The pRB/E2F pathway

Lees, Jacqueline

We noted you are experiencing viewing problems

Check with your IT department that JWPlatform, JWPlayer and Amazon AWS & CloudFront are not being blocked by your network. The relevant domains are *.jwplatform.com, *.jwpsrv.com, *.jwpcdn.com, jwpltx.com, jwpsrv.a.ssl.fastly.net, *.amazonaws.com and *.cloudfront.net. The relevant ports are 80 and 443.
Check the following talk links to see which ones work correctly:
Auto Mode
HTTP Progressive Download Send us your results from the above test links at access@hstalks.com and we will contact you with further advice on troubleshooting your viewing problems.
No luck yet? More tips for troubleshooting viewing issues
Contact HST Support access@hstalks.com

Please review our troubleshooting guide for tips and advice on resolving your viewing problems.
For additional help, please don't hesitate to contact HST support access@hstalks.com

We hope you have enjoyed this limited-length demo

Request free trial
Recommend to your librarian

Share
Share This Talk
Messaging

Outlook

Gmail

Yahoo!

WhatsApp
Social

Facebook

X

LinkedIn

VKontakte
Permalink
Replay Talk

This is a limited length demo talk; you may login or review methods of obtaining more access.

Playlist
Slides
Topics
Links
Citation

Co-ordination of G1 Progression
37 min
1. START control in yeast
- Prof. Curt Wittenberg
33 min
2. The pRB/E2F pathway
- Prof. Jacqueline Lees
35 min
3. Cell cycle control by the ubiquitin system in mammals
- Prof. Michele Pagano
Chromosome Duplication
47 min
4. Replication licensing
- Prof. Julian Blow
51 min
5. Initiation of DNA replication
- Prof. Bruce Stillman
48 min
6. Regulation of replication fork progression and stability
- Dr. Luis Aragón
35 min
7. Nucleosome assembly during DNA replication
- Dr. Alain Verreault
Preparing for Mitosis
27 min
8. Sister chromatid cohesion: simple concept, complex reality
- Prof. Douglas Koshland
50 min
9. Mitotic chromosome condensation
- Prof. Andrew Belmont
33 min
10. Centrosome duplication and separation in animal cells
- Prof. Andrew Fry
Spindle Assembly and Chromosome Segregation
30 min
11. Bipolar spindle assembly
- Dr. Eric Karsenti
54 min
12. Chromosome bi-orientation in yeast
- Prof. Mike Stark
- Prof. Tomo Tanaka
43 min
13. Regulation of mammalian cell division by the chromosomal passenger complex
- Dr. Susanne Lens
Mitotic Exit and Cytokinesis
39 min
14. Cleavage furrow formation and ingression during animal cytokinesis
- Dr. Pier Paolo D'Avino
Checkpoints Governing Cell Cycle Progression
34 min
15. The DNA damage response
- Dr. Vincenzo Costanzo
54 min
16. The spindle checkpoint
- Dr. Kevin Hardwick
27 min
17. Spindle movement and checkpoint control during mitosis in yeast
- Prof. John Cooper
43 min
18. The G2/M transition
- Prof. Dr. René Medema
The Cell Cycle in Development and Cancer
62 min
19. Mouse models to investigate cell cycle and cancer
- Dr. Philipp Kaldis
18 min
20. Cell cycle: a complex network of signals regulating cell proliferation
- Prof. Antonio Giordano
40 min
21. Drug discovery and target validation in the p53 pathway
- Prof. Sir David Lane
30 min
22. Role and regulation of Cdk inhibitors in development and cancer
- Prof. Martine Roussel
48 min
23. The kinetochore as a target for the development of mitosis specific anti-cancer drugs
- Dr. Tim Yen
47 min
24. The Myc transcription factor network
- Prof. Robert N. Eisenman
Meiosis: A Specialized Cell Cycle
58 min
25. Recombination and the formation of chiasmata in meiosis
- Prof. Matthew Whitby
Archived Lectures *These may not cover the latest advances in the field
24 min
26. Geometric regulation of kinetochore orientation
- Prof. Yoshinori Watanabe

Printable Handouts

PDF

Navigable Slide Index

Introduction
E2F transcription factors control cell cycle entry
E2f controls transcription of cell cycle regulators
Inhibitory and mitogenic signals
The pocket proteins: pRB family of proteins
Differential roles of the pocket proteins (1)
Different pocket proteins bind different E2Fs
E2F targets regulated by distinct E2F complexes
Rb mutant mice
Inhibition of E2Fs is key to pRB's activity
Differential roles of the pocket proteins (2)
E2Fs can induce apoptosis and senescence
Role of pRB-E2F in DNA damage response
pRB-E2F in DNA damage response - experiment 1
pRB-E2F in DNA damage response - experiment 2
pRB contributes to activation of apoptosis
pRB's apoptosis induction in vivo
The pRB/E2F proliferation pathway
Mutations in the pRB/E2F pathway (1)
Mutations in the pRB/E2F pathway (2)
Acknowledgements

Topics Covered

The E2F transcription factors control cell cycle entry
The pRB/E2F pathway
pRB and E2F are both families of proteins
Differential roles of the pocket proteins
Repression and activation of E2F target genes is regulated by distinct E2F complexes
Rb mutant mice
Inhibition of the activating E2Fs is key to pRB's tumor suppressive activity
The activating E2Fs can also induce apoptosis and senescence genes in tumor cells
Role of pRB-E2F in DNA damage response
pRB contributes to the activation of pro-apoptotic genes in response to DNA damage

Links

Series:

The Cell Division Cycle

Categories:

Cell Biology

Talk Citation

Lees, J. (2009, April 30). The pRB/E2F pathway [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved June 6, 2025, from https://doi.org/10.69645/MQCS4194.
Export Citation (RIS)