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)

The cell division cycle in eukaryotes contains up to three major transition points; the conversion of quiescent cells to a stage of active proliferation, the initiation of DNA synthesis (S phase) and the induction of mitosis in cells with newly replicated genome (M phase). Within the past years two strategies, have converged to identify, genetically and biochemically a key protein kinase p34 cdc2 that governs the entry into mitosis. In the fission yeast Schizosaccharomyces pombe a number of mutants in the mitotic regulatory circuit have been isolated. A central gene in the network is cdc2 which is essential for the proper execution of mitosis. The cdc2 gene interacts with a number of other genes for correct mitotic control. The Amphibian oocyte, the oocyte from Xenopus laevis particularly, is arrested at the G2 phase of the first meiotic division; when it enters M phase, it contains a dominant regulatory factor known as MPF (M-phase or maturation promoting factor). Purified MPF is an heterodimer formed of two polypeptides p34cdc2 an homologue of the product of the gene cdc2 and p45cdc13 or cyclin an homologue of the product of the gene cdc13. Biochemical studies have revealed that p34cdc2 is a phosphotyrosine protein during the G2 phase of the cell cycle, both mitotic and meiotic. The tyrosine phosphorylation of p34cdc2 is regulated by the gradual accumulation of cyclin. At the onset of M phase, the complex p34cdc2/cyclin is activated as an histone H1 kinase, and p34cdc2 is tyrosine dephosphorylated. The mechanism of activation of p34cdc2 is negatively regulated by a form of protein phosphatase 2A. Ovulated vertebrate oocytes are arrested at metaphase of the second meiotic division (M II) under the control of the proto-oncogene c-mos a protein kinase. The exit of M II phase and the initiation of early embryonic mitotic cell cycles are physiologically induced by the spermatozoa at the time of fertilization. They requires the degradation of c-mos by a Ca2+ dependent proteolytic enzyme and the destruction of cyclin by an ubiquitin dependent pathway. The Xenopus oocyte has led to the molecular elucidation of MPF and identified links between cell cycle control, protein phosphorylation and proto-oncogenes. Despite the impresive progess of recent years, there is still much to be learned about the control of meiosis in Xenopus oocytes.
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PMID:[From ovocyte to biochemistry of the cell cycle]. 165 57

Attention has recently been paid to the role of microtubules in the transduction of growth signals, which has recently been establishing as a molecular function of microtubule cytoskeletons. The analysis of pathways in the signal transductions which are initiated by the activation of tyrosine-specific phosphorylation of growth factor receptors now seems to come to deal with events deeper inside the cell. It was recently found that MAP kinase which preferentially phosphorylates microtubule-associated protein 2 is largely activated at the G0/G1 transition by any of various growth stimuli. The kinase is also activated at the G2/M transition in the downstream of MPF (cdc2 kinase). Furthermore, it was suggested that a GTP-binding protein (51-kD protein) in the centrosome plays a role in the microtubule signalling at the onset of mitosis. This minireview discusses possible signalling pathway from the activation of tyrosine-specific protein kinase of the growth factor receptor to the initiation of mitosis.
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PMID:[Role of microtubule cytoskeletons in the transduction of growth signals]. 165 96

The mammalian homologue of the yeast cdc2 gene encodes a 34-kilodalton serine/threonine kinase that is a subunit of M phase-promoting factor. Recent studies have shown that p34cdc2 is also a major tyrosine-phosphorylated protein in HeLa cells and that its phosphotyrosine content is cell cycle regulated and related to its kinase activity. Here, we show that cdc2 is physically associated with and phosphorylated in vitro by a highly specific tyrosine kinase. Tyrosine phosphorylation of cdc2 in vitro occurs at tyrosine 15, the same site that is phosphorylated in vivo. The association between the two kinases takes place in the cytosolic compartment and involves cyclin B-associated cdc2. Evidence is presented that a substantial fraction of cytosolic cdc2 is hypophosphorylated, whereas nuclear cdc2 is hyperphosphorylated. Finally, we show that the tyrosine kinase associated with cdc2 may be a 67-kilodalton protein and is distinct from src, abl, fms, and other previously reported tyrosine kinases.
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PMID:p34cdc2 is physically associated with and phosphorylated by a cdc2-specific tyrosine kinase. 166 35

Cyclins, as subunits of the protein kinase encoded by the cdc2 gene are major controlling elements of the eukaryotic cell cycle. The fission yeast Schizosaccharomyces pombe has a B-type cyclin, which is a nuclear protein encoded by the cdc13 gene. Here we demonstrate the presence of two spatially distinct cdc13 cyclin populations in the nucleus of S. pombe, one of which is associated with the mitotic spindle poles. Both populations colocalize with the product of the cdc2 gene (p34cdc2). Treatment of cells with the antimicrotubule drug thiabendazole prevents cyclin degradation and blocks the tyrosine dephosphorylation and activation of cdc2. These results suggest a key regulatory role of the cdc2-cyclin complex in the initiation of mitotic spindle formation and also that mitotic microtubule function is required for cdc2 activation.
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PMID:Distinct nuclear and spindle pole body population of cyclin-cdc2 in fission yeast. 169 36

We have isolated cDNA molecules encoding a protein with the characteristic sequence elements that are conserved between the catalytic domains of protein kinases. This protein is apparently a serine/threonine kinase and is most closely related to the amino-terminal half of the ribosomal protein S6 kinase II first characterized in Xenopus eggs (42% overall identity and 56% identity in the predicted catalytic domain). However, it clearly differs from S6 kinase II in that it has only one, rather than two predicted catalytic domains and a deduced molecular mass of 59,109 Da. We propose that is may be more related to, or identical, with, the mitogen-inducible S6 kinase of molecular mass 65-70 kDa described in mammalian liver, mouse 3T3 cells and chicken embryos. Remarkable structural features of the cDNA-encoded polypeptide are a section rich in proline, serine and threonine residues that resemble the multiphosphorylation domains of glycogen synthase and phosphorylase kinase alpha subunit, and a characteristic tyrosine residue in the putative nucleotide-binding glycine cluster which, by analogy to cdc2 kinase, is a potential tyrosine phosphorylation site.
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PMID:cDNA encoding a 59 kDa homolog of ribosomal protein S6 kinase from rabbit liver. 169 10

A protein tyrosine kinase has been purified from the particulate fraction of bovine spleen to a specific activity of 0.217 mumol/min/mg at 100 microM ATP and 3 mM [Val5] angiotensin II. Both the angiotensin phosphorylation activity and immunoreactivity towards an antibody preparation raised against a synthetic peptide containing the autophosphorylation site of pp60c-src, Cys-src(403-421), were monitored during the purification. The purified sample displayed three closely spaced protein bands with molecular weights of 50-55 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. All bands could be phosphorylated exclusively on tyrosine residues under autophosphorylation conditions. All reacted on immunoblots with an antibody raised against a synthetic peptide corresponding to the consensus autophosphorylation site of members of the pp60c-src family of tyrosine kinases. Tryptic phosphopeptide maps of the three proteins were essentially indistinguishable. The results suggest that the purified enzyme preparation contained mainly three closely related pp60c-src-family protein tyrosine kinases or a pp60src-family protein tyrosine kinase modified posttranslationally to give three closely spaced protein bands on sodium dodecyl sulfate gel. Neither of these proteins appears to be pp60c-src or p56lck. The spleen protein tyrosine kinase was found to phosphorylate a p34cdc2 kinase peptide, Cys-cdc2(8-20), which contained the regulatory tyrosine residue Tyr-15 about 20 times better than [Val5]angiotensin II or Cys-src(403-421) peptide at a peptide substrate concentration of 1 mM. In contrast, epidermal growth factor receptor kinase partially purified from A431 cells did not show preference for Cys-cdc2(8-20) as its substrate. Although Cys-cdc2(8-20) contained two tyrosine residues, only the tyrosine corresponding to Tyr-15 in p34cdc2 was phosphorylated by the spleen tyrosine kinase. The observation suggests that the primary structure surrounding Tyr-15 of p34cdc2 contains substrate structural determinants specific for the spleen tyrosine kinase.
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PMID:Purification and characterization of a pp60c-src-related tyrosine kinase that effectively phosphorylates a synthetic peptide derived from p34cdc2. 170 31

wee1 acts antagonistically to cdc25 in the tyrosine dephosphorylation and activation of cdc2, yet biochemical evidence suggests that wee1 is not required for tyrosine phosphorylation and its role is obscure. We show here that a related 66 kd kinase, called mik1, acts redundantly with wee1 in the negative regulation of cdc2 in S. pombe. A null allele of mik1 has no discernible phenotype, but a mik1 wee1 double mutant is hypermitotically lethal: all normal M phase checkpoints are bypassed, including the requirement for initiation of cell cycle "start," completion of S phase, and function of the cdc25+ mitotic activator. In the absence of mik1 and wee1 activity, cdc2 rapidly loses phosphate on tyrosine, both in strains undergoing mitotic lethality and in those that are viable owing to a compensating mutation within cdc2. The data suggest that mik1 and wee1 act cooperatively on cdc2, either directly as the inhibitory tyrosine kinase or as essential activators of that kinase.
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PMID:mik1 and wee1 cooperate in the inhibitory tyrosine phosphorylation of cdc2. 170 23

We have isolated cDNAs encoding kinases from a murine pre-B cell line by screening a lambda gt11 cDNA expression library with anti-phosphotyrosine antibodies. One cDNA was identified to encode the previously isolated tyrosine kinase c-lyn. Among the remaining clones, we have characterized a cDNA encoding a novel kinase which we have designated TIK. Sequence analysis of this cDNA indicates that the TIK enzyme lacks the features thought to be conserved among protein tyrosine kinases. Although isolated on the basis of its reactivity with the anti-phosphotyrosine antibody, the TIK enzyme was found to have only serine and threonine kinase activity. The amino-terminal portion of the TIK protein contains a cdc2 phosphorylation consensus sequence. Three mRNA transcripts derived from the TIK gene are detected in a variety of adult murine tissues.
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PMID:TIK, a novel serine/threonine kinase, is recognized by antibodies directed against phosphotyrosine. 171 5

Cys-cdc2(8-20), a synthetic peptide derived from p34cdc2, was previously reported to be a specific and efficient substrate of a pp60c-src-related tyrosine kinase isolated from bovine spleen (the spleen tyrosine kinase) (Litwin, C.M.E., Cheng, H.-C., and Wang, J.H. (1991) J. Biol. Chem. 266, 2557-2566). The longer peptide, cdc2(1-24), was found to be phosphorylated by the kinase with similar efficiency, and Tyr15 was the only amino acid residue phosphorylated. This indicated that the amino acid sequence of cdc2(8-20) peptide, EKI-GEGTYGVVYK, contained the structural features important for protein tyrosine kinase substrate activity. A stepwise procedure using synthetic peptides was employed to investigate such structural features. First, a computer search of protein sequences homologous to cdc2(8-20) uncovered five protein kinases containing homologous sequence with tyrosine at a position corresponding to Tyr15 of p34cdc2. Second, a peptide derived from ribosomal S6 protein kinase (rsk(436-456] was synthesized. The rsk(436-456) peptide contained a segment, ETIGVGSYSVCKR, which is highly homologous to that of cdc2(8-20). It was found to be a very poor substrate of the spleen tyrosine kinase. Third, peptide analogs of cdc2(6-20) with single substitutions of amino acid residues Lys9, Glu12, Thr14, Gly16, Val18, and Tyr19 by amino acid residues at corresponding positions of rsk were synthesized and tested as spleen tyrosine kinase substrates. Only Glu12 and Thr14 substituted peptide analogs showed decreased substrate activities. (The substrate activity of a peptide is the ability of the peptide to serve as the substrate of the spleen tyrosine kinase. It was determined of the spleen tyrosine kinase. It was determined either by the kinetic parameters (Km and Vmax) of phosphorylation of the peptide or by the initial phosphorylation rate of the peptide by the spleen tyrosine kinase.) An analog with double substitution at Glu12 An analog with double substitution at Glu12 and Thr14 was found to be almost as poor a substrate as the rsk peptide. In addition, peptide analogs with Tyr15 substituted by Phe or D-Tyr had poor substrate activities as well as weak inhibitory activities. Thus, Glu12, Thr14, and Tyr15 residues of p34cdc2 contained structural components essential for the efficient phosphorylation of the peptides derived from p34cdc2 by the pp60c-src-related spleen tyrosine kinase.
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PMID:Structural basis of specific and efficient phosphorylation of peptides derived from p34cdc2 by a pp60src-related protein tyrosine kinase. 171 44

In somatic cells, entry into mitosis depends on the completion of DNA synthesis. This dependency is established by S-phase feedback controls that arrest cell division when damaged or unreplicated DNA is present. In the fission yeast Schizosaccharomyces pombe, mutations that interfere with the phosphorylation of tyrosine 15 (Y15) of p34cdc2, the protein kinase subunit of maturation promoting factor, accelerate the entry into mitosis and abolish the ability of unreplicated DNA to arrest cells in G2. Because the tyrosine phosphorylation of p34cdc2 is conserved in S. pombe, Xenopus, chicken and human cells, the regulation of p34cdc2-Y15 phosphorylation could be a universal mechanism mediating the S-phase feedback control and regulating the initiation of mitosis. We have investigated these phenomena in the budding yeast Saccharomyces cerevisiae. We report here that the CDC28 gene product (the S. cerevisiae homologue of cdc2) is phosphorylated on the equivalent tyrosine (Y19) during S phase but that mutations that prevent tyrosine phosphorylation do not lead to premature mitosis and do not abolish feedback controls. We have therefore demonstrated a mechanism that does not involve tyrosine phosphorylation of p34 by which cells arrest their division in response to the presence of unreplicated or damaged DNA. We speculate that this mechanism may not involve the inactivation of p34 catalytic activity.
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PMID:S-phase feedback control in budding yeast independent of tyrosine phosphorylation of p34cdc28. 173 Dec 50


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