Multiple Choice
The "cell-attached" patch clamp technique
A) allows the experimenter to easily change the solution bathing the inside surface of the membrane patch during the recording and study the activity of single voltage-gated channel currents.
B) allows the experimenter to easily change the solution bathing the outside surface of the membrane patch during the recording and study the activity of single voltage-gated channel currents.
C) does not allow the experimenter to change the solution on either side of the membrane patch, but you can study the activity of single voltage-gated currents.
D) allows the experimenter to easily change the solution bathing the inside surface of the membrane patch during the recording and study the summed activity of all voltage-gated channels in the cell (macroscopic current) .
E) allows the experimenter to easily change the solution bathing the outside surface of the membrane patch during the recording and study the summed activity of all voltage-gated channels in the cell (macroscopic current) .
Correct Answer:
Verified
Correct Answer:
Verified
Q17: What is the diameter of the tip
Q18: Define and explain the equilibrium potential for
Q19: When using patch clamp recording, what is
Q20: Driving force on a specific ion is<br>A)
Q21: Why is a high resistance seal (a
Q23: The conductance of a channel depends on
Q24: The equilibrium potential depends on<br>A) the open
Q25: What is the diameter of the tip
Q26: Hyperpolarization occurs when the membrane potential<br>A) does
Q27: Conductance characteristics of a channel can be