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 p34cdc2 protein kinase is a component of maturation-promoting factor, the master regulator of the cell cycle in all eukaryotes. The activity of p34cdc2 is itself tightly regulated by phosphorylation and dephosphorylation. Predicted regulatory phosphorylation sites of Xenopus p34cdc2 were mutated in vitro, and in vitro-transcribed RNAs were injected into Xenopus oocytes. The cdc2 single mutants Thr-14----Ala and Tyr-15----Phe did not induce germinal vesicle breakdown (BVBD) upon microinjection into oocytes. In contrast, the cdc2 double mutant Ala-14/Phe-15 did induce GVBD. Both the Ala-14 and Ala-14/Phe-15p34cdc2 mutants were shown to coimmunoprecipitate cyclin B1 and to phosphorylate histone H1 in immune complex kinase assays. Microinjection of antisense oligonucleotides to c-mosXe was used to demonstrate the role of mos protein synthesis in the induction of GVBD by the Ala-14/Phe-15 cdc2 mutant. Thr-161 was also mutated. p34cdc2 single mutants Ala-161 and Glu-161 and triple mutants Ala-14/Phe-15/Ala-161 and Ala-14/Phe-15/Glu-161 failed to induce GVBD in oocytes and showed a decreased binding to cyclin B1 in coimmunoprecipitations. Each of the cdc2 mutants was also assayed by coinjection with cyclin B1 or c-mosXe RNA into oocytes. Several of the cdc2 mutants were found to affect the kinetics of cyclin B1 and/or mos-induced GVBD upon coinjection, although none affected the rate of progesterone-induced maturation. We demonstrate here the significance of Thr-14, Tyr-15, and Thr-161 of p34cdc2 in Xenopus oocyte maturation. In addition, these results suggest a regulatory role for mosXe in induction of oocyte maturation by the cdc2 mutant Ala-14/Phe-15.
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PMID:Requirement of mosXe protein kinase for meiotic maturation of Xenopus oocytes induced by a cdc2 mutant lacking regulatory phosphorylation sites. 137 75

Mitotic cyclins are thought to function as key regulatory subunits of the universal M-phase-promoting p34cdc2 protein kinase. Previous immunolocalization studies have demonstrated that a fraction of p34cdc2 undergoes cell cycle-dependent accumulation at the centrosome during G2/M. In order to identify the mitotic cyclins with which this p34cdc2 fraction interacts, we carefully examined the subcellular distribution of both cyclin A and B1 in HeLa cells. We show here that part of cyclin B1 is associated with duplicating centrosomes throughout its accumulation in the cytoplasm and up to metaphase. In contrast cyclin A does not exhibit centrosomal association except at the onset of mitosis, from preprophase up to metaphase. We also present cytological and biochemical evidence that cyclin B1 is preferentially accumulated as a detergent-insoluble protein independently of the state of microtubule assembly and under experimental conditions where most of p34cdc2 is soluble. Interestingly, the electrophoretic pattern of the minor insoluble p34cdc2 fraction was previously shown to be particularly enriched in slow-migrating and presumably hyperphosphorylated isoforms, known to interact specifically with cyclin B1 during interphase. From these results we propose that the interaction of cyclin B1 with the centrosomes and with the cytoplasmic structures is a constitutive feature of the mechanism whereby a fraction of p34cdc2 is recruited and subsequently targeted to the cyclin B-dependent activation pathway.
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PMID:Cytoplasmic accumulation of cyclin B1 in human cells: association with a detergent-resistant compartment and with the centrosome. 138 77

We have used immunofluorescence staining to study the subcellular distribution of cyclin A and B1 during the somatic cell cycle. In both primary human fibroblasts and in epithelial tumor cells, we find that cyclin A is predominantly nuclear from S phase onwards. Cyclin A may associated with condensing chromosomes in prophase, but is not associated with condensed chromosomes in metaphase. By contrast, cyclin B1 accumulates in the cytoplasm of interphase cells and only enters the nucleus at the beginning of mitosis, before nuclear lamina breakdown. In mitotic cells, cyclin B1 associates with condensed chromosomes in prophase and metaphase, and with the mitotic apparatus. Cyclin A is degraded during metaphase and cyclin B1 is precipitously destroyed at the metaphase----anaphase transition. Cell fractionation and immunoprecipitation studies showed that both cyclin A and cyclin B1 are associated with PSTAIRE-containing proteins. The nuclear, but not the cytoplasmic form, of cyclin A is associated with a 33-kD PSTAIRE-containing protein. Cyclin B1 is associated with p34cdc2 in the cytoplasm. Thus we propose that the different localization of cyclin A and cyclin B1 in the cell cycle could be the means by which the two types of mitotic cyclin confer substrate specificity upon their associated PSTAIRE-containing protein kinase subunit.
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PMID:Human cyclins A and B1 are differentially located in the cell and undergo cell cycle-dependent nuclear transport. 171 76

Two previously unidentified human cdc25 genes have been isolated, cdc25A and cdc25B. Both genes rescue a cdc25ts mutant of fission yeast. Microinjection of anti-cdc25A antibodies into HeLa cells causes their arrest in mitosis. cdc25A and cdc25B display endogenous tyrosine phosphatase activity that is stimulated several-fold, in the absence of cdc2, by stoichiometric addition of either cyclin B1 or B2 but not A or D1. Association between cdc25A and cyclin B1/cdc2 was detected in the HeLa cells. These findings indicate that B-type cyclins are multifunctional proteins that not only act as M phase regulatory subunits of the cdc2 protein kinase, but also activate the cdc25 tyrosine phosphatase, of which cdc2 is the physiological substrate. A region of amino acid similarity between cyclins and tyrosine PTPases has been detected. This region is absent in cdc25 phosphatases. The motif may represent an activating domain that has to be provided to cdc25 by intermolecular interaction with cyclin B.
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PMID:Specific activation of cdc25 tyrosine phosphatases by B-type cyclins: evidence for multiple roles of mitotic cyclins. 183 78

We have raised and characterized antibodies specific for human cyclin B2 and have compared the properties of cyclins B1 and B2 in human tissue culture cells. Cyclin B1 and B2 levels are very low in G1 phase, increase in S and G2 phases and peak at mitosis. Both B-type cyclins associate with p34cdc2; their associated kinase activities appear when cells enter mitosis and disappear as the cyclins are destroyed in anaphase. However, human cyclins B1 and B2 differ dramatically in their subcellular localization. Cyclin B1 co-localizes with microtubules, whereas cyclin B2 is primarily associated with the Golgi region. In contrast to cyclin B1, cyclin B2 does not relocate to the nucleus at prophase, but becomes uniformly distributed throughout the cell. The different subcellular locations of human cyclins B1 and B2 implicate them in the reorganization of different aspects of the cellular architecture at mitosis and indicate that different mitotic cyclin-cyclin-dependent kinase complexes may have distinct roles in the cell cycle.
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PMID:Human cyclins B1 and B2 are localized to strikingly different structures: B1 to microtubules, B2 primarily to the Golgi apparatus. 773 17

In higher eukaryotes, the cyclin-dependent kinases (CDKs) are negatively regulated by phosphorylation on threonine 14 (T14) and tyrosine 15 (Y15). In fission yeast, the Wee1 and mitosis inhibitory kinase 1 (Mik1) protein kinases phosphorylate Y15 in Cdc2. WEE1Hu is the only known protein kinase that can carry out this inhibitory phosphorylation on Y15 in higher eukaryotes. In the present study, we examined the endogenous products of WEE1Hu in human cells and found that the original WEE1Hu cDNA lacked 214 amino acids at the N-terminus. The predicted full-length protein has weak, but significant, similarity over its entire length with Mik1. Thus, we suggest that 'WEE1Hu' is a Mik1-related protein rather than a Wee1 homologue. When isolated in immunoprecipitates, the endogenous WEE1Hu phosphorylated several cyclin-associated CDKs on Y15. WEE1Hu activity increased during S and G2 phases in parallel with the level of protein. Its activity decreased at M phase when WEE1Hu became transiently hyperphosphorylated. In addition, a decrease in WEE1Hu protein level was observed at M/G1 phase. Apparently, the hyperphosphorylation and degradation in combination caused inactivation of WEE1Hu at M phase and the following G1 phase. These results suggest that the activity of WEE1Hu is regulated by phosphorylation and proteolytic degradation, and that WEE1Hu plays a role in inhibiting mitosis before M phase by phosphorylating cyclin B1-Cdc2.
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PMID:Regulation of the human WEE1Hu CDK tyrosine 15-kinase during the cell cycle. 774 95

We have investigated the hypothesis that attenuation of the G2 checkpoint, which delays entry into mitosis in response to damage to DNA and protects against clastogenesis, may contribute to the genetic instability of immortal human cell lines. IMR-90 normal human fibroblasts displayed stringent G2 checkpoint response to gamma-radiation-induced DNA damage. Irradiation with 1.5 Gy induced 98% inhibition of mitosis and 79% inhibition of cyclin B1/p34CDC2 kinase activity within 2 h. SV40-transformed IMR-90 cells with extended in vitro proliferative lifespan and immortal derivative cells displayed significantly less radiation-induced G2 delay (60-70%) and less inhibition of cyclin B1/p34CDC2 protein kinase activity (43-46%) than was seen in normal cells. Two other SV40-transformed lines and a fibrosarcoma line displayed a similar attenuation of G2 checkpoint function. The attenuation of G2 checkpoint function in SV40 transformed IMR-90 cells was associated with elevated levels of expression of cyclin B1 (8-fold greater) and p34CDC2 (2.5-fold greater). By allowing cells with damaged chromatids to enter mitosis, an attenuation of G2 checkpoint function in finite lifespan cells may promote the genetic alterations necessary for the conversion to immortality.
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PMID:Attenuation of G2 checkpoint function precedes human cell immortalization. 780 43

The uterine content of c-fos protein, cyclin B1 (cell cycle protein) and cdc2 p34(cyclin-dependent kinase) in immature and mature rats was determined using the enhanced chemiluminescence(ECL) western blot method. Cyclin B1 was found predominantly in immature rat uterus and cdc2 p34 only in mature rat uterus. Several isoforms of c-fos oncogene protein were present in both mature and immature rat uteri. An additional immunoreactive c-fos protein with an estimated molecular weight of 28 kDa was found in mature rat uterus and was missing in immature uterus. Uteri from ovariectomized rats treated with estrogen and/or ICI 182,780, an antiestrogen, were analyzed by ECL western blot. cdc2 p34 and the c-fos 28 kDa protein were found in estradiol-treated rat uteri and were not detected in uteri of control and ICI 182,780-treated animals; whereas Cyclin B1 was absent in uteri from control and estradiol-treated ovariectomized animals. ICI 182,780 administered to estradiol-treated ovariectomized rats blocked the induction of cdc2 p34 and the c-fos 28 kDa protein in the uterus. The present results show that the production of the cell cycle factors, cyclin B1, cdc2 p34 and c-fos, during rat uterine growth are under different regulatory controls. cdc2 p34 and c-fos 28 kDa protein are under the control of estradiol; whereas cyclin B1 and the majority of the immunoreactive isoforms of c-fos are not influenced by this hormone.
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PMID:Differential effect of estrogen on the production of cyclin B1, cdc2 p34 and c-fos protein in rat uterus. 788 99

Using a yeast interaction screen to search for proteins that interact with cyclin D1-Cdk4, we identified a 27 kDa mouse protein related to the p21 cyclin-Cdk inhibitor. p27 interacts strongly with D-type cyclins and Cdk4 in vitro and more weakly with cyclin E and Cdk2. In mouse fibroblasts, p27 is associated predominantly with cyclin D1-Cdk4. Recombinant p27 is a potent inhibitor of cyclin D1-Cdk4 and cyclin A-Cdk2 protein kinase activity and a weaker inhibitor of cyclin B1-Cdc2. Overexpression of p27 in Saos-2 cells causes G1 arrest. p27 protein levels do not change as serum-stimulated quiescent mouse fibroblasts progress through the cell cycle. p27 is identical to p27Kip1, a cyclin-Cdk inhibitor present in TGF beta-treated cells. p27 has the hallmarks of a negative regulator of G1 progression and may mediate TGF beta-induced G1 arrest.
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PMID:p27, a novel inhibitor of G1 cyclin-Cdk protein kinase activity, is related to p21. 803 13

Exposure of a wide variety of cells to ionizing (X- or gamma-) irradiation results in a division delay which may have several components including a G1 block, a G2 arrest or an S phase delay. The G1 arrest is absent in many cell lines, and the S phase delay is typically seen following relatively high doses (> 5 Gy). In contrast, the G2 arrest is seen in virtually all eukaryotic cells and occurs following high and low doses, even under 1 Gy. The mechanism underlying the G2 arrest may involve suppression of cyclin B1 mRNA and/or protein in some cell lines and tyrosine phosphorylation of p34cdc2 in others. Similar mechanisms are likely to be operative in the G2 arrest induced by various chemotherapeutic agents including nitrogen mustard and etoposide. The upstream signal transduction pathways involved in the G2 arrest following ionizing radiation remain obscure in mammalian cells; however, in the budding yeast the rad9 gene and in the fission yeast the chk1/rad27 gene are involved. There is evidence indicating that shortening of the G2 arrest results in decreased survival which has led to the hypothesis that during this block, cells repair damaged DNA following exposure to genotoxic agents. In cell lines examined to date, wildtype p53 is required for the G1 arrest following ionizing radiation. The gadd45 gene may also have a role in this arrest. Elimination of the G1 arrest leads to no change in survival following radiation in some cell lines and increased radioresistance in others. It has been suggested that this induction of radioresistance in certain cell lines is due to loss of the ability to undergo apoptosis. Relatively little is known about the mechanism underlying the S phase delay. This delay is due to a depression in the rate of DNA synthesis and has both a slow and a fast component. In some cells the S phase delay can be abolished by staurosporine, suggesting involvement of a protein kinase. Understanding the molecular mechanisms behind these delays may lead to improvement in the efficacy of radiotherapy and/or chemotherapy if they can be exploited to decrease repair or increase apoptosis following exposure to those agents.
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PMID:The molecular basis for cell cycle delays following ionizing radiation: a review. 804 94


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