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 nucleolar protein gar2 of fission yeast is structurally related to the multifunctional nucleolar protein nucleolin from vertebrates and has been shown to be implicated in production of 18S rRNA. gar2 contains several potential casein kinase 2 (CK2) phosphorylation sites and a single putative p34(cdc2 )phosphorylation site in the consensus S50PKK. Here, we show that, like nucleolin, gar2 is phosphorylated in vitro by both highly purified CK2 from CHO cells and p34(cdc2 )from starfish oocytes. Moreover, the substitution of alanine for the N-terminal serine 50 abolishes phosphorylation by p34(cdc2 )in vitro. We also provide evidence that gar2 is phosphorylated in vitro by a p13(suc1)-Sepharose-bound kinase from Schizosaccharomyces pombe extracts that displays cell cycle-regulated activity similar to that of the p34(cdc2(kinase. In vivo 32P labeling of cells indicates that gar2 is a phosphoprotein and that incorporation of phosphate on residue 50 occurs specifically at mitosis. Taken together, these results lead us to propose that gar2 is likely to be an in vivo substrate for the mitotic p34(cdc2 )kinase. However, this posttranslational modification of the gar2 protein does not appear to be essential for normal production of 18S rRNA.
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PMID:Mitosis-specific phosphorylation of gar2, a fission yeast nucleolar protein structurally related to nucleolin. 921 81

The kinesin-related motor HsEg5 is essential for centrosome separation, and its association with centrosomes appears to be regulated by phosphorylation of tail residue threonine 927 by the p34(cdc2) protein kinase. To identify proteins able to interact with the tail of HsEg5, we performed a yeast two-hybrid screen with a HsEg5 stalk-tail construct as bait. We isolated a cDNA coding for the central, alpha-helical region of human p150(Glued), a prominent component of the dynactin complex. The interaction between HsEg5 and p150(Glued) was enhanced upon activation of p34(CDC28), the budding yeast homolog of p34(cdc2), provided that HsEg5 had a phosphorylatable residue at position 927. Phosphorylation also enhanced the specific binding of p150(Glued) to the tail domain of HsEg5 in vitro, indicating that the two proteins are able to interact directly. Immunofluorescence microscopy revealed co-localization of HsEg5 and p150(Glued) during mitosis but not during interphase, consistent with a cell cycle-dependent association between the two proteins. Taken together, these results suggest that HsEg5 and p150(Glued) may interact in mammalian cells in vivo and that p34(cdc2) may regulate this interaction. Furthermore, they imply that the dynactin complex may functionally interact not only with dynein but also with kinesin-related motors.
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PMID:Phosphorylation by p34cdc2 protein kinase regulates binding of the kinesin-related motor HsEg5 to the dynactin subunit p150. 923 42

Disassembly of the sperm nuclear envelope at fertilization is one of the earliest events in the development of the male pronucleus. We report that nuclear lamina disassembly in interphase sea urchin egg cytosol is a result of lamin B phosphorylation mediated by protein kinase C (PKC). Lamin B of permeabilized sea urchin sperm nuclei incubated in fertilized egg G1 phase cytosolic extract is phosphorylated within 1 min of incubation and solubilized prior to sperm chromatin decondensation. Phosphorylation is Ca2+-dependent. It is reversibly inhibited by the PKC-specific inhibitor chelerythrine, a PKC pseudosubstrate inhibitor peptide, and a PKC substrate peptide, but not by inhibitors of PKA, p34(cdc2) or calmodulin kinase II. Phosphorylation is inhibited by immunodepletion of cytosolic PKC and restored by addition of purified rat brain PKC. Sperm lamin B is a substrate for rat brain PKC in vitro, resulting in lamin B solubilization. Two-dimensional phosphopeptide maps of lamin B phosphorylated by the cytosolic kinase and by purified rat PKC are virtually identical. These data suggest that PKC is the major kinase required for interphase disassembly of the sperm lamina.
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PMID:Protein kinase C-mediated interphase lamin B phosphorylation and solubilization. 926 Nov 38

Mutations in the tumor suppressor gene APC invariably lead to the development of colorectal cancer. The vast majority of these mutations are nonsense or frameshifts resulting in nonfunctional, truncated APC protein products. Eleven cyclin-dependent kinase (CDK) consensus phosphorylation sites have been identified in the frequently deleted carboxyl-terminal region of APC; loss of these phosphorylation sites by mutation could therefore compromise the ability of APC to inhibit cell growth. This report demonstrates that immunoprecipitates of full-length, but not truncated, APC protein include a mitosis-specific kinase activity in vivo. Biochemical and Western analysis of these immunoprecipitates confirms the presence of the CDK p34(cdc2). We also show that APC is a substrate for recombinant human p34(cdc2)-cyclin B1. Modification of APC by p34(cdc2) implicates phosphorylation as a mechanism for regulating APC function via a link to the cell cycle.
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PMID:Phosphorylation of the tumor suppressor adenomatous polyposis coli (APC) by the cyclin-dependent kinase p34. 926 94

In the fission yeast Schizosaccharomyces pombe, p34(cdc2) plays a central role controlling the cell cycle. We recently isolated a new gene named srw1(+), capable of encoding a WD repeat protein, as a multicopy suppressor of hyperactivated p34(cdc2). Cells lacking srw1(+) are sterile and defective in cell cycle controls. When starved for nitrogen source, they fail to effectively arrest in G1 and die of accelerated mitotic catastrophe if regulation of p34(cdc2)/Cdc13 by inhibitory tyrosine phosphorylation is compromised by partial inactivation of Wee1 kinase. Fertility is restored to the disruptant by deletion of Cig2 B-type cyclin or slight inactivation of p34(cdc2). srw1(+) shares functional similarity with rum1(+), having abilities to induce endoreplication and restore fertility to rum1 disruptants. In the srw1 disruptant, Cdc13 fails to be degraded when cells are starved for nitrogen. We conclude that Srw1 controls differentiation and cell cycling at least by negatively regulating Cig2- and Cdc13-associated p34(cdc2) and that one of its roles is to down-regulate the level of the mitotic cyclin particularly in nitrogen-poor environments.
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PMID:A WD repeat protein controls the cell cycle and differentiation by negatively regulating Cdc2/B-type cyclin complexes. 939 69

We showed previously that p34(cdc2)/cyclin B (MPF) hyperphosphorylates poly(A) polymerase (PAP) during M-phase of the cell cycle, causing repression of its enzymatic activity. Mutation of three cyclin-dependent kinase (cdk) consensus sites in the PAP C-terminal regulatory domain prevented complete phosphorylation and MPF-mediated repression. Here we show that PAP also contains four nearby non-consensus cdk sites that are phosphorylated by MPF. Remarkably, full phosphorylation of all these cdk sites was required for repression of PAP activity, and partial phosphorylation had no detectable effect. The consensus sites were phosphorylated in vitro at a 10-fold lower concentration of MPF than the non-consensus sites. Consistent with this, during meiotic maturation of Xenopus oocytes, consensus sites were phosphorylated prior to the non-consensus sites at metaphase of meiosis I, and remained so throughout maturation, while the non-consensus sites did not become fully phosphorylated until after 12 h of metaphase II arrest. We propose that PAP's multiple cdk sites, and their differential sensitivity to MPF, provide a mechanism to link repression specifically to late M-phase. We discuss the possibility that this reflects a general means to control the timing of cdk-dependent regulatory events during the cell cycle.
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PMID:Inhibition of poly(A) polymerase requires p34cdc2/cyclin B phosphorylation of multiple consensus and non-consensus sites. 946 83

The gap junction protein connexin43 is a phosphoprotein that typically migrates as three bands (nonphosphorylated, P1 and P2) during polyacrylamide gel electrophoresis. The electrophoretic mobility of connexin43 from mitotic cells was distinctly reduced to a form (P3) that migrated slower than P2 from Rat1 cells prepared by shakeoff of nocodazole-treated and untreated cultures. Mitotic FT210 cells, which contain a temperature-sensitive mutation in the p34(cdc2) kinase, showed abundant levels of the P3 connexin43 when maintained at the permissive temperature where p34(cdc2) is active. In contrast, nocodozole-treated FT210 cells grown at the nonpermissive temperature did not contain P3 connexin43. These results indicated that generation of the P3 connexin43 was dependent upon active p34(cdc2)/cyclin B kinase. Although the p34(cdc2)kinase phosphorylated connexin43 in vitro on peptides containing serine 255, the major phosphotryptic peptides in P3 connexin43 from mitotic cells appeared to be the consequence of another protein kinase(s), which may be activated by the p34(cdc2)/cyclin B kinase. The P3 connexin43 exhibited a marked redistribution from cell-cell plasma membrane interfaces to multiple, distinctly stained cytoplasmic structures. These events may be part of the dramatic structural changes observed in mitotic cells undergoing cell rounding and cytokinesis. Results of initial studies using inhibitors of protein degradative and synthetic pathways suggested the likelihood that protein degradation and synthesis participate in the disappearance of the P3 connexin43 and restoration of the pattern of connexin43 isoforms observed in nonmitotic cells.
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PMID:Formation of a distinct connexin43 phosphoisoform in mitotic cells is dependent upon p34cdc2 kinase. 947 11

p25rum1 and p40SIC1 are specific inhibitors of p34(cdc2/CDC28) kinase complexes with B-type cyclins that play a central role in the regulation of the G1 phase of the cell cycle. We show here that low levels of expression of SIC1 in Schizosaccharomyces pombe rescues all the phenotypes of cells lacking the rum1+ gene. In addition, high level expression of SIC1 in S. pombe induces extra rounds of DNA replication without mitosis, a phenotype very similar to the overexpression of rum1+. Transient expression of rum1+ in S. cerevisiae restores the G1 arrest phenotype of cdc4 sic1Delta double mutants. Overproduction of rum1+ in Saccharomyces cerevisiae causes a cell cycle block in G1 with a phenotype similar to inactivation of all the Clb cyclins. Finally, we have mapped the cyclin interacting domain and Cdk inhibitory domain to a region of about 80 amino acids in p25rum1 that has significant homology to the C-terminal domain of p40SIC1. All these observations suggest that fission yeast p25rum1 and budding yeast p40SIC1 define a family of Cdk inhibitors that specifically down regulate cyclin B/Cdk1 during the G1 phase of the cell cycle.
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PMID:The Cdk inhibitors p25rum1 and p40SIC1 are functional homologues that play similar roles in the regulation of the cell cycle in fission and budding yeast. 947 12

Members of the bimC family of kinesin related proteins (KRPs) play vital roles in the formation and function of the mitotic spindle. Although they share little amino acid homology outside the highly conserved microtubule motor domain, several family members do contain a 'bimC box', a sequence motif around a p34(cdc2) consensus phosphorylation site in their carboxy-terminal 'tail' region. One family member, Eg5, requires phosphorylation at this site for association with the mitotic spindle. We show that mutations in the Schizosaccharomyces pombe cut7+ gene that change the bimC box p34(cdc2) consensus phosphorylation site at position 1,011 and a neighbouring MAP kinase consensus phosphorylation site at position 1,020 to non-phosphorylatable residues did not affect the ability of S. pombe cut7 genes to complement temperature sensitive cut7 mutants. Phosphorylation site mutants expressed as fusions to green fluorescent protein associated with the mitotic spindle with a localisation indistinguishable from similarly expressed wild-type Cut7. Cells in which cut7.T1011A replaced the genomic copy of cut7+ were viable and formed normal spindles. Deletion of the entire carboxy-terminal tail region did not affect the ability of Cut7 to associate with the mitotic spindle but did inhibit normal spindle formation. Thus, unlike Eg5, neither the p34(cdc2) consensus phosphorylation site in the bimC box nor the entire tail region of Cut7 are required for association with the mitotic spindle.
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PMID:Mutations in the bimC box of Cut7 indicate divergence of regulation within the bimC family of kinesin related proteins. 949 Jun 30

Entry into mitosis requires p34(cdc2), which activates downstream mitotic events through phosphorylation of key target proteins. In Aspergillus nidulans, the NIMA protein kinase has been identified as a potential downstream target and plays a role in regulating chromatin condensation at mitosis. nimA- mutants arrest in a state that physically resembles interphase even though p34(cdc2) is fully active. Despite evidence for the existence of NIMA-like activities in a variety of cell types, the only bona fide NIMA homologue that has been identified is the nim-1 gene of Neurospora crassa. We report here the isolation of a fission yeast NIMA homologue, and have designated this gene fin1 and the 83 kDa predicted protein p83(fin1). Overexpression of fin1 promotes premature chromatin condensation from any point in the cell cycle independently of p34(cdc2) function. Like NIMA, p83(fin1) levels fluctuate through the cell cycle, peaking in mitosis and levels are greatly elevated by removal of C-terminal PEST sequences. Deletion of fin1 results in viable but elongated cells, indicative of a cell cycle delay. Genetic analysis has placed this delay in G2 but, unlike in nimA mutants of Aspergillus, p34(cdc2) activation appears to be delayed. Interaction of fin1 mutants with other strains defective in chromatin organisation also support the hypothesis of p83(fin1) playing a role in this process at the onset of mitosis. These data indicate that NIMA-related kinases may be a general feature of the cell cycle and chromatin organisation at mitosis.
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PMID:A NIMA homologue promotes chromatin condensation in fission yeast. 949 Jun 40


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