1a Membrane And Action Potenials

Question 1

What is a membrane potential?

Answer 1

The difference between the voltage inside and outside the neurone

Question 2

What is the resting membrane potential?

Answer 2

-70mV

Question 3

When does movement of ions occur?

Answer 3

When the concentration of ions is different across the membrane

Question 4

What are ion channels?

Answer 4

Permeable pores in the membrane which open and close depending on the transmembrane voltage

Question 5

Which are the four main ions involved in mediating membrane potentials?

Answer 5

Na+
Cl-
Ca2+
K+

Question 6

What is equilibrium potential?

Answer 6

The potential at which electrochemical equilibrium has been reached
This prevents the diffusion of ions down the concentration gradient

Question 7

What equation is used to calculate the equilibrium potential?

Answer 7

Nernst Equation

Question 8

What is the Nernst equation?

Answer 8

X2 is intracellular ion concentration
X1 is extracellular ion concentration
z is charge of ion

Question 9

Where is the concentration of sodium ions the highest?

Answer 9

Outside the neurone

Question 10

Where is the concentration of potassium ions the highest?

Answer 10

Inside the neurone

Question 11

Why do membrane potentials not rest at Na/K potentials?

Answer 11

Because the neurone has mixed permeability for both ions

Question 12

What determines how much an ion contributes to membrane potential?

Answer 12

How permeable the membrane is to the ion

Question 13

What does the P in the Goldman-Hodgkin-Katz equation represent?

Answer 13

The permeability/probability of the channel opening
0 is 100% closed and 1 is 100% open

Question 14

How to increase the membrane permeability for a particular ion?

Answer 14

Open the ion hannels

Question 15

What happens when Na+ ion channels are opened?

Answer 15

The membrane potential is shifted in the positive direction (becomes less negative)

Question 16

What happens when K+ ion channels are opened?

Answer 16

Shifts the membrane in the negative direction

Question 17

What is hyperpolarisation?

Answer 17

When the membrane potential becomes more negative than resting potential

Question 18

What is the summation effect?

Answer 18

Excitatory + inhibitory impulses

Question 19

Why do graded potentials decrease with time?

Answer 19

Potential decreases over the length of the axon as charge leaks from the axon

Question 20

What are the 5 stages of an action potential?

Answer 20

1. Resting membrane potential
2. Depolarising stimulus
3. Upstroke
4. Repolarisation
5. After hyperpolarisation

Question 21

Changes in the membrane potential during an action potential are due to what?

Answer 21

Voltage gated ion channels

Question 22

Why is the resting membrane potential for neurones closest to K+ eqm potential?

Answer 22

Because the permeability for potassium is greater than sodium

Question 23

What causes depolarization?

Answer 23

The opening of voltage gated sodium ion channels resulting in an influx of Na+

Question 24

What causes repolarisation?

Answer 24

More K+ ion channels opening and K+ flowing out the neurone, returning the potential to be more negative

Question 25

Are the potassium ion channels open during depolarization?

Answer 25

Yes, however not many

Question 26

What is the relative refractory period?

Answer 26

The period in which a stronger than normal stimulus is required for an action potential to be generated because most VGSCs are inactive

Question 27

What is the absolute refractory period?

Answer 27

Period where the inactivation gate of VGSCs is closed thus a new action potential cannot be generated

Question 28

What happens in stage 1 (resting membrane potential) of an action potential?

Answer 28

Permeability for K+ > Na+
Membrane potential is nearer the equilibrium for K+ (-90mV) than Na+ (+72mV)

Question 29

What happens in stage 2 (depolarising stimulus) of an action potential?

Answer 29

Stimulus moves membrane potential in positive direction towards threshold

Question 30

What happens in stage 3 (upstroke) of an action potential?

Answer 30

Increase in Na+ permeability as VGSCs open quickly
Increase in K+ permeability as VGKCs start to open slowly
Membrane potential moves towards Na+ eqm potential but doesn’t reach it as VGSCs also close quickly

Question 31

What happens in stage 4 (repolarisation) of an action potential?

Answer 31

Decrease in Na+ permeability as VGSCs close
Increase in K+ permeability as VGKCs remain open
Membrane potential moves towards K+ eqm potential

Question 32

What happens in stage 5 (after-hyperpolarisation) of an action potential?

Answer 32

VGKCs are still open
K+ continues to leave cell down gradient
Em moves closer to K+ eqm potential and VGKCs close
Em thus returns to resting potential

Question 33

How is the membrane resting potential restored after hyperpolarisation?

Answer 33

K+ ions are pumped back into the neurone using an Na+K+ active pump which requires ATP

Question 34

During the upstroke phase of an action potential what is the relative permeabilities of sodium and potassium ions?

Answer 34

Higher permeability for Na+, which results in depolarization

Question 35

Why is the membrane more permeable to Na+ during depolarization?

Answer 35

The sodium ion channels open faster than the potassium ones

Question 36

What are the nodes of ranvier?

Answer 36

Small gaps of myelin intermittently places along the axon which the action potential jumps between

Question 37

What is the type of conduction where the action potential jumps between the nodes of ranvier?

Answer 37

Saltatory conduction

Question 38

What does saltatory conduction do to the speed of the action potential conduction?

Answer 38

Increases it

Question 39

What does the myelin sheath do to the action potential?

Answer 39

Prevents it from spreading as it has high resistance

Question 40

What is known by the all of nothing mechanism of action potentials?

Answer 40

An action potential is only triggered if a certain threshold is reached

Question 41

When does further depolarization stop?

Answer 41

Until the voltage gated sodium ion channels become inactive

Question 42

What type of neurones will have a faster decay?

Answer 42

Small unmyelinated neurones as they have a larger resistance

Question 43

What affect does myelin have on the rate of decay?

Answer 43

Slows the rate of decay and increases the distance required for decay along the neurone

Question 44

How does the action potential spread down the neurone?

Answer 44

When sodium enters, it moves a small distance across the inside of the membrane and it’s positive charge depolarizers some more of the membrane, causing more Na+ voltage gated ion channels go opem

Question 45

What is propagation along an unmyelinated neurone called?

Answer 45

Continuous conduction

Question 46

Why is continuous conduction slower than saltatory?

Answer 46

Has to spread the whole length of the axon, no nodes of Ranvier

Question 47

Where are most voltage gated channels located?

Answer 47

At the nodes of ranvier

Question 48

What are the two factors which control the conduction velocity inside a neurone?

Answer 48

Myelination and axon diameter

Question 49

What affect does a high axon diameter have on the conduction speed?

Answer 49

Increases

Question 50

What else decreases the conduction velocity?

Answer 50

Cold, anoxia, compression and some drugs

Question 51

What is an axondendritic synapse

Answer 51

Presynaptic terminal connected to a neuronal dendrite

Question 52

What is an axosomatic synapse

Answer 52

Presynaptic terminal connected to a neuronal soma

Question 53

What is an axoaxonic synapse?

Answer 53

Presynaptic terminal connected to a neuronal axon

Question 54

What is paracrine signaling?

Answer 54

Cell produces a signal to cause changes in nearby cells

Question 55

What is autocrine signaling?

Answer 55

Cell secretes an autocrine agent that binds to autocrine receptors on the same cell to trigger a response

Question 56

What type of signaling is found in the neuromuscular junction?

Answer 56

Paracrine signaling

Question 57

What neurotransmitter is used in the neuromuscular junction?

Answer 57

Acetylcholine

Question 58

Which type of receptors are found on the sarcolemma?

Answer 58

Nicotinic acetylcholine receptors

Question 59

What is botulism?

Answer 59

When botulin toxin causes the ACh to not be released from the vesicles in the pre-synaptic neurone resulting in muscle weakness

Question 60

What is myasthenia gravis?

Answer 60

Antibodies directed against the nAChR on the sarcolemma, therefore ACh is not detected so less muscle movement

Question 61

What is Lambert Eaton syndrome?

Answer 61

When there are antibodies directed against the voltage gated calcium channels, so no influx of Na+ therefore no action potential

Question 62

What structure is involved in Ca2+ ion storage?

Answer 62

Sarcoplasmic reticulum

Question 63

What happens once ACh binds to nACh receptors on the sarcolemma?

Answer 63

This causes an influx of sodium ions which result in an action potential being propagated down into the T tubules

Question 64

What molecule breaks down ACh?

Answer 64

Acetylcholinesterase

Question 65

How is Ca2+ released into the space surrounding the muscle myofibril?

Answer 65

The action potential is propagated down the T-tubules
The dihydropyridine receptor detects the change in membrane potential and changes the shape of the ryanodine receptor which allows Ca2+ influx

Question 66

How is membrane potential measured?

Answer 66

A reference electrode is placed outside the cell, and another is placed inside the cell
The voltage inside and out are measured, and the difference between them is the resting membrane potential

Question 67

What is the definition of flux?

Answer 67

The number of molecules that cross a unit area per unit of time

Question 68

What three things might cause ion channels to open or close?

Answer 68

Transmembrane voltage, presence of activating ligands or mechanical forces

Question 69

What is the Goldman-Hodgkin-Katz (GHK) equation used for?

Answer 69

To estimate membrane potentials when more than one ion is involved

Question 70

What is the resting membrane potential almost entirely due to?

Answer 70

Almost entirely due to movement of K+ ions out of the cell

Question 71

When does an action potential occur from a graded potential?

Answer 71

Action potentials (AP) occur when a graded potential reaches a threshold for the activation (opening) of many Na+ channels

Question 72

What happens to the activation and inactivation gates during the process of repolarisation?

Answer 72

Start of repolarisation – activation gates open, inactivation gates closed
Later – both gates closed

Question 73

What happens during the relative refractory period?

Answer 73

Some Na+ channels have recovered from inactivation – thus the gate is open