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Comparative Vertebrate Physiology

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Presentation on theme: "Comparative Vertebrate Physiology"— Presentation transcript:

1 Comparative Vertebrate Physiology
Communication between neurons The synapse

2 Synapses Types Electrical & chemical Membranes
presynaptic & postsynaptic Synaptic cleft

3 Electrical synapse Gap junctions An all electrical event

4 Chemical synapse An all chemical event

5 Chemical synapse ion influx presynaptic binding exocytosis diffusion
neurotransmitter breakdown and recycling postsynaptic binding extracellular ion influx

6 Postsynaptic membrane
Events Ion influx (Na+, Cl-) Ion efflux (K+) Ach degradation (acetylcholinesterase) Protein channel closes

7 Synaptic delay 0.3 - 5.0 msec Delay caused by fusion and diffusion
Reducing delay reduce pathway length reduce number of synapses Start Finish

8 Neurotransmitters Major categories Acetylcholine
Amino acids (glutamate, aspartate, glycine) Biogenic amines (dopamine, norepinephrine, epinephrine)

9 Postsynaptic transmission
EPSP: a single depolarization Na+ influx

10 Postsynaptic transmission
IPSP: a single hyperpolarization K+ efflux or Cl- influx

11 Summation Temporal: PSP’s occur at different times
Spatial: PSP’s occur at the same time

12 Neural integration Facilitation: neurons facilitate communication at the synapse using Ca++ Synaptic inhibition (pre- and post-)

13 Synaptic sensitivity pH Hypoxia Drugs
Alkalosis leads to hyperexcitability Acidosis leads to coma Hypoxia Leads to unconsciousness Drugs Caffeine increases excitability Strychnine increases excitability Anesthetics decrease excitation

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