Resting Membrane Potential

Question 1

What is membrane potential?

Answer 1

Electrical potential (voltage) difference across plasma membrane

Basis of signalling (esp CNS)

Question 2

How do you measure membrane potential?

Answer 2

• Microelectrode (fine glass pipette)
• Filled with conducting solution (KCl)
• Penetrates cell membrane to measure resting membrane potential when connected to a voltmeter

Question 3

How is a membrane potential expressed?

Answer 3

Potential inside the cell relative to the extracellular solution

Question 4

Resting membrane potential cardiac myocyte?

Answer 4

-80 mV (millivolts)

Question 5

RMP neurones?

Answer 5

-70 mV

Question 6

RMP skeletal muscle?

Answer 6

-90 mV

Question 7

RMP smooth muscle myocytes?

Answer 7

-50 mV

Question 8

How is selective permeability achieved in cell membrane?

Answer 8

1) Phospholipid bilayer

• Hydrophobic interior
• Permeable to small uncharged molecules (O2 , CO2)
• Very impermeable to charged molecules (ions)

2) Ion channels (proteins that have an aqueous pore that allows ions to diffuse through)

Properties of ion channel:
- selectivity - for one/few ion species
- gating - pore opens or closes by conformational change in the protein
- rapid ion flow - always down the electrochemical gradient

Question 9

How do potassium ions exit the cell?

Answer 9

• K+ ions leak through their channels to the extracellular space

Question 10

How does the resting membrane potential arise?

Answer 10

• At rest, membrane is selectively permeable to K+ (open K+ channels)
• K+ ions will diffuse down their chemical diffusion gradient (leak) , out of the cell until the chemical gradient is at equilibrium with the electrical gradient.
• At this membrane potential, there is no net movement of ions (electrochemical gradient is zero), but there will be a negative membrane potential left inside the cell (-95mV)
• The negative membrane potential begins to oppose the further movement of K+ ions outward

This negative membrane potential arises because:

• Anions cannot follow, so are left inside the cell
• Cell interior becomes negatively charged

Question 11

What is equilibrium potential?

Answer 11

The membrane potential at which electrical and chemical gradients balance (so the electrochemical gradient is zero) and there is no net movement of ions across the membrane.

Question 12

Equation for calculating equilibrium potential

Answer 12

Nernst equation

Question 13

What do you have to know to calculate equilibrium using Nernst equation?

Answer 13

• Extracellular and intracellular concentrations
• z = Valency (+1 for K+, Na+ = +1; Ca2+= +2; Cl- = -1)

Question 14

What calculation do you need to do in order to use the Nernst equation?

Answer 14

z in equation = valency

Question 15

What occurs if membrane is selectively permeable to that ion alone?

Answer 15

Its membrane potential would be the equilibrium potential

Question 16

In the real cell, is the resting potential for potassium equal to the equilibrium potential? Why/why not?

Answer 16

• No
• It is less negative than the equilibrium potential
• Because the membrane is not perfectly selective for K+
• Some ions leak across the membrane

Question 17

What channels dominate resting membrane? So what does this mean

Answer 17

Open K+ channels
so the resting membrane potential is close to the Ek

Question 18

What occurs if Na+ and Ca2+ leak in?

Answer 18

Diminish the size of the -ve potential within the cell

(ie it can change from around -95 to -70)

Depolarise membrane

Question 19

Cardiac muscle and nerve cells channels:

1) What are their resting membrane potentials?
2)Describe the resting membrane in relation to Equilibrium potential of potassium

Answer 19

-80/-70 mV

• Resting potential is quite close to EK
• Not exactly at EK (less negative): membrane not perfectly selective for K+

Question 20

Cells with more +ve resting potentials:

a) Give an example, and state the RMP
2)Describe the resting membrane in relation to Equilibrium potential of potassium

Answer 20

Smooth muscle cells (-50mV)

Lower sensitivity for K+ as increased contribution from other channels

Question 21

Skeletal muscle channels

Answer 21

Many Cl- and K+ channels open in the resting membrane

Resting potential -90mV - very close to equilibrium potential of both Cl- and K+

Question 22

What is the effect of chloride coming into the cell? What kind of cell does this occur in?

Answer 22

• Increases the size of the negative charge of the membrane
• Ie skeletal muscle because these cells have chloride ion channels

Question 23

What is the range for membrane potentials?

Answer 23

-10 to -100 mV

Question 24

Name a human disease that results from abnormalities of resting membrane potential

Answer 24

cardiac arrhythmia

Question 25

Depending on which types of channels are open, the resting membrane can be selectively permeable to certain ion types.

Which ions are involved?

Answer 25

• Na+
• K+
• Cl-
• Ca2+

Question 26

Which ions are found in greater concentrations inside cells?

Answer 26

• K+ ions
• Anions (-ve)

Question 27

Which ions are found in greater concentrations outside of cells?

Answer 27

• Cl- ions
• Na+ ions
• Ca2+ ions

Question 28

How does the sodium potassium ATPase pump contribute to the RMP?

Answer 28

• Contributes to the generation of the RMP (only -5 to 10 mV)
• Main role is maintaining the RMP

Question 29

Calculate the equilibrium potentials of a few of these

Answer 29

Question 30

What do all cells have?

Answer 30

• A membrane potential

Question 31

What does the RMP act as in the body?

Answer 31

• Basis of signalling, especially in the CNS
• Immediate energy source for transport of ions and small molecules

Question 32

Name some excitable and non excitable tissues

Answer 32

Excitable:
- Skeletal muscle myocytes
- Cardiac myocytes
- Neurones

Non-Excitable:
- Smooth muscle (non-excitable even though its muscle)

Question 33

Ask discussion board how exactly ‘Describe how Na+/K+ ATPase maintains Ion Gradients set up by the Cell.’ - Exactly how - all the workbook says is that it is described as being electrogenic: depositing 3 Na+ outside the cell for every 2 K+ carried into the cell, but that is about its contribution to the membrane potential. - Make flashcard when done

ALSO, when things are far from The ek of potassium, e.g smooth muscle cells, is it just because at rest, there are sodium and calcium ion channels opens, or is it because they leak through potassium channels

Question 34

What equation calculates the resting membrane potential?

Answer 34

GHK equation (Goldman–Hodgkin–Katz)

Question 35

What can the GHK equation be used to do?

Answer 35

• can be used to derive a model of ion conductances to calculate the RMP