Lecture 7: Generation of Action Potentials Flashcards
3 phases of AP
- depolarization
- repolarization
- after-hyperpolarization
absolute refractory period
- period where cell is incapable of generating a new AP
- caused by inactivation of VG Na+ channels
Relative refractory period
- more difficult to generate a new AP
- occurs at after-hyperpolarization until resting membrane potential is reestablished
- only bigger stimulus/GP will generate a new AP
- K+ efflux and inactivation of Na+ channels causes RRP
How is AP generated?
Voltage gated channels are controlled by membrane potential, and changes in MP will open or close them
-2 channels in the axon hillock : Na+ and K+
Depolarization
Occurs when Vm reaches threshold potential and Na+ channels open first, Na+ entering the cell causes depolarization
Repolarization
K+ channels open more slowly than Na+ channels, so when Na+ close K+ remain open
-K+ leaving causes repolarization
After-hyperpolarization
- occurs when voltage-gated K+ channels close
- represents time needed for extra K+ near outside membrane to disperse
Ion movement during AP
- only a few ions move in or out of the cell during AP
- approx. 1 of every 100,000 K+ ions move to change Em from +30 to -70
- any noticeable change in movement is restored by Na+/K+ ATPase
What re-establishes resting Vm?
by the Na+/K+ ATPase, but not during AP
-the duration of the after-hyperpolarization represents the time required for extra K+ near outside membrane to diffuse away
VG Na+ channel has two gates
has activation gate that is voltage dependent, and an inactivation gate that is time dependent
-act. gate opens due to depolar and inact closes after a certain period of time, then repolar. closes the act. gate and time opens the inact., returning the channel to rest position
Why don’t we see AP in dendrites and cell bodies?
density of VG Na+ channels must be high for positive feedback mechanism to function, which they are at axon, but not elsewhere
What does “excitability” mean?
-ability to generate a new AP when stimulated
-the easier it is to generate an AP, the more excitable the membrane is
The more excitable, the lower the threshold stimulus needed to generate an AP
definition of threshold stimulus and threshold MP***
- the min stimulus that needs to be applied on the neuron
- min MP needed to be reached to open the critical number of Na+VG channels to start the positive feedback loop
Signal Coding def
how info about duration and strength of stimulus is passed on to postsynaptic axon
signal coding and frequency of AP
AP frequency codes the strength of stimuli, therefore AP frequency also increases with stronger stimuli (how frequent they are=how strong stim is)
-duration of a series of AP codes for duration of the stimulus (how many there are=duration)
