Presentation is loading. Please wait.

Presentation is loading. Please wait.

Details of Depolarization, Repolarization, and the Refractory Period

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Details of Depolarization, Repolarization, and the Refractory Period"— Presentation transcript:

1 Details of Depolarization, Repolarization, and the Refractory Period
The Action Potential Details of Depolarization, Repolarization, and the Refractory Period

2 The Action Potential: Depolarization Phase
What kind of Na+ channels are these and where are they? Ach (At the motor end-plate) What is the magnitude of the voltage change (on graph) required for this cell to generate the all-or-none Action Potential?

3 The Action Potential: Repolarization Phase
When is it possible to generate another Action Potential in this cycle? Explain why.

4 Unidirectional Propagation
Propagation of the action potential only moves in one direction, from the axon hillock to the axon terminals. The region just recovering from an action potential (K+ outflow region) cannot be stimulated by local current flow. During the repolarizing and undershoot phases, the inactivation gates of the Na+ channels are still closed, blocking any Na+ influx even if the activation gates were to open. Why is this important? Refractory Period

Download ppt "Details of Depolarization, Repolarization, and the Refractory Period"

Similar presentations

LECTURE 12 Graded Potentials Action Potential Generation

LECTURE 12 Graded Potentials Action Potential Generation
Copyright © 2009 Pearson Education, Inc. Figure 6.4b Muscle cells.

Copyright © 2009 Pearson Education, Inc. Figure 6.4b Muscle cells.
PHSL - 215 Graded Potential & Action Potential Neuron Nerve Conduction in Myelinated & Unmyelinated Nerve Fiber Synapse Neuromuscular Junction 1.

PHSL Graded Potential & Action Potential Neuron Nerve Conduction in Myelinated & Unmyelinated Nerve Fiber Synapse Neuromuscular Junction 1.
Nerve Cells and Electrical Signaling

Nerve Cells and Electrical Signaling
GRADED POTENTIAL & ACTION POTENTIAL Dr.Mohammed Sharique Ahmed Quadri Assistant prof. Physiology Al Maarefa College.

GRADED POTENTIAL & ACTION POTENTIAL Dr.Mohammed Sharique Ahmed Quadri Assistant prof. Physiology Al Maarefa College.
Gated Ion Channels A. Voltage-gated Na + channels 5. generation of AP dependent only on Na + repolarization is required before another AP can occur K +

Gated Ion Channels A. Voltage-gated Na + channels 5. generation of AP dependent only on Na + repolarization is required before another AP can occur K +
Figure 48.1 Overview of a vertebrate nervous system.

Figure 48.1 Overview of a vertebrate nervous system.
Propagation of the Action Potential The Central Dogma Of Excitable Tissues.

Propagation of the Action Potential The Central Dogma Of Excitable Tissues.
Action potentials of the world Koch: Figure 6.1. Lipid bilayer and ion channel Dayan and Abbott: Figure 5.1.

Action potentials of the world Koch: Figure 6.1. Lipid bilayer and ion channel Dayan and Abbott: Figure 5.1.
The Action Potential.

The Action Potential.
Nervous Systems. What’s actually happening when the brain “learns” new information? 3. I’m too old to learn anything new anymore; I hire people do that.

Nervous Systems. What’s actually happening when the brain “learns” new information? 3. I’m too old to learn anything new anymore; I hire people do that.
Action potentials do/are NOT - Proportional to the stimulus size - Act locally - Attenuate with distance - Spread in both directions - Take place in many.

Action potentials do/are NOT - Proportional to the stimulus size - Act locally - Attenuate with distance - Spread in both directions - Take place in many.
7 December 2014 CHANNELS OF THE NEURON: ACTING ON IMPULSE.

7 December 2014 CHANNELS OF THE NEURON: ACTING ON IMPULSE.
Nervous System Neurophysiology.

Nervous System Neurophysiology.
Excitable Tissues and Resting Membrane Potential Part 2.

Excitable Tissues and Resting Membrane Potential Part 2.
AP Biology Nervous Systems Part 2. Important concepts from previous units: Energy can be associated with charged particles, called ions. Established concentration.

AP Biology Nervous Systems Part 2. Important concepts from previous units: Energy can be associated with charged particles, called ions. Established concentration.
AP Biology Nervous Systems Part 2. Animation 7Yk 7Yk.

AP Biology Nervous Systems Part 2. Animation 7Yk 7Yk.
Chapter 4: The Action Potential 高毓儒 Institute of Physiology, School of Medicine National Yang-Ming University 2826-7086 Neuroscience.

Chapter 4: The Action Potential 高毓儒 Institute of Physiology, School of Medicine National Yang-Ming University Neuroscience.
Nervous System.

Nervous System.
Muscle Tissue. Review Questions: What are the three types of muscle tissue? From which embryonic germ layer are they derived? What are the special characteristics.

Muscle Tissue. Review Questions: What are the three types of muscle tissue? From which embryonic germ layer are they derived? What are the special characteristics.

Similar presentations

Ads by Google