Membrane Potential Flashcards
Qualitatively compare Na+ and K+ concentration intracellularly vs extracellularly
Na+ concentration is far greater extracellularly while K+ is far greater intracellularly
Qualitatively compare Ca2+ concentration intracellularly vs extracellularly
Far higher concentration extracellularly
Describe the measurement of membrane potential
Using intracellular microelectrodes and comparing it with the extracellular voltage
What creates membrane potential (Vm)
Difference of electric charges
e.g. -70mV intracellularly, 0mV out creates a -70mV Vm
What factors affect ion movement across the plasma membrane
Concentration gradient, Voltage
How does voltage affect ion movement
Cations are attracted to move in the direction of negative voltages and anions are attracted to positive voltages
Diffusion Potential
Voltage at which the electrostatic force on an ion is equal and opposite to the chemical force from the concentration gradient
It is a steady state of electrochemical equilibrium - no net force/net ion flow, change in ion concentration or Vm
How do Na+ and K+ move across membranes
Facilitated Diffusion
Notation of K+’s diffusion potential
EK (Nernst Potential)
Nernst Equation
EK(i-o)=61Log10([K+]o/[K+]i)
Used to calculate diffusion potential to maintain a certain concentration gradient/difference
Voltage when cell membrane is solely permeable to K+
Vm=EK
Example of a membrane potential which is Nernstian in behaviour (well described by Nernst equation)
Some types of skeletal muscle
How is a steady Vm reached in terms of Na+ and K+ movement
When Na+ influx is equal and opposite to efflux of K+, no net movement of electrical charge occurs, steady Vm reached
How does a plasma membrane’s permeability to Na+ affect its voltage
The greater the Na+ permeability, the more positive Vm becomes
Which ions have equilibrium with Vm = -90 mV
K+ and Cl- as their Nernst Potentials are -90mV
Discuss the transfer of K+ ions across a membrane when the intracellular voltage is negative
