two isoenzyme forms. Since the reason for two isoelectric variants of the catalytic subunit is still unknown, it is not possible to provide a structural basis for the difference in accessibility of Ser-10 to phosphorylation. Either Ser-10 is not accessible in the more basic form of the catalytic subunit or some other type of post- or cotranslational modification causes Ser-10 to be a poor substrate. Whether the myristoyl group at the amino-terminal Gly is important for Ser-10 autophosphorylation remains to be established. The isoenzyme forms of the catalytic subunit do not correspond to the gene products coded for by the C alpha and C beta genes.
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PMID:Autophosphorylation of the catalytic subunit of cAMP-dependent protein kinase. 146 17

Osteoclasts display a membrane Ca(2+)-sensing mechanism capable of detecting the extracellular calcium concentration ([Ca2+]o), and to induce increase of [Ca2+]i and inhibition of bone resorption. The ultimate result of the stimulation of such sensing is probably the activation of protein kinase C (PKC). To demonstrate whether PKC plays a role in the control of the osteoclast activity, we treated rabbit single osteoclasts with agents known to activate or to inhibit the enzyme. We measured [Ca2+]i in single fura 2-loaded single cells and found that activation of PKC by phorbol esters doubled the [Ca2+]o-induced [Ca2+]i elevation, whereas inhibition of the enzyme by H7, staurosporine or sphingosine, completely blocked the ability of the cell to respond to elevated [Ca2+]i. By contrast, a control inactive agent, 4Aphorbol, failed to modify the cellular response to elevated [Ca2+]o. We conclude that PKC plays a synergistic role in the regulation of osteoclast Ca(2+)-sensing. Since we have previously demonstrated that activation of PKA up-regulates the Ca(2+)-sensing as well, we hypothesize that such mechanism is positively fed-back by both PKA and PKC-dependent threonine/serine phosphorylations.
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PMID:Protein kinase C-dependent phosphorylation regulates osteoclast calcium-sensing. 146 97

The SNF1 protein kinase is required for expression of glucose-repressed genes in response to glucose deprivation. The SNF4 protein is physically associated with SNF1 and positively affects the kinase activity. We report here the characterization of a dominant mutation, SNF1-G53R, that was isolated as a suppressor of the requirement for SNF4. The mutant SNF1-G53R protein is still responsive to SNF4 but has greatly elevated kinase activity in immune complex assays; in contrast, the activity is wild type in a protein blot assay. Deletion of the region N-terminal to the kinase domain (codons 5-52) reduces kinase activity in vitro, but the mutant SNF1-delta N kinase is still dependent on SNF4. The N terminus is not required for the regulatory response to glucose. In gel filtration chromatography, the SNF1, SNF1-G53R and SNF1-delta N protein showed different elution profiles, consistent with differential formation of high molecular weight complexes. Taken together, the results suggest that the N terminus positively affects the function of the SNF1 kinase and may be involved in interaction with a positive effector other than SNF4. We also showed that the conserved threonine residue 210 in subdomain VIII, which is a phosphorylation site in other kinases, is essential for SNF1 activity. Finally, we present evidence that when the C terminus is deleted, overexpression of the SNF1 kinase domain is deleterious to the cell.
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PMID:N-terminal mutations modulate yeast SNF1 protein kinase function. 146 23


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