The Control of Breathing in Fish - Why and How

The Control of Breathing in Fish - Why and How

Society for Experimental Biology via YouTube Direct link

HIF1a and nitric oxide

23 of 29

23 of 29

HIF1a and nitric oxide

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

The Control of Breathing in Fish - Why and How

Automatically move to the next video in the Classroom when playback concludes

  1. 1 The Control of Breathing in Fish - Why and How
  2. 2 George Parker Bidder III (1863-1953)
  3. 3 George Bidder III saves the day!
  4. 4 The world record!
  5. 5 A remarkable man!
  6. 6 Sensing the environment
  7. 7 What is the benefit of hyperventilation?
  8. 8 Empirical evidence for beneficial effects of hyperventilation
  9. 9 Benefits of hyperventilation
  10. 10 Functional studies of gill neuroepithelial cells
  11. 11 Neuroepithelial cells are CO2 sensors
  12. 12 Neuroepithelial cells are ammonia sensors
  13. 13 Rhesus (Rh) glycoproteins and ammonia sensing
  14. 14 HEA causes hyperventilation in larval zebrafish
  15. 15 Are Rh proteins involved?
  16. 16 Rh protein localisation in
  17. 17 in zebrafish larvae
  18. 18 A proposed model for ammonia sensing in zebrafish
  19. 19 Does HIF1a regulate the hypoxic hyperventilatory response?
  20. 20 HVR in wildtype larval zebrafish
  21. 21 HVR in larval zebrafish
  22. 22 Is the stimulatory effect of HIFla on the hypoxic ventilatory response related to nitric oxide?
  23. 23 HIF1a and nitric oxide
  24. 24 The role of 5-HT in chemoreception
  25. 25 Serotonin synthesis
  26. 26 TPH1a knockdown reduces number of detectable NECS
  27. 27 Depletion of NEC serotonin blunts the hypoxic ventilatory response
  28. 28 A model for the involvement of serotonin in chemoreception
  29. 29 Final words

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.