The Phosphatase Cdc14 Triggers Mitotic Exit by Reversal of Cdk-Dependent Phosphorylation
TL;DR: This work shows that the Cdc14 phosphatase triggers mitotic exit by three parallel mechanisms, each of which inhibits Cdk activity, and induces degradation of mitotic cyclins.
About: This article is published in Molecular Cell.The article was published on 1998-12-01 and is currently open access. It has received 780 citations till now. The article focuses on the topics: Mitotic exit & Polo-like kinase.
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TL;DR: Recent progress has been made in understanding the details of the signaling pathways that regulate NF-kappaB activity, particularly those responding to the proinflammatory cytokines tumor necrosis factor-alpha and interleukin-1.
Abstract: NF-κB (nuclear factor-κB) is a collective name for inducible dimeric transcription factors composed of members of the Rel family of DNA-binding proteins that recognize a common sequence motif. NF-κ...
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TL;DR: The set of 107 genes in the human genome that encode members of the four protein tyrosine phosphatase (PTP) families are presented and the role of these enzymes in human disease will be discussed.
1,793 citations
TL;DR: An overview of the many mitotic kinases that regulate cell division and the fidelity of chromosome transmission is given.
Abstract: Mitosis and cytokinesis are undoubtedly the most spectacular parts of the cell cycle. Errors in the choreography of these processes can lead to aneuploidy or genetic instability, fostering cell death or disease. Here, I give an overview of the many mitotic kinases that regulate cell division and the fidelity of chromosome transmission.
1,540 citations
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TL;DR: A better understanding of the ubiquitylation machinery will provide new insights into the regulatory biology of cell-cycle transitions and the development of anti-cancer drugs.
Abstract: A driving force of the cell cycle is the activation of cyclin-dependent kinases (CDKs), the activities of which are controlled by the ubiquitin-mediated proteolysis of key regulators such as cyclins and CDK inhibitors. Two ubiquitin ligases, the SKP1-CUL1-F-box-protein (SCF) complex and the anaphase-promoting complex/cyclosome (APC/C), are responsible for the specific ubiquitylation of many of these regulators. Deregulation of the proteolytic system might result in uncontrolled proliferation, genomic instability and cancer. Cumulative clinical evidence shows alterations in the ubiquitylation of cell-cycle regulators in the aetiology of many human malignancies. A better understanding of the ubiquitylation machinery will provide new insights into the regulatory biology of cell-cycle transitions and the development of anti-cancer drugs.
1,365 citations
TL;DR: Although the nucleolus is primarily associated with ribosome biogenesis, several lines of evidence now show that it has additional functions, such as regulation of mitosis, cell-cycle progression and proliferation, many forms of stress response and biogenesis of multiple ribonucleoprotein particles.
Abstract: The nucleolus is a distinct subnuclear compartment that was first observed more than 200 years ago. Nucleoli assemble around the tandemly repeated ribosomal DNA gene clusters and 28S, 18S and 5.8S ribosomal RNAs (rRNAs) are transcribed as a single precursor, which is processed and assembled with the 5S rRNA into ribosome subunits. Although the nucleolus is primarily associated with ribosome biogenesis, several lines of evidence now show that it has additional functions. Some of these functions, such as regulation of mitosis, cell-cycle progression and proliferation, many forms of stress response and biogenesis of multiple ribonucleoprotein particles, will be discussed, as will the relation of the nucleolus to human diseases.
1,353 citations
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TL;DR: This work has shown that Cdk activity is governed by a complex network of regulatory subunits and phosphorylation events whose precise effects on Cdk conformation have been revealed by recent crystallographic studies.
Abstract: Cyclin-dependent kinases (Cdks) play a well-established role in the regulation of the eukaryotic cell division cycle and have also been implicated in the control of gene transcription and other processes. Cdk activity is governed by a complex network of regulatory subunits and phosphorylation events whose precise effects on Cdk conformation have been revealed by recent crystallographic studies. In the cell, these regulatory mechanisms generate an interlinked series of Cdk oscillators that trigger the events of cell division.
2,193 citations
TL;DR: Different skp1 mutants arrest cells in either G1 or G2, suggesting a connection between regulation of proteolysis in different stages of the cycle.
1,402 citations
TL;DR: Proteolysis drives cell cycle progression not only by regulating CDK activity, but by directly influencing chromosome and spindle dynamics, and also how proteolysis may directly trigger the transition from metaphase to anaphase.
Abstract: Oscillations in the activity of cyclin-dependent kinases (CDKs) promote progression through the eukaryotic cell cycle. This review examines how proteolysis regulates CDK activity—by degrading CDK activators or inhibitors—and also how proteolysis may directly trigger the transition from metaphase to anaphase. Proteolysis during the cell cycle is mediated by two distinct ubiquitin-conjugation pathways. One pathway, requiring CDC34, initiates DNA replication by degrading a CDK inhibitor. The second pathway, involving a large protein complex called the anaphase-promoting complex or cyclosome, initiates chromosome segregation and exit from mitosis by degrading anaphase inhibitors and mitotic cyclins. Proteolysis therefore drives cell cycle progression not only by regulating CDK activity, but by directly influencing chromosome and spindle dynamics.
1,331 citations
TL;DR: The ubiquitination pathway for the Cdk inhibitor Sic1 is reconstituted using recombinant proteins and the constituents of the SCF complex are members of protein families, likely to serve as the prototype for a large class of E3s formed by combinatorial interactions of related family members.
1,271 citations
TL;DR: The bibliography is intended more as a guide to the literature than as a historically accurate record of the development of the field; the authors apologize to the earlier workers whose contributions thus get less explicit credit than they deserve.
Abstract: INTRODUCTION The cell cycle is the process of vegetative (asexual) cellular reproduction; in a normal cell cycle, one cell gives rise to two cells that are genetically identical to the original cell. Questions about the cell cycle can be conveniently divided into two categories. First, one can ask how a cell carries out a cell cycle, once it has undertaken to do so. Into this category fall questions about the morphological and biochemical aspects of cell-cycle events and about the mechanisms that ensure their temporal and functional coordination. Second, one can ask what determines when a cell will undertake a cell cycle, or how the overall control of cell proliferation is achieved. Into this category fall questions about the coordination of successive cell cycles, the coordination of growth with division, the coordination of cell proliferation with the availability of essential nutrients, and the selection of developmental alternatives. In the text that follows, we consider these two categories of questions in turn. Our bibliography is intended more as a guide to the literature than as a historically accurate record of the development of the field; we apologize to the earlier workers whose contributions thus get less explicit credit than they deserve. HOW DOES A CELL CARRY OUT A CELL CYCLE? As has often been noted, successful completion of a cell cycle requires a cell to integrate the processes that duplicate the cellular material with the processes that partition the duplicated material into two viable daughter cells. Another useful formulation of the...
1,099 citations