[Illinois] Phys550 Lecture 14: Physics of the Neuron II

By Klaus Schulten

University of Illinois at Urbana-Champaign

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Abstract


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Researchers should cite this work as follows:

  • Klaus Schulten (2013), "[Illinois] Phys550 Lecture 14: Physics of the Neuron II," http://nanohub.org/resources/19654.

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University of Illinois at Urbana-Champaign, Urbana, IL

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University of Illinois at Urbana-Champaign

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[Illinois] Phys550 Lecture 14: Physics of the Neuron II
  • Slide 1: Voltage-gated Cation Channels: Electric Signaling 1. Slide 1: Voltage-gated Cation … 0
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  • Slide 2: Hodgkin and Huxley Model 2. Slide 2: Hodgkin and Huxley Mo… 698.346169114728
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  • Slide 3: Kv Channel Architecture 3. Slide 3: Kv Channel Architectu… 807.75875303516875
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  • Slide 4: Voltage Gated Porassium Channel 4. Slide 4: Voltage Gated Porassi… 1005.6075820474661
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  • Slide 5: K+ Conduction Pore 5. Slide 5: K+ Conduction Pore 1040.6897992219524
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  • Slide 6: Ion Conduction Through Selectivity Filter 6. Slide 6: Ion Conduction Throug… 1393.7433487376309
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  • Slide 7: Schematic View of the Gating Process in Kv Channels 7. Slide 7: Schematic View of the… 1420.6438474191273
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  • Slide 8: Voltage Sensor Domains (VSD) 8. Slide 8: Voltage Sensor Domain… 1429.8172893658127
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  • Slide 9: Comparison of Open and Closed States 9. Slide 9: Comparison of Open an… 1538.534972977207
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  • Slide 10: Transmembrane Potential 10. Slide 10: Transmembrane Potent… 1600.6416542649015
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  • Slide 11: Voltage Sensitive Sodium Channel 11. Slide 11: Voltage Sensitive So… 1811.3828881752434
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