M&R Session 4 (Lecture 4.1) Flashcards
Describe 5 general characteristics of action potentials.
1) Change in voltage across membrane
2) Depends on ionic gradients and relative permeability of the membrane
3) Only occurs if a threshold level is reached
4) All or nothing
5) Propagated without loss of amplitude
What are the voltage changes during an action potential in the following tissues: Axon, Skeletal muscle, SAN, Cardiac ventricle.
What are the durations of each?
1) Axon : -70 to +30mV 0.5ms
2) Sk.M : -90 to +40mV 0.5ms
3) SAN : -60 to +30mV 100ms
4) C.V : -90 to +30mV 100ms
What is conductance of the membrane for an ion?
Dependant on the no. of channels for the ion that are open. The higher the conductance; the more channels open for an ion
What occurs to the membrane potential if the conductance for an ion is increased?
The membrane potential will move closer to the equilibrium potential for that ion.
What occurs to the peak of an action potential if the extracellular [Na+] is decreased?
Peak reduced so supports idea that the upstroke of the A.P. is due to a large increase in permeability to Na+ ions
For a axon of diameter 1 micro m, what is the net influx of Na+ ions into the axon?
40 micro M
What does voltage-clamping involve? What can it assess?
Introduces two electrodes into the cell which can control the voltage and clamp it to investigate the ionic current movements.
What are the two key differences between VGNCs and VGKCs?
VGNCs open and close quicker (dependant on rate of depol) and become inactive after a period of time.
VGKCs open slowly and and have no inactivation
Where is the A.P. initiated?
Axon hillock
Why is an A.P described as ‘all or nothing’ ?
Either you get an A.P or not. If the threshold level is reached then an A.P is generated.
Describe the depolarisation events of the AP for the VGNCs (positive feedback loop).
1) Depolarisation to threshold
2) Na+ channels open
3) Na+ influx
4) Membrane depolarises
Repeat steps 2-4 until peak is reached
What happens during the repolarisation of the AP?
1) Depolarisation
2) Opens K+ channels and inactivates Na+ channels
3) K+ efflux and Na+ influx stopped
4_ Repolarisation
Define the ARP and RRP?
Absolute refractory period = all Na+ channels are inactivated so no stimuli can generate another AP.
Relative RP = Na+ channels are recovering from inactivation, the excitability returns towards normal as the number of channels in the inactivated state decreases.
What can occur to open VGNCs?
They are prone to inactivation
Explain accommodation of nerves.
Decreasing the rate of depolarisation causes the A.P threshold to become more positive so an AP is less likely to be generated the longer the stimuli.
Useful in blocking out repeated stimuli e.g. watch or repetitive noise
