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Printable Handouts
Navigable Slide Index
- Introduction
- Different signals influence apoptosis
- "Gas" and "Brake" model of apoptotic control
- Reaper, Hid and Grim are required for apoptosis
- Reaper, Hid and Grim are key killer genes
- Genetic screen for cell death genes
- Reaper family proteins
- DIAP1 is the target for cell killing by RHGs
- The N-terminus of Reaper, Hid and Grim
- Reaper family proteins contain a conserved motif
- RHG binding in Drosophila & mammals
- Reaper mimetics can disrupt BIR caspase binding
- IAP's and cancer
- Ubiquitination and apoptosis
- Expression of Reaper reduces half life of IAP
- Reaper stimulates DIAP1 auto-ubiquitination
- Dual role of Reaper
- Diap-1 mediated ubiquitination
- diap1 -/- cells don't survive
- RING mutant cells undergo apoptosis
- RING domain restricts pre-Droc protein levels
- DIAP1 prevents inappropriate apoptosis
- Cell proliferation mitogens in apoptotic cells
- Cellular damage results in compensatory growth 1
- Cellular damage results in compensatory growth 2
- Active model of compensatory proliferation
- Undead cells express wg and dpp
- Wg signaling results in cell proliferation
- Model for compensatory proliferation
- Do mitochondria regulate caspases in Drosophila?
- Caspase activation in spermatogenesis
- Spermatid individualization in culture
- Effector caspase-3-like drICE
- Caspase inhibition blocks individualization
- Screen of genes involved in caspase activation
- Cyt c mutations
- Sterility is rescued by Cyt c transgenes
- Cyt-c-d & cyt-c-p rescue fertility
- Cyt-C is required for effector caspase activation
- Proteins required for normal apoptosis
- Cyt-c-d promotes apoptosis
- Apoptosome proteins
- Cyt c is required for apoptosis
- Generation of ARTS deficient mice
- ARTS - summary
- Generation of sept4-null mice
- Why are Sept4-null mice sterile?
- ARTS antagonizes IAPs
- Sperm differentiation in Drosophila and mammals
- ARTS, apoptosis and tumorigenesis
- Acquired characteristics of cancer cells
- Sept4-null mice develop lymphoma
- "Gas" and "Brake" model - summary
- Acknowledgements
Topics Covered
- Many different signals influence apoptosis
- "Gas" and "brake" model of apoptosis
- Reaper, Hid and Grim
- IAPs and cancer
- Use of Drosophila
- Ubiquitination and apoptosis
- diap1
- In proliferating tissues, damage induced cell death is compensated by extra growth of the neighboring cells
- Evidence for the "active model" of compensatory proliferation
- Regulation of caspase activation
- Cytochrome c is required for effector caspase activation in Drosophila spermatids
- Cyt-c-d and other apoptosome proteins are required for normal developmental apoptosis in the Drosophila retina
- Generation of Sept4-null mice
- Acquired characteristics of cancer cells
Talk Citation
Steller, H. (2007, October 1). Regulation of apoptosis: lessons from Drosophila and their implications for human health and disease [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/QDIF4648.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Hermann Steller has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Regulation of apoptosis: lessons from Drosophila and their implications for human health and disease
Published on October 1, 2007
46 min
A selection of talks on Immunology & Inflammation
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