action potential Flashcards
1
Q
explain how an action potential is generated
A
- stimulus
some Na+ voltage gated channel proteins open causing Na+ ions to move IN to cell - depolarisation
if “threshold” is reached around -55mV
more Na+ channels open causing a large influx (movement) of Na+ ions down concentration gradient into cell = action potential - repolarisation
about 40 mV the Na+ channel proteins close and K+ voltage gated channel proteins open and K+ diffuses out of the axon down a electrochemical gradient membrane starts to return to resting state - hyperpolarisation at around -80 mV
K+ channels take time to close so K+ ions continue to diffuse out - causes the membrane potential difference to become more negative than resting potential - resting potential is restored
Na+/K+ pump and K+ channel proteins maintain resting potential around -65mV
2
Q
Define action potential
A
The potential difference across an axon membrane during depolarisation (inside +40mV compared with outside)
3
Q
Define depolarisation
A
Change in neurone membrane permeability causing a change in the distribution of ions (sodium ions enter making membrane potential +40mV)
