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Abstract
The cyclin-dependent kinase inhibitor p27Kip1 is known as a negative regulator of cell-cycle progression and as a tumour suppressor1. Cdk2 is the main target of p27 (refs 2, 3) and therefore we hypothesized that loss of Cdk2 activity should modify the p27−/− mouse phenotype4,5,6. Here, we show that although p27−/− Cdk2−/− mice developed ovary tumours and tumours in the anterior lobe of the pituitary, we failed to detect any functional complementation in p27−/− Cdk2−/− double-knockout mice, indicating a parallel pathway regulated by p27. We observed elevated levels of S phase and mitosis in tissues of p27−/− Cdk2−/− mice concomitantly with elevated Cdc2 activity in p27−/− Cdk2−/− extracts. p27 binds to Cdc2, cyclin B1, cyclin A2, or suc1 complexes in wild-type and Cdk2−/− extracts. In addition, cyclin E binds to and activates Cdc2. Our in vivo results provide strong evidence that Cdc2 may compensate the loss of Cdk2 function.Cite this article
Aleem, E., Kiyokawa, H. & Kaldis, P. Cdc2–cyclin E complexes regulate the G1/S phase transition. Nat Cell Biol 7, 831–836 (2005). https://doi.org/10.1038/ncb1284 