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