AI Article Synopsis
- Genomic stability is crucial for cell division, relying on coordinated cell cycle events and checkpoints to ensure proper inheritance of the genome.
- Checkpoints, like the DNA damage and spindle assembly checkpoints, delay cell cycle progression to maintain genomic integrity when issues are detected.
- The new antephase checkpoint is highlighted for its role in preventing mitosis under stress, with the review focusing on unresolved questions about this checkpoint and future research directions.
Article Abstract
Maintenance of genomic stability is needed for cells to survive many rounds of division throughout their lifetime. Key to the proper inheritance of intact genome is the tight temporal and spatial coordination of cell cycle events. Moreover, checkpoints are present that function to monitor the proper execution of cell cycle processes. For instance, the DNA damage and spindle assembly checkpoints ensure genomic integrity by delaying cell cycle progression in the presence of DNA or spindle damage, respectively. A checkpoint that has recently been gaining attention is the antephase checkpoint that acts to prevent cells from entering mitosis in response to a range of stress agents. We review here what is known about the pathway that monitors the status of the cells at the brink of entry into mitosis when cells are exposed to insults that threaten the proper inheritance of chromosomes. We highlight issues which are unresolved in terms of our understanding of the antephase checkpoint and provide some perspectives on what lies ahead in the understanding of how the checkpoint functions.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2798306 | PMC |
| http://dx.doi.org/10.1128/MCB.00687-09 | DOI Listing |
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