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Biology_Alevel_Ocr

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  1. 4-1-communicable-diseases-disease-prevention-and-the-immune-system
    16 主题
  2. 4-2-biodiversity
    10 主题
  3. 4-3-classification-and-evolution
    15 主题
  4. 5-1-communication-and-homeostasis
    4 主题
  5. 5-2-excretion
    10 主题
  6. 5-3-neuronal-communication
    9 主题
  7. 5-4-hormonal-communication
    4 主题
  8. 5-5-plant-and-animal-responses
    16 主题
  9. 5-6-photosynthesis
    10 主题
  10. 5-7-respiration
    14 主题
  11. 6-1-cellular-control
    7 主题
  12. 6-2-patterns-of-inheritance
    13 主题
  13. 6-3-manipulating-genomes
    11 主题
  14. 6-4-cloning-and-biotechnology
    14 主题
  15. 6-5-ecosystems
    7 主题
  16. 6-6-populations-and-sustainability
    6 主题
  17. 1-1-practical-skills-written-assessment
    7 主题
  18. 1-2-practical-skills-endorsement-assessment
    16 主题
  19. 2-1-cell-structure
    9 主题
  20. 2-2-biological-molecules
    17 主题
  21. 2-3-nucleotides-and-nucleic-acids
    8 主题
  22. 2-4-enzymes
    9 主题
  23. 2-5-biological-membranes
    9 主题
  24. 2-6-cell-division-cell-diversity-and-cellular-organisation
    11 主题
  25. 3-1-exchange-surfaces
    7 主题
  26. 3-2-transport-in-animals
    12 主题
  27. 3-3-transport-in-plants
    11 主题
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Resting Potentials

  • Neurones transmit electrical impulses, which travel rapidly along the neurone cell surface membrane from one end of the neurone to the other

  • In a resting axon (one that is not transmitting impulses), the inside of the axon always has a negative electrical potential compared to the outside of the axon

    • This is called the resting potential

  • This potential difference (when there are no impulses) is usually about -70mV

    • The inside of the axon has an electrical potential about 70mV lower than the outside

  • Two factors contribute to establishing and maintaining the resting potential:

    • The active transport of sodium ions and potassium ions

    • Differential membrane permeability

The active transport of sodium ions and potassium ions

  • Carrier proteins called sodium-potassium pumps are present in the membranes of neurones

  • These pumps use ATP to actively transport 3 sodium ions out of the axon for every 2 potassium ions that they actively transport in

  • This means that there is a larger concentration of positive ions outside the axon than there are inside the axon

  • The movement of ions via the sodium-potassium pumps establishes an electrochemical gradient

A differential membrane permeability

  • The cell-surface membrane of neurones has selective protein channels that allow sodium and potassium ions to move across the membrane by facilitated diffusion

  • The protein channels are less permeable to sodium ions than potassium ions

  • This means that potassium ions can diffuse back down their concentration gradient, out of the axon, at a faster rate than sodium ions

Diagram of sodium-potassium pump in an axon showing ion movement. Na⁺ ions are pumped out, K⁺ ions are pumped in. Inside is negatively charged.
The resting potential is maintained by the net movement of positively charged ions out of the axon

Examiner Tips and Tricks

Remember that the resting potential is maintained by a sodium-potassium pump which requires ATP energy from respiration in order to actively pump sodium and potassium across the membrane.