Chs 5 and 6 Practice

In patch clamping, individual channels open and close rapidly, unlike the slower behavior in voltage clamp studies.

The conductance of the channels is variable in patch clamping.

The patterns of inward current in voltage clamping are more variable than in patch clamp recordings.

Voltage clamping measures the summed current from all channels across the membrane, while patch clamping only measures current through one channel.

It increases the probability of the gate opening.

 It does not affect the gate.

 It increases the probability of the gate closing.

It decreases the probability of the gate opening.

Smaller axons have more K+ channels, promoting ion leakage.

Smaller axons have lower internal resistance, allowing current to spread farther.

Smaller axons have higher internal resistance, making current spread slower.

Smaller axons do not impact the speed of conduction

By increasing internal resistance

By decreasing internal resistance

By increasing membrane resistance and reducing ion leakage

By decreasing the number of voltage-gated Na+ channels

They contain a high concentration of voltage-gated channels to regenerate the action potential and allow conduction to the next myelinated segment.

They are covered in myelin to speed up action potential conduction.

They primarily function as synaptic sites for neurotransmitter release.

They slow down action potential propagation to prevent overstimulation

A fibers

B fibers

C fibers

D fibers