Nervous System: Part 1 By Taylor Barnhill, Julia Bogiages, Bridget Brown, and Ellen Kitsos.

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Presentation transcript:

Nervous System: Part 1 By Taylor Barnhill, Julia Bogiages, Bridget Brown, and Ellen Kitsos

Nervous System Overview Animation

Motor Neuron Structure Dendrites: Input zones where the neuron receives information Nucleus: the powerhouse of the neuron Cell body: Cell membrane containing organelle Trigger Zone: Plasma membrane where protein pumps and gated ion channels are located. Between the cell body and axon. Axon: Conduction zone, pass on signals from the trigger zone Axon endings: the output zone where messages are sent to other cells *Myelin Sheath: fatty substance that wraps around the dendrites c atalyst that enhances rate of action potential and speeds up gate openings

Sodium Potassium Protein Pumps Gradients determine the direction of diffusion. Pumps require ATP to distribute against the gradient. Gradients reverse during an action potential and sodium-potassium pumps correct them. Moves in a 3:2 ration, pumping more potassium ions on the outside. Positive ions entering and leaving, this is why the cell is negative voltage (at resting potential: -70 volts) Sodium Potassium Protein Pump Animation

Gated Ion Channels Protein pumps and channel proteins allow potassium and sodium ions to pass through. Gated ion channels are types of channel proteins, they facilitates diffusion but can close off at a certain voltage. Sodium ions rush in when a certain voltage is reached.

What is Action Potential? -A reversal in voltage differences across the plasma membrane of the neuron (input zone) -Triggered by a strong signal stimulus. -Causes change in ion concentration and a voltage spike (graph peak)

Action Potential Sequence 1) Stimulus hits the input zone 2) Signals spread form input zone into the trigger zone, where many sensitive, volted channels for Na+ ions are present 3) Certain amount of change in voltage difference across plasma membrane is called threshold level and triggers action potential 4) Positively charged Na+ ions flow into the neuron, causing more gates to open, more sodium to enter (positive feedback) 5) Neuron becomes more positive on the inside

Action Potential Sequence Cont. 6) Influx of Na+ ions causes voltage spike 7) Gated Na+ channels close 8) Halfway through the reversal, K+ channels open, causing K+ to flow out 9) This restores original voltage difference across the membrane 10) Na+/K+ pumps restore ion gradients

Sources 1) ri&sa=X&rls=en&biw=1202&bih=629&tbm=isch&tbnid=yq3fWGAwg973GM: &imgrefurl= ZnXJW4QM&imgurl= =500&ei=Mt6XUNzgJtGH0QHOr4GYBA&zoom=1&iact=hc&vpx=155&vpy= 328&dur=984&hovh=190&hovw=266&tx=150&ty=102&sig= &page=1&tbnh=144&tbnw=246&start=0&ndsp=12&ved=1t:429,r: 4,s:0,i:146 2) Starr, Cecie. Biology: The Unity and Diversity of Life. Ninth ed. Pacific Grove: Brooks/Cole, Print. 3)