EC:2.7.11.22 - FACTA Search

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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 cdc2 kinase is a key regulator of the eukaryotic cell cycle. The activity of its catalytic subunit, p34cdc2, is controlled by cell cycle dependent interactions with other proteins as well as by phosphorylation--dephosphorylation reactions. In this paper, we examine the phosphorylation state of chicken p34cdc2 at various stages of the cell cycle. By peptide mapping, we detect four major phosphopeptides in chicken p34cdc2; three phosphorylation sites are identified as threonine (Thr) 14, tyrosine (Tyr) 15 and serine (Ser) 277. Analysis of synchronized cells demonstrates that phosphorylation of all four sites is cell cycle regulated. Thr 14 and Tyr 15 are phosphorylated maximally during G2 phase but dephosphorylated abruptly at the G2/M transition, concomitant with activation of p34cdc2 kinase. This result suggests that phosphorylation of Thr 14 and/or Tyr 15 inhibits p34cdc2 kinase activity, in line with the location of these residues within the putative ATP binding site of the kinase. During M phase, p34cdc2 is also phosphorylated, but phosphorylation occurs on a threonine residue distinct from Thr 14. Finally, phosphorylation of Ser 277 peaks during G1 phase and drops markedly as cells progress through S phase, raising the possibility that this modification may contribute to control the proposed G1/S function of the vertebrate p34cdc2 kinase.
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PMID:Differential phosphorylation of vertebrate p34cdc2 kinase at the G1/S and G2/M transitions of the cell cycle: identification of major phosphorylation sites. 184 3

A mouse temperature-sensitive mutant for cell growth, tsFT210, was characterized. More than 90% of the mutant cells were arrested at the G2 phase at the nonpermissive temperature (39 degrees C). In this mutant, the activity of cdc2 kinase did not increase at the nonpermissive temperature (39 degrees C) but did increase at the permissive temperature (33 degrees C) at the G2/M phase in the cell cycle. The in vitro activity of cdc2 kinase of tsFT210 was more thermolabile than that of wild-type cells. The amount of cdc2 kinase in tsFT210 cells decreased when the cells were incubated at 39 degrees C, but that in wild-type cells did not. Using the polymerase chain reaction (PCR), a point mutation in cDNA of cdc2 kinase was found in tsFT210, and as a result, the proline of wild-type cdc2 kinase at the 272 amino acid residues from N-terminal methionine changed to serine. During preparation of this paper, the detection of two mutation sites of this mutant was reported (Th'ng, J.P.H., Wright, P.S., Hamaguchi, J., Lee, M.G., Norbury, C.J., Nurse, P., and Bradbury, E.M. (1990). Cell, 63: 313-324); one was the same site as reported here, the other was A-to-G change in the 154th base from base A in initial ATG, and this caused the change of isoleucine to valine in the PSTAIR region of cdc2 kinase. This mutation in the PSTAIR region was not detected by us. The probable reason for this discrepancy was in that Th'ng and his group sequenced a cDNA cloned from the amplified cDNAs by PCR, and did not directly sequence the amplified cDNA as we did.
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PMID:A point mutation in C-terminal region of cdc2 kinase causes a G2-phase arrest in a mouse temperature-sensitive FM3A cell mutant. 190 31

In eukaryotic cells, the serine-threonine-specific kinase cdc2 induces entry into mitosis by phosphorylation of several proteins including cyclin (pp62) with which it forms a tight complex. We show here that cdc2 and several phosphoproteins in the range of 56 to 62 kilodaltons (kDa), associated with cdc2, serve as in vitro substrates for the v-fms-specific tyrosine kinase. This is the first demonstration of in vitro phosphorylation of a physiologically relevant substrate through the v-fms specific kinase. In addition, cdc2 phosphorylated the v-fms polypeptides in serine and threonine residues. The biological significance of the mutual phosphorylations is discussed.
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PMID:cdc2/pp56-62 are in vitro substrates for the tyrosine kinase encoded by the v-fms oncogene. 211 46

The human anti-oncoprotein p53 is shown to be a substrate of cdc2. The primary site of phosphorylation is serine-315. Serine-315 is phosphorylated by both p60-cdc2 and cyclin B-cdc2 enzymes. The phosphorylation of p53 is cell cycle-dependent. The abundance of p53 also oscillates during the cell cycle. The protein is largely absent from cells that have just completed division but accumulates in cells during G1 phase. Phosphorylation by cdc2 might regulate the antiproliferative activity of p53.
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PMID:Human p53 is phosphorylated by p60-cdc2 and cyclin B-cdc2. 214 Nov 71

The yeast Cdc7 protein is indispensable to initiation of nuclear DNA replication, based on the phenotype of the conditional, temperature-sensitive (ts) cdc7 mutants at the restrictive temperature. This protein has likewise been implicated in commitment to meiotic DNA recombination and induced mutagenesis, which may result from error-prone DNA repair. Our previous work revealed sequence similarity between the Cdc7 protein and known protein kinases. To determine whether it possesses kinase activity, we have immunoprecipitated the protein from Cdc7-overproducing yeast cells by using polyclonal antibodies raised against a nondenatured beta-galactosidase-Cdc7 fusion protein. In this report, we demonstrate that Cdc7 immune complexes are capable of phosphorylating mammalian histone H1 on serine and/or threonine residues. Immune complexes derived from cells harboring the cdc7-2 ts mutant gene on a high copy number plasmid possess a thermolabile kinase activity. Thus, we postulate that Cdc7 may regulate the various DNA metabolic pathways by phosphorylating one or more target substrates. Because Cdc7 kinase acts downstream of Cdc28/cdc2 kinase function at "start," the transition from G1 to S phase in the cell cycle may be the result of a cascade of protein phosphorylation.
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PMID:DNA metabolism gene CDC7 from yeast encodes a serine (threonine) protein kinase. 216 54

The phosphorylation pattern of simian virus 40 (SV40) large tumor (T) antigen purified from insect cells infected with a recombinant baculovirus was compared with that reported previously for T antigen from SV40-infected monkey cells. The specific activity of metabolic phosphate labeling of baculovirus T antigen was reduced, and the phosphopeptide map of the baculovirus protein, while qualitatively similar to that of lytic T, revealed several quantitative differences. The most striking difference was the prominence in the baculovirus map of peptides containing phosphothreonine 124. These peptides are known to arise from other phosphopeptides upon dephosphorylation of neighboring serines, suggesting that baculovirus T may be underphosphorylated at these serines and perhaps other sites. Functional assays used to further investigate the phosphorylation state of the baculovirus protein included SV40 DNA binding after enzymatic dephosphorylation with alkaline phosphatase and after phosphorylation by a murine homolog of cdc2 protein kinase. The results imply that baculovirus T antigen is underphosphorylated, in particular at those serine residues whose phosphorylation is responsible for down regulation of DNA-binding activity at site II in the core origin of DNA replication. In contrast, no evidence for a functionally significant underphosphorylation at threonine 124 could be found.
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PMID:Altered phosphorylation pattern of simian virus 40 T antigen expressed in insect cells by using a baculovirus vector. 216 68

Genetic studies using fission yeast (Schizosaccharomyces pombe) have identified a gene, cdc2, whose product (p34cdc2) is a protein kinase required for traversal of both the G1 and G2 cell cycle control points. Genetic complementation has been used to demonstrate that p34cdc2 homologues are functionally and structurally conserved in distantly related eukaryotes, and p34cdc2-related proteins are components of both maturation-promoting factor (MPF) and the M phase (growth-associated) histone H1 kinase. The p34cdc2 homologues of multicellular eukaryotes undergo potentially regulatory phosphorylation changes through the cell cycle. Phosphorylation on serine during late G1 is accompanied by a significant increase in p34cdc2 kinase activity which, by analogy with fission yeast, may betray a function related to control over entry into S phase. Phosphorylation on threonine and tyrosine in G2 precedes dephosphorylation of these residues during kinase hyperactivation and entry into mitosis. In addition, long-term control of expression of mammalian p34cdc2 homologues is likely to be exerted at the transcriptional level. These observations provide the framework of a universal model for the control of eukaryotic cell proliferation, in which the p34cdc2 protein kinase integrates multiple cues to signal the initiation of S phase and, subsequently, mitosis.
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PMID:Controls of cell proliferation in yeast and animals. 219 66

The M-phase-specific cdc2 (cell division control) protein kinase (a component of the M-phase-promoting factor) was found to activate casein kinase II in vitro. The increase in casein kinase II activity ranged over 1.5-5-fold. Increase in activity was prevented if ATP was replaced during the activation reaction by a non-hydrolysable analogue. Alkaline phosphatase treatment of the activated enzyme decreased the activity to the basal level. The beta subunit of casein kinase II was phosphorylated by cdc2 protein kinase at site(s) different from the autophosphorylation sites of the enzyme. Phosphoamino acid analysis showed that the beta subunit was phosphorylated by cdc2 protein kinase at threonine residues while autophosphorylation involved serine residues. Casein kinase II may be part of the cascade which leads to increased phosphorylation of many proteins at M-phase and therefore be involved in the pleiotropic effects of M-phase-promoting factor.
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PMID:M-phase-specific cdc2 protein kinase phosphorylates the beta subunit of casein kinase II and increases casein kinase II activity. 222 69

The nuclear envelope is a dynamic structure that completely disassembles in response to MPF/cdc2 activity in mitosis. A key feature of this process is the hyperphosphorylation of the major structural proteins of the envelope, the nuclear lamins A, B, and C. Two highly conserved serine residues of the lamin protein (Ser-22 and Ser-392 of lamins A and C) are symmetrically positioned 5 amino acids from the ends of the large alpha-helical domain and are shown in the accompanying paper by Ward and Kirschner to be among four sites phosphorylated during nuclear envelope breakdown. Mutations in Ser-22 and Ser-392 that prevent phosphorylation at these sites block the disassembly of the nuclear lamina during mitosis. We propose a model for the regulation of lamin assembly in which phosphorylation just outside the ends of the alpha-helical domain controls the assembly dynamics of the lamin coiled-coil dimers.
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PMID:Mutations of phosphorylation sites in lamin A that prevent nuclear lamina disassembly in mitosis. 234 12

The physiological roles, precise locations, and relevant targets of the 60 kD protein-tyrosine kinase encoded by viral and cellular src genes p60src are not known, despite intensive study. We describe recent work that bears upon these unresolved problems: (i) p60c-src is phosphorylated during mitosis on threonine and serine residues by the protein kinase encoded by the mammalian homologue of cdc2, suggesting that c-src may contribute to the phenotype of mitotic cells; (ii) multiple regions in the amino-terminal portion of p60src are required for its proper intracellular localization--a short signal for myristylation and signals for association with cytoplasmic granules and with perinuclear and plasma membranes; and (iii) regions (called SH3 and SH2) upstream of the kinase domain modulate the behavior of p60src in complex ways, with some mutations in SH2 rendering p60 host-dependent for transformation. The latter mutants may prove to be powerful tools for identifying proteins that modify or serve as targets for src-encoded protein-tyrosine kinases.
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PMID:Function, location, and regulation of the src protein-tyrosine kinase. 248 25

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