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Transcript
Nerve Signals 11.2 Nerve Impulses • there are about 100 billion neurons in the human brain • neurons can transmit 10-100 nerve impulses per second Potential Difference • caused by relative concentrations of positive ions (Na+ and K+) on either side of the membrane Neuron Membrane Resting Potential (-70 mV) • inside of cell is more negative (-70 mV) than outside • membrane is “polarized” • Na+/K+ active transport pump establishes resting potential, pumping out 3 Na+ for every 2 K+ in Na+/K+ Pump Action Potential depolarization + repolarization + restoration of resting potential = action potential Depolarization (+40 mV) • stimulus causes depolarization • if threshold potential reached, Na+ channels open • Na+ ions enter, causing rapid depolarization Repolarization (-70+ mV) • Na+ channels shut • K+ channels open • K+ moves out of cell • slow closure of K+ channels causes hyperpolarization Action Potential Animation & Quiz • The dry but informative McGraw-Hill narrated animation & quiz: • http://highered.mcgrawhill.com/sites/0072495855/student_view0/chapter14/ animation__the_nerve_impulse.html Refractory Period • from the peak of an action potential until the membrane reaches resting potential again • a few milliseconds • ensures action potential travels in one direction only All-Or-Nothing • intensity of stimulus is indicated by the frequency of action potentials, not the size • 10-100 action potentials per second • rate of conduction increases with diameter of nerve (up to 25 m/s) Myelinated Axons What happens when the action potential reaches the axon terminals? Chemical Synapse Synaptic Transmission • Ca2+ ions actively pumped out of neurons • action potential in presynaptic neuron causes calcium channels to open • Ca2+ ions flow in and cause synaptic vesicles to fuse with plasma membrane Synaptic Transmission • neurotransmitters released into the synaptic cleft • diffuse across cleft and bind to receptors on postsynaptic cell Neurotransmitters • acetylcholine (excitatory) causes Na+ channels to open in postsynaptic neuron, propagating the action potential • many drugs interfere with action of neurotransmitters Anti-anxiety drugs • depressants such as diazepam (Valium) act by increasing the amount of inhibitory neurotransmitters at synapses Endorphins endorphin = endogenous morphine (http://dictionary.reference.com/browse/endorphin) Animation & Quiz • Quick McGraw-Hill narrated animation with quiz: • http://highered.mcgrawhill.com/sites/0072943696/student_view0/chapter8/animation__ chemical_synapse__quiz_1_.html
