• Cellular Mechanisms of Mitochondrial Biogenesis in Health
• 23 min
  1. Nuclear control of electron transport chain gene expression

  • Dr. Glenn C. Rowe
• 48 min
  2. Regulation of mitochondrial biogenesis by transcriptional coactivators and estrogen-related receptor alpha

  • Dr. Anastasia Kralli
• 17 min
  3. Protein import into mitochondria

  • Dr. Trevor Lithgow
• 39 min
  4. Mitochondrial phospholipid synthesis and incorporation

  • Prof. Grant Hatch
• 23 min
  5. Mitochondrial DNA replication and transcription

  • Prof. Julio Montoya
• 37 min
  6. Mitochondrial production of reactive oxygen species 1

  • Prof. Martin Brand
• 22 min
  7. Mitochondrial production of reactive oxygen species 2

  • Prof. Martin Brand
• 35 min
  8. Mitophagy - the degradation of dysfunctional organelles

  • Dr. Anna Vainshtein
• Mitochondrial Biogenesis in Physiological Conditions
• 21 min
  9. Thyroid hormone and mitochondrial biogenesis

  • Dr. Joachim Weitzel
• 28 min
  10. Exercise-induced mitochondrial biogenesis in muscle 1

  • Prof. David Hood
• 37 min
  11. Exercise-induced mitochondrial biogenesis in muscle 2

  • Prof. David Hood
• Mitochondrial Biogenesis in Aging and Disease
• 33 min
  12. Mitochondrial diseases: an update

  • Dr. Ayesha Saleem
• 59 min
  13. Exercise and nutrition in mitochondrial disorders

  • Prof. Mark Tarnopolsky
• 42 min
  14. Mitochondrial disorders and neurodegeneration

  • Dr. Jan-Willem Taanman
• 33 min
  15. Reprogramming oxidative phosphorylation in cancer

  • Prof. José Cuezva
• 44 min
  16. Possible roles of mitochondrial biogenesis in aging

  • Dr. Aubrey de Grey
• 31 min
  17. Mitochondria in reproduction and fertility: mitochondria and gametes 1

  • Prof. Pascale May Panloup
• 30 min
  18. Mitochondria in reproduction and fertility: mitochondria and embryo 2

  • Prof. Pascale May Panloup
• 35 min
  19. Mitochondrial morphology and ultrastructure in skeletal muscle

  • Prof. Martin Picard
• 19 min
  20. Improving mitochondrial phenotypes with pharmaceuticals

  • Prof. Christopher Perry
• Mitochondria, Cell Signaling and Apoptosis
• 42 min
  21. Mitochondrial permeability transition

  • Prof. John Lemasters
• 47 min
  22. Pathways of apoptosis in muscle 1

  • Prof. Stephen E. Alway
• 42 min
  23. Pathways of apoptosis in muscle 2

  • Prof. Stephen E. Alway
• 21 min
  24. Controlling mitochondrial reactive oxygen species production for cell signaling 1

  • Dr. Ryan J. Mailloux
• 32 min
  25. Controlling mitochondrial reactive oxygen species production for cell signaling 2

  • Dr. Ryan J. Mailloux
• Archived Lectures *These may not cover the latest advances in the field
• 44 min
  26. Reactive oxygen species and myocardial apoptosis

  • Dr. Zhi-Qing Zhao
• 34 min
  27. Mitochondrial biogenesis as a result of exercise

  • Dr. Darrell Neufer
• 30 min
  28. Mechanisms of mitochondrial fusion and fission

  • Dr. Luca Scorrano
• 30 min
  29. Mitochondrial heterogeneity in cells

  • Dr. Tony Collins
• 40 min
  30. Mitochondrial diseases: an update

  • Prof. Salvatore DiMauro
• 41 min
  31. Calcium signaling and mitochondrial function

  • Prof. David Nicholls
• 35 min
  32. Mitochondrial biogenesis during gametogenesis and embryonic development

  • Prof. Pascal Reynier
• 33 min
  33. Mitochondrial complex assembly

  • Dr. Leo Nijtmans
• 33 min
  34. Evolutionary and developmental variation in muscle mitochondrial content

  • Prof. Christopher Moyes
• 33 min
  35. Muscle mitochondrial function and biogenesis with aging

  • Dr. Russell Hepple
• 23 min
  36. The mitochondrial pathway in apoptosis

  • Prof. Douglas Green
• 40 min
  37. Nuclear control of respiratory chain expression by transcriptional activators and coactivators

  • Prof. Richard Scarpulla
• 38 min
  38. Mitochondrial disorders and neurodegeneration

  • Prof. Anthony Schapira
• 43 min
  39. Respiration, reactive oxygen species and uncoupling proteins

  • Prof. Martin Brand

Printable Handouts

PDF

Navigable Slide Index

1. Introduction
2. Outline - ROS production by mitochondria - ageing
3. Mitochondrial free radical theory of ageing
4. Mitochondria in a rat hepatocyte
5. Electron transport chain, oxidative phophorylation
6. ROS production is low in long-lived mammals
7. Long-lived small mammals and short-lived birds
8. ROS production in long-lived mammals and birds
9. Outline - topology and sites of ROS production
10. Topology of mitochondrial superoxide production
11. ROS production in glycerol phosphate oxidation
12. Topology of mitochondrial ROS production
13. Topology and sites of ROS production
14. Outline - regulation of ROS production
15. ROS and uncoupling in flies
16. ROS and uncoupling in rats
17. Outline - ROS activation of UCPs
18. Oxidative phosphorylation
19. UCP1 structure
20. GDP inhibition of UCP1
21. Regulation of UCP1
22. The UCPs
23. Proton conductance in UCP3 knock-out mice
24. Superoxide activates UCP3
25. Superoxide activates other UCPs
26. Activation of UCPs by reactive oxygen species (1)
27. AAPH generates carbon-centred free radicals
28. Carbon-centred radicals activate UCPs
29. Activation of UCPs by reactive oxygen species (2)
30. HNE activation of proton leak
31. Activation of UCPs by reactive oxygen species (3)
32. Time-dependent activation of proton leak
33. Time-dependent endogenous activation of UCP3
34. Proton leak in thymocytes depends on UCP2
35. Activation of UCPs by reactive oxygen species (4)
36. Outline - evidence that UCPs attenuate ROS
37. Leak inhibition increases superoxide production
38. GDP inhibition of UCP3 inactivates aconitase (1)
39. GDP inhibition of UCP3 inactivates aconitase (2)
40. Oxidative damage in UCP3 KO mice mitochondria
41. Fine-tuning the model
42. Synergistic activation of UCP1
43. Regulation of UCPs
44. Conclusion
45. Acknowledgments
46. Research group - 2005

Topics Covered

• Reactive oxygen species production by mitochondria
• Mitochondrial free radicals and ageing in short-lived and long-lived species
• Topology and sites of ROS production in the electron transport chain
• Regulation of ROS production by mild uncoupling
• Uncoupling of mitochondria by uncoupling proteins
• Superoxide and reactive alkenal activation of UCPs
• A model for UCP activation
• Evidence that UCPs attenuate ROS

Links

Series:

• Mitochondrial Biogenesis

Categories:

• Biochemistry
• Cell Biology

Talk Citation

Publication History

• Published on October 1, 2007
• Reviewed on November 18, 2016
• Archived on March 22, 2022

Financial Disclosures

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