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Exam (elaborations)

Exam (elaborations) Medicine - Membrane Permeability

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1. What is the voltage clamp method? Answer: The voltage clamp method allows characterization of permeability changes as a function of membrane potential and time. Textbook Reference: Ion Currents across Nerve Cell Membranes 2. Explain how Hodgkin and Huxley used the voltage clamp method to sh...

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  • April 27, 2022
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  • 2021/2022
  • Exam (elaborations)
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Membrane Permeability
Questions & Short Answer
1. What is the voltage clamp method?

Answer: The voltage clamp method allows characterization of permeability changes as a function of
membrane potential and time.

Textbook Reference: Ion Currents across Nerve Cell Membranes



2. Explain how Hodgkin and Huxley used the voltage clamp method to show that changes in
permeability to Na+ and K+ underlie the action potential.

Answer: Using the giant axon of a squid, they showed that depolarization is followed by transient
inward current and lasting outward current. This inward current does not flow if the membrane
potential is clamped at +52 mV, the equilibrium potential for Na+, indicating that it is attributable to Na+
permeability. They also removed Na+ from the extracellular medium and found that this reverses the
polarity of the early Na+ current but has no effect on the delayed lasting current. Using radioactive K+,
they confirmed the involvement of K+ in the delayed current.

Textbook Reference: Ion Currents across Nerve Cell Membranes



3. Which way does current flow across the membrane during: a) the rising phase, and b) the falling
phase of the action potential?

Answer:

a) Inward

b) Outward

Textbook Reference: Two Types of Voltage-Dependent Ion Currents



4. Suppose you are recording action potentials from a neuron. How will the action potential be
affected if you remove: a) Na+, or b) K + from the external medium?

Answer:

a) It will be suppressed; the rising phase will not occur.

b) It will be more difficult to trigger because the resting potential of the neuron will become even more
negative.

Textbook Reference: Two Types of Voltage-Dependent Ion Currents

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