Mod2-Obj3: Resting membrane potential Flashcards
Resting membrane potential
The voltage (potential energy) across the plasma membrane, due to the separation of oppositely charged ions
Resting membrane potential is generated by…
Differences in Na+ and K+ concentration between the ECF and ICF
Resting membrane potential is maintained by…
Active transport using the Na+/K+ ATPase pump
Generation of resting membrane potential
Na+ and K+ generate the membrane potential
- ECF rich in Na+
- ICF rich in K+
Na+ and K+ want to move down concentration gradient
- Leakage channels for Na+ and K+
- More K+ leakage channels
More positive ions leaking our
Inside of plasma membrane negatively charged compared to outside
Maintenance of resting potential
The Na+/K+ pump counteracts the diffusion Na+ and K+ through the leakage channels
Maintenance of resting potential: The Na+/K+ pump
- Pumps 3 Na+ ions out
- Pumps 2 K+ ions in
- Maintains resting potential through exchange of ions
Maintenance of resting potential: Active transport
- Against concentration gradient
- Required ATP
Resting membrane potential summed
Interior slightly negative compared to outside
-Membrane potential
Unequal charge across the plasma membrane
-Resting potential averages 50mV to 100mV
The Na+–K+ Pump: 6 STEPS
- ) Three cytoplasmic Na+ bind to pump protein
- ) Na+ binding promotes hydrolysis of ATP. The energy released during this reaction phosphorylates the pump
- ) Phosphorylation causes the pump to change shape, expelling Na+ to the outside
- ) Two extracellular K+ bind to pump
- ) K+ binding triggers release of the phosphate. The dephosphorylated pump resumes its original conformation
- ) Pump protein binds ATP; releases K+ to the inside, and Na+ sites are ready to bind Na+ again. The cycle repeats
