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:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using NMR spectroscopy to visualise tyrosine phosphorylation kinetics in real time, we have investigated the sequence-dependent determinants of the selectivity of the human insulin receptor protein-tyrosine kinase for different tyrosine residues. The peptides used encompass the multiple-tyrosine-containing autophosphorylation site sequences from the insulin receptor kinase core domain (Tyr1158, Tyr1162 and Tyr1163) and from its specific C-terminal tail domain (Tyr1328 and Tyr1334). Comparison of the phosphorylation kinetics with those found for the tyrosine residues on a peptide comprising the regulatory tyrosine phosphorylation site of cdc2 points to the role of the primary sequence context of the phosphate acceptor. The particularly deleterious influence of a basic residue immediately C-terminal to the tyrosine is discussed in relation to the autophosphorylation properties of the regulatory loop regions of the insulin and epidermal growth factor receptor kinases. The data further suggest that receptor tyrosine kinase active sites and their substrate targets act in concert to ensure that specific downstream effects are activated.
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PMID:Structural determinants of substrate selection by the human insulin-receptor protein-tyrosine kinase. 752 41

Granzymes are a family of granule-associated serine esterases that mediate apoptosis by cytotoxic T lymphocytes and natural killer cells. We have previously shown that cdc2, the mitosis-regulating cyclin-dependent kinase, is required for granzyme B-induced apoptosis in target cells. In addition, granzyme B induces premature activation and tyrosine dephosphorylation of cdc2 during apoptosis. Throughout most of the cell cycle and until the cell is prepared to enter mitosis, cdc2 kinase activity is negatively regulated by phosphorylation of a residue within its adenosine triphosphate-binding domain by Wee1, a nuclear kinase that maintains mitotic timing in eukaryotic cells. We have transiently expressed c-myc epitope-tagged Wee1 cDNA in BHK cells. Cells that expressed Wee1 in the nucleus became resistant to apoptosis induced by granzyme B and perforin. Wee1-transfected cells also exhibited markedly increased cdc2 tyrosine phosphorylation. Thus, Wee1 can rescue cells from granzyme-induced apoptosis by preventing cdc2 dephosphorylation.
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PMID:Rescue from granzyme B-induced apoptosis by Wee1 kinase. 753 47

The cyclin-dependent kinases, most notable of which is cdc2, are key regulators of the cell cycle, and are highly conserved in evolution. We have cloned and analysed three cdc2-related kinase-encoding genes (tbcrk1-3) from the protozoan parasite Trypanosoma brucei. tbcrk1 encodes a 34-kDa protein with 54% amino acid (aa) identity to the human cdc2, tbcrk2 a 39-kDa protein with 49% identity and tbcrk3 a 35-kDa protein with 54% identity. tbcrk1-3 have substitutions in the 16-aa sequence, the 'PSTAIRE' domain, that characterises the cdc2-related kinase family, to give PCTAIRE, PSTAVRE and PQTALRE motifs, respectively. The three kinases have conserved Tyr and Thr residues that are sites of phosphorylation in cdc2 and are important for regulating kinase activity. Southern blot analysis revealed that each tbcrk is a single copy gene. Pulse-field electrophoresis located the tbcrk genes to some of the largest of the trypanosome chromosomes at greater than 3 Mb. Western blots with anti-PSTAIRE polyclonal antibody detected proteins of 32, 43 and 65 kDa in all life-cycle stages and a 90-kDa protein in bloodstreams forms, implying the presence of a family of cdc2-related kinases. Trypanosomes have a remarkably large gene family of cdc2-related kinases for such a primitive organism. The crk genes may be involved in controlling aspects of the cell cycle which are linked to the differentiation of the parasite during its complex life cycle.
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PMID:A family of trypanosome cdc2-related protein kinases. 755 4

Using a random combinatorial peptide library method [Wu, J., Ma, Q. N. & Lam, K. S. (1994) Biochemistry 33, 14825-14833] a novel peptide, YIYGSFK, was identified as a substrate for p60c-src protein tyrosine kinase. Mass spectrometric analysis showed that tyrosine-3 from the N-terminus was the phosphorylation site. Kinetic studies showed that the Km of YIYGSFK for p60c-src was 55 microM, about 6.4-fold lower than a peptide derived from p34cdc2 [cdc2(6-20), KVEKIGEGTYGVVYK], which had been reported to be a specific and efficient substrate for the Src-family protein tyrosine kinases. Comparison of the specificity of YIYGSFK and cdc2(6-20) as a substrate for various Src-family and non-Src-family protein tyrosine kinases suggests that YIYGSFK is a much more specific and efficient substrate for the Src-family protein tyrosine kinases.
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PMID:Identification and characterization of a novel synthetic peptide substrate specific for Src-family protein tyrosine kinases. 755 90

Control over the nuclear transport of transcription factors (TFs) represents a level of gene regulation integral to cellular processes such as differentiation, transformation and signal transduction. The Saccharomyces cerevisiae TF SWI5 is excluded from the nucleus in a cell cycle-dependent fashion, mediated by phosphorylation by the cyclin-dependent kinase (cdk) CDC28. Nuclear entry occurs in G1. beta-galactosidase fusion proteins carrying SWI5 amino acids 633-682, including the nuclear localization sequence (NLS: Lys-Lys-Tyr-Glu-Asn-Val-Val-Ile-Lys-Arg-Ser-Pro-Arg-Lys-Arg-Gly-Arg-Pro- Arg-Lys655) were analyzed for subcellular localization in appropriate temperature-sensitive yeast strains blocked in G1 or G2/M using indirect immunofluorescence, and for nuclear import kinetics in living rat hepatoma or Vero African green monkey kidney cells microinjected with fluorescently labeled bacterially expressed protein and quantitative confocal laser microscopy. Cell cycle-dependent nuclear localization in yeast was both NLS and cdk site-dependent, whereby mutation of the cdk site serines (Ser646 and Ser664) to alanine resulted in constitutive nuclear localization. In mammalian cells, the SWI5 fusion proteins were similarly transported to the nucleus in an NLS-dependent fashion, while the mutation to Ala of the cdk site serines increased the maximal level of nuclear accumulation from about 1- to over 8-fold. We suggest that phosphorylation at the cdk sites inhibits nuclear transport of SWI5, consistent with our previous observations for the inhibition of SV40 large tumor antigen nuclear transport by phosphorylation by the cdk cdc2. The results indicate for the first time that a yeast NLS and, fascinatingly, its regulatory mechanisms are functional in higher eukaryotes, implying the universal nature of regulatory signals for protein transport to the nucleus.
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PMID:Cyclin-dependent kinase site-regulated signal-dependent nuclear localization of the SW15 yeast transcription factor in mammalian cells. 761 96

The Cdc2 protein kinase is a key regulator of the G1-S and G2-M cell cycle transitions in the fission yeast Schizosaccharomyces pombe. The activation of Cdc2 at the G2-M transition is triggered by dephosphorylation at a conserved tyrosine residue Y15. The level of Y15 phosphorylation is controlled by the Wee1 and Mik1 protein kinases acting in opposition to the Cdc25 protein phosphatase. Here, we demonstrate that Wee1 overexpression leads to a high stoichiometry of phosphorylation at a previously undetected site in S. pombe Cdc2, T14. T14 phosphorylation was also detected in certain cell cycle mutants blocked in progression through S phase, indicating that T14 phosphorylation might normally occur at low stoichiometry during DNA replication or early G2. Strains in which the chromosomal copy of cdc2 was replaced with either a T14A or a T14S mutant allele were generated and the phenotypes of these strains are consistent with T14 phosphorylation playing an inhibitory role in the activation of Cdc2 as it does in higher eukaryotes. We have also obtained evidence that Wee1 but not Mik1 or Chk1 is required for phosphorylation at this site, that the Mik1 and Chk1 protein kinases are unable to drive T14 phosphorylation in vivo, that residue 14 phosphorylation requires previous phosphorylation at Y15, and that the T14A mutant, unlike Y15F, is recessive to wild-type Cdc2 activity. Finally, the normal duration of G2 delay after irradiation or hydroxyurea treatment in a T14A mutant strain indicates that T14 phosphorylation is not required for the DNA damage or replication checkpoint controls.
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PMID:The Wee1 protein kinase regulates T14 phosphorylation of fission yeast Cdc2. 762 4

Using anti-phosphotyrosine immunoaffinity chromatography, we have searched for serine/threonine kinases that are directly regulated by tyrosine phosphorylation in v-src-transformed rat 3Y1 fibroblasts. Tyrosine phosphoprotein preparations from v-src-transformed cells contain a kinase activity that phosphorylates histone H1 in vitro on serine residues and this activity is present at a 20-fold greater level than that in parental cell preparations. This activity elutes from a MonoQ FPLC column as a single peak and gel filtration chromatography suggests that the kinase has a molecular mass of approximately 55 kDa. Tyrosine phosphatase treatment inactivates the histone H1 kinase and this result indicates that the specific activity of the kinase is regulated by tyrosine phosphorylation. Experiments with cells transformed with a temperature-sensitive mutant of the v-src oncogene demonstrate that the tyrosine phosphorylation of the histone H1 kinase is an early event in v-src transformation. The kinase is distinct from known cdc2 family members that contain the PSTAIR motif, because the kinase can be separated almost completely from these proteins by immunoprecipitation with an antibody against p34cdc2. The profile of antibody reactivity and sensitivity to modulators of protein kinases suggests that this activity is distinct from known second messenger-regulated kinases and from previously characterized MAP kinases.
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PMID:Activation of a histone H1 kinase by tyrosine phosphorylation in v-src-transformed fibroblasts. 767 71

pp60c-src, a cellular tyrosine kinase homologous to the retroviral v-src oncogene, becomes transiently activated during mitosis. Activation is accompanied by phosphorylation of three sites in the amino-terminal regulatory domain of the protein, threonine 34, threonine 46 and serine 72. These sites can be phosphorylated in vitro by a cell cycle-regulated kinase, p34cdc2, yet this does not result in increased kinase activity of pp60c-src. pp60c-src is negatively regulated by phosphorylation at tyrosine 527, and it has been shown that this site is transiently dephosphorylated in mitotic cells. The importance of tyrosine 527 in the regulation of pp60c-src is also emphasized by the fact that oncogenic mutants of pp60src lacking tyrosine 527 are constitutively active during the entire cell cycle. Here we report that a non-myristylated mutant of pp60c-src is not activated and only partially phosphorylated at the amino terminus in mitotic cells. Additional mutants lacking one (TTAc-src), two (AASc-src) and three (AAAc-src) cdc2 phosphorylation sites had slightly higher kinase activity than wild-type pp60c-src in interphase cells and were not activated during mitosis. However, all four mutant proteins were still transiently dephosphorylated at tyrosine 527 during mitosis, suggesting that myristylation and amino-terminal phosphorylation may be necessary but are clearly not sufficient for mitosis-specific activation.
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PMID:Myristylation and amino-terminal phosphorylation are required for activation of pp60c-src during mitosis. 767 90

To elucidate the signal transduction mechanisms used by ligands that induce differentiation and the cessation of cell division, we utilized p13suc1-agarose, a reagent that binds p34cdc2/cdk2. By using this reagent, we identified a 78- to 90-kDa species in PC12 pheochromocytoma cells that is rapidly phosphorylated on tyrosine following treatment with the differentiation factors nerve growth factor (NGF) and fibroblast growth factor but not by the mitogens epidermal growth factor or insulin. This species, called SNT (suc-associated neurotrophic factor-induced tyrosine-phosphorylated target), was also phosphorylated on tyrosine in primary rat cortical neurons treated with the neurotrophic factors neurotrophin-3, brain-derived neurotrophic factor, and fibroblast growth factor but not in those treated with epidermal growth factor. In neuronal and fibroblast cells, where NGF can also act as a mitogen, SNT was tyrosine phosphorylated to a much greater extent during NGF-induced differentiation than during NGF-induced proliferation. SNT was phosphorylated in vitro on serine, threonine, and tyrosine in p13suc1-agarose precipitates from NGF-treated PC12 cells, indicating that this protein may be a substrate of kinase activities associated with p13suc1-p34cdc2/cdk2 complexes. In addition, SNT was associated predominantly with nuclear fractions following subcellular fractionation of NGF-treated PC12 cells. Finally, in PC12 cells, NGF-stimulated tyrosine phosphorylation of SNT was dependent on the levels of Trk tyrosine kinase activity and was constitutively induced by expression of pp60v-src. However, Ras was not required for constitutive SNT tyrosine phosphorylation, suggesting that this protein functions distally to Trk and pp60v-src but in a pathway parallel to that of Ras. SNT is the first identified specific target of differentiation factor-induced tyrosine kinase activity in neuronal cells.
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PMID:SNT, a differentiation-specific target of neurotrophic factor-induced tyrosine kinase activity in neurons and PC12 cells. 768 Nov 42

The wee1 protein kinase suppresses the entry into mitosis by mediating the inhibitory tyrosine phosphorylation of p34cdc2. Genetic studies have suggested that the nim1 protein kinase (also known as cdr1) acts as a positive regulator of mitosis by down-regulating the wee1 pathway in yeast cells. We have overexpressed the nim1 protein in both bacteria and insect cells. The recombinant nim1 protein autophosphorylates on both tyrosine and serine residues and can phosphorylate the isolated wee1 protein directly in a cell-free system. The nim1-catalyzed phosphorylation of the wee1 protein occurs in its C-terminal region and leads to a substantial drop in its activity as a cdc2-specific tyrosine kinase. This nim1-dependent inhibition of the wee1 protein kinase can be reversed readily in vitro by treatment with a protein phosphatase. These experiments provide direct biochemical evidence that the wee1 protein is subject to negative regulation by phosphorylation and indicate that the nim1 protein acts as an inhibitory, wee1-specific kinase.
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PMID:Negative regulation of the wee1 protein kinase by direct action of the nim1/cdr1 mitotic inducer. 768 63


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