1 / 38

Some behaviour associated with olfaction Two olfactory subsystems Main Vomeronasal

Some behaviour associated with olfaction Two olfactory subsystems Main Vomeronasal. Olfaction. Physiological and behavioural responses to odours. Visceral responses: Smell food--> salivation and gastric motility Noxious smell-->gag. Physiological and behavioural responses to odours.

calida
Download Presentation

Some behaviour associated with olfaction Two olfactory subsystems Main Vomeronasal

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Some behaviour associated with olfaction • Two olfactory subsystems • Main • Vomeronasal

  2. Olfaction

  3. Physiological and behavioural responses to odours. • Visceral responses: Smell food--> salivation and gastric motility • Noxious smell-->gag

  4. Physiological and behavioural responses to odours. • Reproductive and endocrine functions • Women housed together synchronize menstral cycles • Smelling gauze pads from underarms of women also synchronizes menstral cycles.

  5. Physiological and behavioural responses to odours. • Infants recognize mothers by scent • Mothers can recognize the scent her baby.

  6. Pheromones Species specific odorants. Some pheromones stimulate the vomeronasal organ VNO--> accessory olfactory bulb-->hypothalamus. (Found in 8% of human adults), VNO receptors are pseudogenes in humans.

  7. Olfactory receptor (sensory) neuron • In the olfactory epithelium • Have cilia projecting into the nasal cavity mucus • These cells become damaged, and turnover.

  8. Transduction

  9. Odorant Receptors • Homologous to a large family of G protein coupled receptors. • G proteins interact with the carboxyl terminal • Membrane spanning regions differ.

  10. Odorant Receptors • The largest known gene family • Between 3% and 5% of all genes. • In humans, 60% of the odorant receptors are not transcribed.

  11. Odorant Receptors • Have been expressed in olfactory sensory neurons with reporter proteins. • Each olfactory sensory neuron expresses only one or at most a few odorant receptor genes. • Different odors must activate a subset of olfactory sensory neurons.

  12. Olfactory Coding • Each olfactory sensory neuron responds to a subset of odorants. • Threshold values vary. • Number of ligands vary.

  13. Olfactory Coding • I7 receptor • N-octanol (cut grass) • The I7 olfactory receptors are spatially coded in the olfactory epithelium and in the olfactory bulb.

  14. Olfactory Coding • Temporal coding. • MAYBE information conveyed by timing. • In insects (now also in fish) brain neurons sychronize responses. (Gilles Laurent)

  15. Olfactory signals in the brain.

  16. Olfactory bulb • Glomerular subsets receive input from olfactory sensory neurons that express distinct odorant receptor molecules. • These glomeruli seem to be selective for odors.

  17. Mitral cell projections • Mitral cell axons form the lateral olfactory tract. • Projects to accessory olfactory nuclei, olfactory tubercule, entorhinal cortex, amygdala, pyriform cortex. • Pyriform cortex axons project to thalamus, hippothalamus, hippocampus, amygdala.

  18. Taste System • Taste cells • Taste buds • Peripheral cells, a number of central pathways.

  19. Taste cells synapse onto primary sensory axons of: • Cranial nerves: • VII (facial nerve branches) • IX (glossopharyngeal nerve branches) • X (vagus nerve branches)

  20. Projections of taste neurons • Cranial nerves VII, IX and X project to the solitary nucleus of the brainstem (gustatory nucleus) • Topography of the cranial nerve input to the gustatory nucleus. • Integration of visceral and gustatory input.

  21. Projections from the gustatory nucleus • Thalamus--> cortex • Hypothalamus (homeostasis), amygdala

  22. Human taste perception • Soluble in saliva • NaCl (electrolyte balance) • Glutamate (amino acids) • Sugars (glucose) • Acids (palatability) • Plant alkaloids (bitter, poison indicating)

  23. Threshold concentrations • NaCl, 2 mM • Sucrose 10 mM • Quinine 0.008 mM, strychnine 0.0001 mM • Gustatory sensitivity decreases with age.

  24. Human taste • Response thresholds vary in different parts of the tongue. • Taste sensations as well: fat, spicey, metallic, taste mixtures.

  25. Sweet • Saccharides - glucose, sucrose, fuctose, cAMP pathway • Organic anions - saccharin • Amino acids - aspartame, activate IP3 pathways • People can discriminate these.

  26. Peripheral organization • Papillae • Fungiform • Circumvallate • Foliate

  27. Taste bud • Taste pore • Taste cells

More Related