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Electrical Excitability of Squid Giant Axons

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Upper Saddle River, NJ: Pearson Prentice Hall, 2005. Guyton, Arthur, and John Hall. Textbook of Medical Physiology. PA: Elsevier, 2006. HODGKIN, A. L., and A. F.HUXLEY. – PowerPoint PPT presentation

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Title: Electrical Excitability of Squid Giant Axons


1
Electrical Excitability of Squid Giant Axons
  • Amir Golnabi
  • ENGS166
  • Spring 2008

2
  • Outlines
  • Resting membrane potential of squid giant axon
  • Propagation of nerve impulses
  • Velocity of nerve conduction in squid axon
  • Conclusion
  • References

3
  • Membrane potential difference of electrical
    charges across a plasma membrane
  • Electrochemical gradients
  • The rate of ions flow through the membrane
    Permeability of ions
  • Excess of negative charge inside and an excess
    of positive charge outside the cell membrane at
    rest resting membrane potential
  • Goldman Equation
  • R gas constant
  • T absolute temperature in kelvins
  • F Faraday constant
  • ion concentration of the ion
  • P permeability

4
  • Squid Giant Axon 500-1000 µm in diameter
  • Human axons merely 2 µm in diameter
  • Relative permeabilities for K, Na, and Cl-
    1.00.040.45
  • 58 mV (at 20ºC)
  • inside and outside concentration of ions
  • Resting membrane potential of large mammalian
    nerve fibers -90 mV 50 more than in squid
    axons

Squid Neuron Cytoplasm concentration Extracellular concentration
Na 50 mM 440 mM
K 400 mM 20 mM
Cl- 51 mM 560 mM
5
  • Propagation or Conduction
  • Nerve impulses must travel from the trigger zone
    to the axon terminals
  • Two types Continuous and Saltatory (figure1)
  • Continuous muscle fibers and unmyelinated axons
    ? Relatively short distance propagation and a
    steady flow along the membrane
  • Saltatory discontinuous myelin sheaths that act
    as an electrical insulation. Action potential can
    be generated only at nodes of Ranvier ? Faster
    propagation

http//omlc.ogi.edu/spectra/hemoglobin/hemestruct/
heme-struct.gif
6
  • Velocity of nerve conduction based on the cable
    properties of the nerve fibers
  • V conduction velocity
  • d diameter of the axon
  • R resistance of axoplasm
  • C capacity per unit area of the membrane.
  • K constant which depends only on properties of
    the membrane

Hodgkin and Huxley
d 0.1 cm R 35.4 O in temperature 18.5 ºC C
1.0 µF/cm2 K 10.47 1/msec If d20 µm like
the largest axon in our body
7
  • Velocity of nerve conduction based on the cable
    properties of the nerve fibers (cont.)
  • Other important factors in conduction velocity
  • Temperature
  • Resistance of axoplasm
  • Capacity per unit area of the membrane
  • Squid
  • Life in the ocean, prayed on by fish and whales
  • Giant axons ability to make very fast movements
    through the water

8
  • References
  • Becker, Wayne, Lewis Kleinsmith, and Jeff Hardin.
    The World of the Cell. San Francisco Benjamin
    Cummings, 2002.
  • Freeman, Scott. Biological Science. Upper Saddle
    River, NJ Pearson Prentice Hall, 2005.
  • Guyton, Arthur, and John Hall. Textbook of
    Medical Physiology. PA Elsevier, 2006.
  • HODGKIN, A. L., and A. F.HUXLEY. "A Quantitative
    Description of Membrane Current and Its
    Application and Excitation In Nerve." 117(1952)
    500-544.
  • Matsumoto, Gen, and Ichiji Tasaki. "A study of
    conduction velocity in nonmyelinated nerve
    fibers." 20(1977).
  • "Squid giant axon". Wikipedia. April 2008
    lthttp//en.wikipedia.org/wiki/Squid_giant_axongt.
  • Tortora, Gerard, and Bryan Derrickson. Principles
    of Anatomy and Physiology. Wiley, 2006.
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