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Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

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Page 1: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Membrane at Rest

Selectively Permeable Channels

Ion Concentration Differences

Nernst Relationship

Ion Pumps

Page 2: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Reflex Loop: Sensory-to-Motor

Page 3: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Water

Page 4: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Phospholipid Bilayer

Page 5: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Membrane is Impermeable

Page 6: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Channels Allow Ions to Pass

Page 7: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Protein Structure

Page 8: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Ion Channel

Page 9: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Potassium Channel

Page 10: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Potassium Channel Pore

Page 11: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Channels

Page 12: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 13: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 14: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 15: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 16: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 17: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 18: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 19: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 20: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 21: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Ion Concentrations and Nernst Potentials

Page 22: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Nernst Relation

E = 61.54 mV log10 [ion] out/ [ion]in

Lets call it 60 mV

Page 23: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Ion Concentrations and Nernst Potentials

Page 24: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Ion Transporters

Page 25: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 26: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 27: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 28: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Goldman Equation

Vm = 60 log10 Pk[Ko] + PNa[Nao]

Pk[Kin] + PNa[Nain]

Page 29: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps
Page 30: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

Astrocytes Buffer Potassium

Page 31: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

• What two functions do proteins in the neural membrane perform to establish and maintain the resting membrane potential?

• ON which side of the membrane are sodium ions more abundant?

• When the membrane is at the potassium equilibrium potential, in which direction (in or out) is there a net movement of potassium ions?

• There is much greater concentration of potassium ions inside than outside the membrane. Why, then is the resting potential negative?

• When the brain is deprived of oxygen, the mitochondria within neurons cease producing ATP. What effect would this have on the membrane potential? Why?

Questions

Page 32: Membrane at Rest Selectively Permeable Channels Ion Concentration Differences Nernst Relationship Ion Pumps

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