Which statement is true for the propagation of the action potential? (Any number of right answers is possible. Mark right answers with the green tick and wrong ones with the red cross.) There are no voltage-gated Na" channels below the myelin sheath, thereby the stimulus propagates saltatory, resulting in a larger propagation velocity. Due to the inactive state of Na' channels following their open state, the action potential propagates in a given direction and cannot return. BO It is responsible for the short-distance conduction of the stimulus. Since Na channels have two states (open and closed), the action potential propagates in a given direction and cannot return.
Which statement is true for the propagation of the action potential? (Any number of right answers is possible. Mark right answers with the green tick and wrong ones with the red cross.) There are no voltage-gated Na" channels below the myelin sheath, thereby the stimulus propagates saltatory, resulting in a larger propagation velocity. Due to the inactive state of Na' channels following their open state, the action potential propagates in a given direction and cannot return. BO It is responsible for the short-distance conduction of the stimulus. Since Na channels have two states (open and closed), the action potential propagates in a given direction and cannot return.
Related questions
Question
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps