Presentation is loading. Please wait.

Presentation is loading. Please wait.

AP Biology Nervous Systems Part 2.

Published byHartono Jayadi Modified over 5 years ago

Similar presentations

Presentation on theme: "AP Biology Nervous Systems Part 2."— Presentation transcript:

1 AP Biology Nervous Systems Part 2

2 Membrane Potential and ion concentrations
CYTOSOL EXTRACELLULAR FLUID [Na+] 15 mM [Na+] 150 mM [K+] 150 mM [K+] 5 mM [Cl–] 120 mM [Cl–] 10 mM [A–] 100 mM Plasma membrane

3 Na+/K+ pumps Cytoplasmic Na+ bonds to the sodium-potassium pump
EXTRACELLULAR FLUID [Na+] high [K+] low Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ [Na+] low [K+] high ATP P Na+ P CYTOPLASM ADP Cytoplasmic Na+ bonds to the sodium-potassium pump Na+ binding stimulates phosphorylation by ATP. Phosphorylation causes the protein to change its conformation, expelling Na+ to the outside. K+ K+ K+ K+ K+ P P K+ Extracellular K+ binds to the protein, triggering release of the phosphate group. Loss of the phosphate restores the protein’s original conformation. K+ is released and Na+ sites are receptive again; the cycle repeats.

4 Stronger depolarizing stimulus
Resting Potential Stimuli Stimuli Stronger depolarizing stimulus +50 +50 +50 Action potential Membrane potential (mV) Membrane potential (mV) Membrane potential (mV) –50 Threshold –50 Threshold –50 Threshold Resting potential Resting potential Resting potential Hyperpolarizations Depolarizations –100 –100 –100 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 6 Time (msec) Time (msec) Time (msec) Graded potential hyperpolarizations Graded potential depolarizations Action potential

5 Impulse generation Na+ Na+ Na+ Na+ K+
Rising phase of the action potential K+ Falling phase of the action potential +50 Action potential Na+ Na+ Membrane potential (mV) –50 Threshold K+ Resting potential –100 Depolarization Time Na+ Na+ Extracellular fluid Potassium channel Activation gates Na+ K+ Plasma membrane Undershoot Cytosol Sodium channel K+ Inactivation gate Resting state

6 Propagation Axon Action potential
An action potential is generated as Na+ flows inward across the membrane at one location. Action potential K+ Na+ K+ The depolarization of the action potential spreads to the neighboring region of the membrane, re-initiating the action potential there. To the left of this region, the membrane is repolarizing as K+ flows outward. Action potential K+ Na+ K+ The depolarization-repolarization process is repeated in the next region of the membrane. In this way, local currents of ions across the plasma membrane cause the action potential to be propagated along the length of the axon.

7 Saltatory Conduction Schwann cell Depolarized region (node of Ranvier)
Cell body Myelin sheath Axon

8 Reflex Arc

Download ppt "AP Biology Nervous Systems Part 2."

Similar presentations

Topic 6.5 - Nerves.

Topic Nerves.
Figure 48.1 Overview of a vertebrate nervous system.

Figure 48.1 Overview of a vertebrate nervous system.
The Action Potential.

The Action Potential.
Nervous System All animals must respond to environmental stimuli

Nervous System All animals must respond to environmental stimuli
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.
Nervous systems. Keywords (reading p. 960-976) Nervous system functions Structure of a neuron Sensory, motor, inter- neurons Membrane potential Sodium.

Nervous systems. Keywords (reading p ) Nervous system functions Structure of a neuron Sensory, motor, inter- neurons Membrane potential Sodium.
Nervous System Neurophysiology.

Nervous System Neurophysiology.
Defining of “physiology” notion

Defining of “physiology” notion
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.
Physiology as the science. Defining of “physiology” notion Physiology is the science about the regularities of organisms‘ vital activity in connection.

Physiology as the science. Defining of “physiology” notion Physiology is the science about the regularities of organisms‘ vital activity in connection.
Chapter 48 Neurons, Synapses, and Signaling. Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Overview: Lines of Communication.

Chapter 48 Neurons, Synapses, and Signaling. Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Overview: Lines of Communication.
Nervous System: Part II How A Neuron Works. Animals have nervous systems that detect external and internal signals, transmit and integrate information,

Nervous System: Part II How A Neuron Works. Animals have nervous systems that detect external and internal signals, transmit and integrate information,
Physiology as the science. Bioelectrical phenomena in nerve cells

Physiology as the science. Bioelectrical phenomena in nerve cells
Neuron organization and structure reflect function in information transfer The squid possesses extremely large nerve cells and is a good model for studying.

Neuron organization and structure reflect function in information transfer The squid possesses extremely large nerve cells and is a good model for studying.
P. Ch 48 – Nervous System pt 1.

P. Ch 48 – Nervous System pt 1.
Bioelectrical phenomena in nervous cells. Measurement of the membrane potential of the nerve fiber using a microelectrode membrane potential membrane.

Bioelectrical phenomena in nervous cells. Measurement of the membrane potential of the nerve fiber using a microelectrode membrane potential membrane.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Ch 48 – Neurons, Synapses, and Signaling Neurons transfer information.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Ch 48 – Neurons, Synapses, and Signaling Neurons transfer information.
Structures and Processes of the Nervous System – Part 2

Structures and Processes of the Nervous System – Part 2
6.5 Neurons & Synapses. Structure of the Human Nervous System Composed of cells called neurons that carry rapid electrical impulses.

6.5 Neurons & Synapses. Structure of the Human Nervous System Composed of cells called neurons that carry rapid electrical impulses.

Similar presentations

Ads by Google