• The Notion of Epigenetics
• 43 min
  1. Cytoplasmic epigenetics: inheritance by cytoplasmic continuity

  • Prof. Philippe Silar
  • Dr. Fabienne Malagnac
• Epigenetics: Paradigms
• 38 min
  2. The molecular mechanism of X chromosome inactivation

  • Prof. Neil Brockdorff
• 29 min
  3. Genomic imprinting: history and embryology

  • Prof. Davor Solter
• 48 min
  4. X chromosome inactivation in human cells

  • Prof. Barbara Migeon
• 41 min
  5. RNAi and heterochromatin in plants and fission yeast

  • Prof. Robert Martienssen
• 45 min
  6. DNA methylation and genome defense in Neurospora crassa

  • Prof. Eric Selker
• Epigenetics: Mechanisms
• 23 min
  7. Polycomb epigenetic mechanisms: role of PcG complexes

  • Prof. Vincenzo Pirrotta
• 29 min
  8. Polycomb epigenetic mechanisms: methylation of DNA

  • Prof. Vincenzo Pirrotta
• 56 min
  9. Histone modifications and prospects for an epigenetic code

  • Prof. Bryan Turner
• 68 min
  10. Epigenetic control by histone methylation

  • Prof. Thomas Jenuwein
• 38 min
  11. Histone dynamics, heritability and variants

  • Dr. Genevieve Almouzni
• 51 min
  12. Gene silencing in budding yeast

  • Prof. Susan Gasser
• Epigenetics: Heritability and Reversibility
• 51 min
  13. Nuclear cloning, stem cells and epigenetic reprogramming

  • Prof. Rudolf Jaenisch
• 64 min
  14. Stem cell memory

  • Prof. James Sherley
• Archived Lectures *These may not cover the latest advances in the field
• 24 min
  15. Epigenetics: a historical overview

  • Dr. Robin Holliday
• 43 min
  16. DNA methylation

  • Prof. Adrian Bird
• 34 min
  17. A historical perspective on ideas on X-chromosome inactivation

  • Dr. Mary Lyon
• 40 min
  18. Evolution of mammal epigenetic control systems

  • Prof. Jenny Graves
• 60 min
  19. Genomic imprinting and its regulation

  • Dr. Anne Ferguson-Smith
• 40 min
  20. Nuclear organization and gene expression

  • Prof. David Spector
• 39 min
  21. Germ cells

  • Prof. Azim Surani
• 41 min
  22. Epigenetic regulation of phenotype

  • Prof. Emma Whitelaw
• 68 min
  23. Epigenetically mediated gene silencing: a companion to genetic alterations in driving tumorigenesis

  • Prof. Stephen Baylin
• 36 min
  24. Cytoplasmic epigenetics: proteins acting as genes

  • Prof. Reed Wickner

Printable Handouts

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Navigable Slide Index

1. Introduction
2. Dynamic activities of PcG complexes
3. PRC2 has also an untargeted global function
4. Chromatin immunoprecipitation (ChIP-seq) profiles
5. Remethylation after DNA replication (1)
6. Remethylation after DNA replication (2)
7. Directing and maintaining H3K27 methylation
8. What happens if remethylation is prevented?
9. 3 complexes with antagonistic activities
10. The CBP/p300 acetylase complex
11. The TRR complex (MLL3,4 in mammals)
12. The DNA accessibility model (1)
13. The DNA accessibility model (2)
14. Even repressors require access to DNA
15. Global H3K27me2 acts as a regulator
16. How do PcG complexes repress? (1)
17. How do PcG complexes repress? (2)
18. The bright red eye color requires the white gene
19. Adding a PRE to the transgene
20. PcG complexes enhances repression locally
21. Pairing-sensitive silencing
22. Pairing-dependent silencing
23. PcG targets tend to associate in the nucleus
24. PcG complexes in the nucleus
25. Do PcG proteins prevent promoter access? (1)
26. Do PcG proteins prevent promoter access? (2)
27. Does H2AK119ub interfere with transcription?
28. Complete loss of H2AK119ub (1)
29. Complete loss of H2AK119ub (2)
30. H3K27 methylation
31. The essential role of canonical PRC1
32. Links between PRC1 and PRC2
33. Active and repressed chromatin marks
34. The bivalent state
35. Bivalency resolved
36. Not so simple
37. Bivalent domains in nucleosomes
38. DNA methylation: understanding bivalency
39. Relationship to DNA methylation (1)
40. Relationship to DNA methylation (2)
41. Relationship to DNA methylation (3)
42. The role of the bivalent state
43. Enormous progress has been made
44. Thank you

Topics Covered

• PRC2 has an untargeted global function
• Chromatin immunoprecipitation (ChIP-seq) profiles
• H3K27 methylation
• The CBP/p300 acetylase complex
• The TRR complex (MLL3,4 in mammals)
• The DNA accessibility model
• How do PcG complexes repress?
• The essential role of canonical PRC1
• Links between PRC1 and PRC2
• The bivalent state

Links

Series:

• Epigenetics

Categories:

• Biochemistry
• Cell Biology
• Genetics & Epigenetics

Talk Citation

Publication History

• Published on October 1, 2007
• Updated on December 31, 2017

Financial Disclosures

• Prof. Vincenzo Pirrotta has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.