Cell cycle sibling rivalry: Cdc2 vs. Cdk2.

Philipp Kaldis; Eiman Aleem

doi:10.4161/cc.4.11.2124

Cell cycle sibling rivalry: Cdc2 vs. Cdk2.

Philipp Kaldis, Eiman Aleem

National Institutes of Health

Research output: Contribution to journal › Review article › peer-review

57 Citations (Scopus)

Abstract

It has been long believed that the cyclin-dependent kinase 2 (Cdk2) binds to cyclin E or cyclin A and exclusively promotes the G1/S phase transition and that Cdc2/cyclin B complexes play a major role in mitosis. We now provide evidence that Cdc2 binds to cyclin E (in addition to cyclin A and B) and is able to promote the G1/S transition. This new concept indicates that both Cdk2 and/or Cdc2 can drive cells through G1/S phase in parallel. In this review we discuss the classic cell cycle model and how results from knockout mice provide new evidence that refute this model. We focus on the roles of Cdc2 and p27 in regulating the mammalian cell cycle and propose a new model for cell cycle regulation that accommodates these novel findings.

Original language	English
Pages (from-to)	1489-1492
Number of pages	4
Journal	Cell cycle (Georgetown, Tex.)
Volume	4
Issue number	11
DOIs	https://doi.org/10.4161/cc.4.11.2124
Publication status	Published - Nov 2005
Externally published	Yes

Keywords

Cdc2
Cdk2
Cyclin E
Cyclin-dependent kinase
Knockout mice
p27

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10.4161/cc.4.11.2124

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title = "Cell cycle sibling rivalry: Cdc2 vs. Cdk2.",

abstract = "It has been long believed that the cyclin-dependent kinase 2 (Cdk2) binds to cyclin E or cyclin A and exclusively promotes the G1/S phase transition and that Cdc2/cyclin B complexes play a major role in mitosis. We now provide evidence that Cdc2 binds to cyclin E (in addition to cyclin A and B) and is able to promote the G1/S transition. This new concept indicates that both Cdk2 and/or Cdc2 can drive cells through G1/S phase in parallel. In this review we discuss the classic cell cycle model and how results from knockout mice provide new evidence that refute this model. We focus on the roles of Cdc2 and p27 in regulating the mammalian cell cycle and propose a new model for cell cycle regulation that accommodates these novel findings.",

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T2 - Cdc2 vs. Cdk2.

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AU - Aleem, Eiman

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N2 - It has been long believed that the cyclin-dependent kinase 2 (Cdk2) binds to cyclin E or cyclin A and exclusively promotes the G1/S phase transition and that Cdc2/cyclin B complexes play a major role in mitosis. We now provide evidence that Cdc2 binds to cyclin E (in addition to cyclin A and B) and is able to promote the G1/S transition. This new concept indicates that both Cdk2 and/or Cdc2 can drive cells through G1/S phase in parallel. In this review we discuss the classic cell cycle model and how results from knockout mice provide new evidence that refute this model. We focus on the roles of Cdc2 and p27 in regulating the mammalian cell cycle and propose a new model for cell cycle regulation that accommodates these novel findings.

AB - It has been long believed that the cyclin-dependent kinase 2 (Cdk2) binds to cyclin E or cyclin A and exclusively promotes the G1/S phase transition and that Cdc2/cyclin B complexes play a major role in mitosis. We now provide evidence that Cdc2 binds to cyclin E (in addition to cyclin A and B) and is able to promote the G1/S transition. This new concept indicates that both Cdk2 and/or Cdc2 can drive cells through G1/S phase in parallel. In this review we discuss the classic cell cycle model and how results from knockout mice provide new evidence that refute this model. We focus on the roles of Cdc2 and p27 in regulating the mammalian cell cycle and propose a new model for cell cycle regulation that accommodates these novel findings.

KW - Cdc2

KW - Cdk2

KW - Cyclin E

KW - Cyclin-dependent kinase

KW - Knockout mice

KW - p27

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U2 - 10.4161/cc.4.11.2124

DO - 10.4161/cc.4.11.2124

M3 - Review article

C2 - 16258277

AN - SCOPUS:85044707778

SN - 1538-4101

VL - 4

SP - 1489

EP - 1492

JO - Cell cycle (Georgetown, Tex.)

JF - Cell cycle (Georgetown, Tex.)

IS - 11

ER -

Cell cycle sibling rivalry: Cdc2 vs. Cdk2.

Abstract

Keywords

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