Concept 12.3
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Regulation of Cell Cycle by Molecular Control System
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Concept 12.3
- 1. Concept 12.3: Regulation of Cell Cycle by a Molecular Control System Will S. Esther P. Michelle K. Alex G. Nick B.
- 2. Evidence Of Cytoplasmic Streaming Timing and the rate of cell division in plants and animals is crucial to normal growth, development, and maintenance Some of the most specialized cells do not divide in a mature human—these cell cycle differences are from regulation at the molecular level
- 3. What drives the cell cycle? One hypothesis—each event triggers the next; replication of chromosomes in S phase causes cell growth during G2 phase triggering onset of mitosis— not correct Cell cycle is driven by specific molecular signals present in cytoplasm Example: mammalian cells grown in culture
- 4. Example S and G1 –G1 went to the S phase and DNA was synthesized M and G1 –G1 began mitosis- spindle formed and chromatin condensed even though chromosomes were not duplicated
- 5. The Cell Cycle Control System Operating set of molecules that triggers and coordinates key events in the cell cycle. Driven by a built-on clock Regulated at checkpoints by internal and external controls. Checkpoint = critical point where stop and go-ahead signals regulate the cycle
- 6. Continued Signals come from surveillance inside the cell Three major checkpoints are G1, G2, and M phases G1 is the most important and the cell will most likely complete the cycle if given go-ahead by G1 Not given go-ahead then leaves into the G0
- 7. G0 State G1 S M G2
- 8. The Cell Cycle Clock Rhythmic fluctuations in the abundance and activity of cell cycle control molecules pace the sequential events of the cell cycle. Protein kinases are enzymes that activate or inactivate other proteins by phosphorylating them. To be active, such a kinase must be attached to a cyclin, a protein that gets its name form its cyclically fluctuating concentration in the cell.
- 11. Shuts down by cyclin degradation
- 12. Stop and Go Signals Ensure mitosis properly carried out “Stops” if parts not there
- 13. Cells examined for normal growth, space limitations, growth factor withdrawal, DNA damage, etc.
- 14. Look for DNA damage, mismatched bases that could have happened during S phase (DNA synthesis)
- 15. • metaphase ensures all chromosomes connected to mitotic spindle at kinetochore • then can go to anaphase
- 16. External Factors Influences division Binding PDGF to Physical or receptor chemical tyrosine kinases triggers Growth Factors transduction Ex. PDGF pathway, allows passage of G1 Density- Dependent Inhibition Anchorage Dependence
- 18. Cancer When cells divide excessively and invade other tissues and /or take up resources. Apoptosis: process of programmed cell death Normal mammalian cells divide only about 20-50 times. Transformation: when normal cells transforms into a cancer cell. Benign tumor: when cancer cells stay in original site. Malignant tumor (metastasis): when the cancer spreads and proliferates in various parts of the body.
- 21. Treatment Tumors are treated with high powered. Chemotherapy: toxic drugs that impede the cell cycle and stop cells from dividing. There is a cell line in culture that has been reproducing since 1951