1. Negative regulation of cell-cycle progression by RINGO/Speedy E
- Author
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Ana O'Loghlen, E. Josue Ruiz, Silvana Mouron, Ana Dinarina, Laurent Perez, Angel R. Nebreda, and Spanish National Cancer Research Center (CNIO)
- Subjects
Protein family ,Xenopus ,Blotting, Western ,Apoptosis ,Cell Cycle Proteins ,Xenopus Proteins ,Biochemistry ,Cell Line ,Substrate Specificity ,03 medical and health sciences ,Cyclin-dependent kinase ,Animals ,Humans ,Immunoprecipitation ,Molecular Biology ,Cell Proliferation ,030304 developmental biology ,Cyclin ,0303 health sciences ,Cyclin-dependent kinase 1 ,biology ,Kinase ,Cell Cycle ,030302 biochemistry & molecular biology ,Cyclin-dependent kinase 2 ,Life Sciences ,Cell Biology ,Cell cycle ,biology.organism_classification ,Cyclin-Dependent Kinases ,Cell biology ,biology.protein ,biological phenomena, cell phenomena, and immunity - Abstract
Cell-cycle transitions are controlled by CDKs (cyclin-dependent kinases), whose activation is usually associated with the binding of cyclins. RINGO/Speedy proteins can also bind to and activate CDKs, although they do not have amino acid sequence homology with cyclins. The RINGO/Speedy family members studied so far positively regulate cell-cycle progression. In the present paper, we report the biochemical and functional characterization of RINGO/Speedy E. We show that RINGO/Speedy E is a functionally distant member of this protein family that negatively affects cell-cycle progression. RINGO/Speedy E overexpression inhibits the meiotic progression in Xenopus oocytes as well as the proliferation of mammalian cells. RINGO/Speedy E can bind to endogenous CDK1 and CDK2 in both cellular systems. However, the RINGO/Speedy E-activated CDKs have different substrate specificity than the CDKs activated by other RINGO/Speedy proteins, which may account for their different effects on the cell cycle. Our results indicate that, although all RINGO/Speedy family members can activate CDKs, they may differently regulate cell-cycle progression.
- Published
- 2008
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