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)

Cyclins are regulatory molecules that undergo periodic accumulation and destruction during each cell cycle. By activating p34cdc2 and related kinase subunits they control important events required for normal cell cycle progression. Cyclin A, for example, regulates at least two distinct kinase subunits, the mitotic kinase subunit p34cdc2 and related subunit p33cdk2, and is widely believed to be necessary for progression through S phase. However, cyclin A also forms a stable complex with the cellular transcription factor DRTF1 and thus may perform other functions during S phase. DRTF1, in addition, associates with the tumour suppressor retinoblastoma (Rb) gene product and the Rb-related protein p107. We now show, using biologically active fusion proteins, that cyclin A can direct the binding of the cdc2-like kinase subunit, p33cdk2, to complexed DRTF1, containing either Rb or p107, as well as activate its histone H1 kinase activity. Cyclin A cannot, however, direct p34cdc2 to the DRTF1 complex and we present evidence suggesting that the stability of the cyclin A-p33cdk2 complex is influenced by DRTF1 or an associated protein. Cyclin A, therefore, serves as an activating and targeting subunit of p33cdk2. The ability of cyclin A to activate and recruit p33cdk2 to DRTF1 may play an important role in regulating cell cycle progression and moreover defines a mechanism for coupling cell-cycle events to transcriptional initiation.
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PMID:Cyclin A recruits p33cdk2 to the cellular transcription factor DRTF1. 129 52

The Eg1 gene in Xenopus laevis is related in sequence to the cdc2+ gene. We show here that the Eg1 gene product (cdk2) possesses histone H1 protein kinase activity and binds to PSTAIR antibodies as well as to Sepharose beads linked to the 13-kDa product of the suc 1 gene (p13suc1). Eg1 protein kinase is active only in an Mr approximately 200,000 complex with other proteins but is not associated with any of the three known Xenopus mitotic cyclins or with any newly synthesized protein in egg extracts that exhibit cell cycle oscillations in vitro. The protein kinase activity of Eg1 oscillates in the mitotic cell cycle, being high in M-phase and low in interphase. Hyperactivation of cdc2 kinase by the addition of cyclin A has no effect on the activity or oscillatory behavior of Eg1. Inhibition of cdc2 kinase activation by emetine or RNase treatment of oscillating extracts does not inhibit the activation of Eg1 but does block deactivation normally seen during exit from mitosis. These results indicate that Eg1 is regulated by a cell cycle clock independently of cyclin and cdc2 kinase.
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PMID:A cdc2-related kinase oscillates in the cell cycle independently of cyclins G2/M and cdc2. 130 5

The E2F transcription factor has been found in association with the cyclin A protein, and this complex accumulates during the S phase of the cell cycle, suggesting that E2F may play a role in cell cycle control. In independent studies, cyclin A has been shown to be associated with two other proteins, the Rb-related p107 protein and the cdc2-related p33 cdk2 protein kinase. Through an analysis of the E2F-cyclin A complex, we now find that both the p107 protein and the cdc2-related p33cdk2 kinase are components of the previously described complex. Moreover, the complex possesses H1 kinase activity. These results thus define a cyclin A-cdk2 kinase complex that possesses sequence-specific DNA binding activity. This suggests that the cdk2 kinase may phosphorylate other DNA-bound substrates, and that one role of the E2F factor may be to localize this protein kinase to the DNA.
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PMID:A cyclin A-protein kinase complex possesses sequence-specific DNA binding activity: p33cdk2 is a component of the E2F-cyclin A complex. 131 73

The transcription factor E2F controls the expression of several proliferation-related genes and is a target of the adenovirus E1A oncogene. In human cells, both cyclin A and the cdk2 protein kinase were found in complexes with E2F. Although the total amounts of cdk2 were constant in the cell cycle, binding to E2F was detected only when cells entered S phase, a time when the cdk2 kinase is activated. These data suggest that the interaction between cdk2 and E2F requires an active kinase that has cyclin A as a targeting component.
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PMID:Association of cdk2 kinase with the transcription factor E2F during S phase. 131 58

Cyclins play a fundamental role in regulating cell cycle events in all eukaryotic cells. The human cyclin A gene was identified as the site of integration of hepatitis B virus in a hepatocarcinoma cell line; in addition, cyclin A is associated with the E2F transcription factor in a complex which is dissociated by the E1A oncogene product. Such findings suggest that cyclin A is a target for oncogenic signals. We have now found that DNA synthesis and entry into mitosis are inhibited in human cells microinjected with anti-cyclin A antibodies at distinct times. Cyclin A binds both cdk2 and cdc2, giving two distinct cyclin A kinase activities, one appearing in S phase, the other in G2. These results suggest that cyclin A defines novel control points of the human cell cycle.
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PMID:Cyclin A is required at two points in the human cell cycle. 131 67

Cyclins are proteins which are synthesized and degraded in a cell cycle-dependent fashion and form integral regulatory subunits of protein kinase complexes involved in the regulation of the cell cycle. The best known catalytic subunit of a cyclin-dependent protein kinase complex is p34cdc2. In the cell, cyclins A and B are synthesized at different stages of the cell cycle and induce protein kinase activation with different kinetics. The kinetics of activation can be reproduced and studied in extracts of Xenopus eggs to which bacterially produced cyclins are added. In this paper we report that in egg extracts, both cyclin A and cyclin B associate with and activate the same catalytic subunit, p34cdc2. In addition, cyclin A binds a less abundant p33 protein kinase related to p34cdc2, the product of the cdk2/Eg1 gene. When complexed to cyclin B, p34cdc2 is subject to transient inhibition by tyrosine phosphorylation, producing a lag between the addition of cyclin and kinase activation. In contrast, p34cdc2 is only weakly tyrosine phosphorylated when bound to cyclin A and activates rapidly. This finding shows that a given kinase catalytic subunit can be regulated in a different manner depending on the nature of the regulatory subunit to which it binds. Tyrosine phosphorylation of p34cdc2 when complexed to cyclin B provides an inhibitory check on the activation of the M phase inducing protein kinase, allowing the coupling of processes such as DNA replication to the onset of metaphase. Our results suggest that, at least in the early Xenopus embryo, cyclin A-dependent protein kinases may not be subject to this checkpoint and are regulated primarily at the level of cyclin translation.
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PMID:Cyclin A- and cyclin B-dependent protein kinases are regulated by different mechanisms in Xenopus egg extracts. 131 71

RPA is a single-stranded DNA binding protein complex purified from human cells and is essential for the initiation and elongation stages of SV40 DNA replication in vitro. In both human and yeast cells, the 34 kDa polypeptide subunit of RPA is phosphorylated in the S and G2 phases of the cell cycle and not in G1. One of the major RPA kinases present in extracts of human cells was purified and shown to be the cyclin B-cdc2 complex. This purified kinase, and a closely related cyclin A associated cdc2-like kinase, phosphorylated RPA p34 on a subset of the chymotryptic peptides that were phosphorylated in vivo at the G1-S transition. Two serines near the N-terminus of RPA p34 were identified as possible sites of phosphorylation by cdc2 kinase. These same serines were necessary for RPA phosphorylation in vivo. The purified cdc2 kinase stimulated SV40 DNA replication in vitro when added to G1 cell extracts. The kinase also stimulated unwinding at the origin of replication, one of the earliest steps in DNA replication requiring RPA, but only in the presence of an additional factor present in G1 cell extracts. Thus, one or more members of the cyclin-cdc2 kinase family may be required for the initiation and maintenance of S phase, in part due to their ability to phosphorylate and activate a cellular DNA replication factor, RPA.
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PMID:cdc2 family kinases phosphorylate a human cell DNA replication factor, RPA, and activate DNA replication. 131 95

Exit from metaphase of the cell cycle requires inactivation of MPF, a stoichiometric complex between the cdc2 catalytic and the cyclin B regulatory subunits, as well as that of cyclin A-cdc2 kinase. Inactivation of both complexes depends on proteolytic degradation of the cyclin subunit, yet cyclin proteolysis is not sufficient to inactivate the H1 kinase activity of cdc2. Genetic evidence strongly suggests that type 1 phosphatase plays a key role in the metaphase-anaphase transition of the cell cycle. Here we report that inhibition of both type 1 and type 2A phosphatases by okadaic acid allows cyclin degradation to occur, but prevents cdc2 kinase inactivation. Complete inhibition of type 2A phosphatase alone is not sufficient to prevent cdc2 kinase inactivation following cyclin proteolysis. We show further that residue 161 of cdc2 is phosphorylated in active cyclin A or cyclin B complexes at metaphase, whilst unassociated cdc2 is not phosphorylated. Proteolysis of cyclin releases a free cdc2 subunit, which subsequently undergoes dephosphorylation and then migrates more slowly than its Thr161 phosphorylated counterpart in Laemmli gels. Removal of phosphothreonine 161 requires cyclin proteolysis. However, it does not occur even after cyclin proteolysis, when both type 1 and type 2A phosphatases are inhibited. We conclude that both cyclin degradation and dephosphorylation of Thr161 on cdc2, catalysed at least in part by type 1 phosphatase, are required to inactivate either cyclin B- or cyclin A-cdc2 kinases and thus for cells to exit from M phase.
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PMID:Dephosphorylation of cdc2 on threonine 161 is required for cdc2 kinase inactivation and normal anaphase. 132 Oct 30

This paper reports the nucleotide and predicted amino acid sequences of the goldfish cdk2, a cognate variant of the cell cycle regulator cdc2. The predicted protein sequence shows strong homology to the other known cdk2 (88% for Xenopus and 90% for human). A monoclonal antibody against the C-terminal sequence of goldfish cdk2 recognized a 34-kDa protein in extracts from various goldfish tissues. The protein level was high in such tissues as testis and ovary containing actively dividing cells. Protein cdk2 binds to p13sucl, the fission yeast suc1+ gene product, but not to cyclin B, with which cdc2 forms a complex. The kinase activity of cdk2 increased 30-fold when oocytes matured, although its protein level did not remarkably change. Anti-cdk2 immunoprecipitates from 32P-labeled mature oocyte extracts contained a 47-kDa protein, which was not recognized by either anti-cyclin A or anti-cyclin B antibody, indicating complex formation of cdk2 with a protein other than cyclins A or B.
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PMID:Isolation and characterization of goldfish cdk2, a cognate variant of the cell cycle regulator cdc2. 133 36

The microtubule-associated protein tau is a major component of the paired helical filaments (PHFs) observed in Alzheimer's disease brains. The pathological tau is distinguished from normal tau by its state of phosphorylation, higher apparent M(r) and reaction with certain antibodies. However, the protein kinase(s) have not been characterized so far. Here we describe a protein kinase from brain which specifically induces the Alzheimer-like state in tau protein. The 42 kDa protein belongs to the family of mitogen activated protein kinases (MAPKs) and is activated by tyrosine phosphorylation. It is capable of phosphorylating Ser-Pro and Thr-Pro motifs in tau protein (approximately 14-16 P1 per tau molecule). By contrast, other proline directed Ser/Thr kinases such as p34(cdc2) combined with cyclin A or B have only minor effects on tau phosphorylation. We propose that MAP kinase is abnormally active in Alzheimer brain tissue, or that the corresponding phosphatases are abnormally passive, due to a breakdown of the normal regulatory mechanisms.
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PMID:Mitogen activated protein (MAP) kinase transforms tau protein into an Alzheimer-like state. 137 45

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