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Showing 1–6 of 6 results
Advanced filters: Author: "Tim Hunt" Clear advanced filters

  • Cell-cycle transitions in higher eukaryotes are regulated by different cyclin-dependent kinases (CDKs) and cyclins. Recent work using gene-targeted mice has led to a revision of this model and revealed overlapping and essential roles of different CDKs and cyclins.

    • Helfrid Hochegger
    • Shunichi Takeda
    • Tim Hunt
    Reviews
    Nature Reviews Molecular Cell Biology
    Volume: 9, P: 910-916

  • One of two papers that identify a new pathway by which calcium triggers oocyte fertilization. Previous work has shown a critical role for the calcium-regulated kinase CaMKII. But new work from the Ohsumi and Hunt laboratories shows that, in parallel, calcium-mediated transient activation of a phosphatase, calcineurin, is needed to release oocytes from a cell cycle arrest after fertilization. The Hunt group also identifies a second wave of phosphatase activity that acts in mitosis.

    • Satoru Mochida
    • Tim Hunt
    Research
    Nature
    Volume: 449, P: 336-340

  • Cyclins control the activity of cyclin-dependent kinases, which drive cell cycle progression. The expression of cyclins can be disrupted in cancer cells, and this Opinion article discusses the possibility that altered subcellular localization of cyclins may also affect cell cycle progression and genomic stability.

    • Jonathan D. Moore
    Reviews
    Nature Reviews Cancer
    Volume: 13, P: 201-208

  • The Notch signalling pathway functions in many processes — from developmental patterning to cell growth and cell death. As the complexity of Notch signalling regulation is being unravelled at the levels of cell-surface ligand–receptor interactions and of gene expression, we are gaining a deeper understanding of how this conserved pathway can lead to such diverse cellular responses.

    • Sarah J. Bray
    Reviews
    Nature Reviews Molecular Cell Biology
    Volume: 17, P: 722-735

  • The APC/C (anaphase-promoting complex, also known as the cyclosome) is an E3 ubiquitin ligase that ensures temporal order of the cell cycle by degrading different cell cycle regulators at specific time points. Recent studies have provided insights into how the APC/C recognizes its substrates and how it is itself regulated.

    • Jonathon Pines
    Reviews
    Nature Reviews Molecular Cell Biology
    Volume: 12, P: 427-438

  • The Notch pathway functions during diverse developmental and physiological processes. Our current understanding of the mechanisms that function on the core Notch pathway shows that we are still just beginning to understand the full complexities of Notch regulation.

    • Sarah J. Bray
    Reviews
    Nature Reviews Molecular Cell Biology
    Volume: 7, P: 678-689