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Biology_A-level_Cie

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  1. 1-1-the-microscope-in-cell-studies
    5 主题
  2. 1-2-cells-as-the-basic-units-of-living-organisms
    5 主题
  3. 2-1-testing-for-biological-molecules
    3 主题
  4. 2-2-carbohydrates-and-lipids
    8 主题
  5. 2-3-proteins
    6 主题
  6. 2-4-water
    2 主题
  7. 3-1-mode-of-action-of-enzymes
    5 主题
  8. 3-2-factors-that-affect-enzyme-action
    8 主题
  9. 4-1-fluid-mosaic-membranes
    4 主题
  10. 4-2-movement-into-and-out-of-cells
    12 主题
  11. 5-1-replication-and-division-of-nuclei-and-cells
    6 主题
  12. 5-2-chromosome-behaviour-in-mitosis
    2 主题
  13. 6-1-structure-of-nucleic-acids-and-replication-of-dna
    4 主题
  14. 6-2-protein-synthesis
    5 主题
  15. 7-1-structure-of-transport-tissues
    4 主题
  16. 7-2-transport-mechanisms
    7 主题
  17. 8-1-the-circulatory-system
    7 主题
  18. 8-2-transport-of-oxygen-and-carbon-dioxide
    5 主题
  19. 8-3-the-heart
    4 主题
  20. 9-1-the-gas-exchange-system
    6 主题
  21. 10-1-infectious-diseases
    3 主题
  22. 10-2-antibiotics
    3 主题
  23. 11-1-the-immune-system
    4 主题
  24. 11-2-antibodies-and-vaccination
    6 主题
  25. 12-1-energy
    5 主题
  26. 12-2-respiration
    11 主题
  27. 13-1-photosynthesis-as-an-energy-transfer-process
    8 主题
  28. 13-2-investigation-of-limiting-factors
    2 主题
  29. 14-1-homeostasis-in-mammals
    8 主题
  30. 14-2-homeostasis-in-plants
    3 主题
  31. 15-1-control-and-coordination-in-mammals
    12 主题
  32. 15-2-control-and-coordination-in-plants
    3 主题
  33. 16-1-passage-of-information-from-parents-to-offspring
    5 主题
  34. 16-2-the-roles-of-genes-in-determining-the-phenotype
    7 主题
  35. 16-3-gene-control
    3 主题
  36. 17-1-variation
    4 主题
  37. 17-2-natural-and-artificial-selection
    7 主题
  38. 17-3-evolution
    2 主题
  39. 18-1-classification
    5 主题
  40. 18-2-biodiversity
    7 主题
  41. 18-3-conservation
    6 主题
  42. 19-1-principles-of-genetic-technology
    11 主题
  43. 19-2-genetic-technology-applied-to-medicine
    4 主题
  44. 19-3-genetically-modified-organisms-in-agriculture
    2 主题
  45. 1-1-the-microscope-in-cell-studies
  46. 1-2-cells-as-the-basic-units-of-living-organisms
  47. 2-1-testing-for-biological-molecules
  48. 2-2-carbohydrates-and-lipids
  49. 2-3-proteins
  50. 2-4-water
  51. 3-1-mode-of-action-of-enzymes
  52. 3-2-factors-that-affect-enzyme-action
  53. 4-1-fluid-mosaic-membranes
  54. 4-2-movement-into-and-out-of-cells
  55. 5-1-replication-and-division-of-nuclei-and-cells
  56. 5-2-chromosome-behaviour-in-mitosis
  57. 6-1-structure-of-nucleic-acids-and-replication-of-dna
  58. 6-2-protein-synthesis
  59. 7-1-structure-of-transport-tissues
  60. 7-2-transport-mechanisms
  61. 8-1-the-circulatory-system
  62. 8-2-transport-of-oxygen-and-carbon-dioxide
  63. 8-3-the-heart
  64. 9-1-the-gas-exchange-system
  65. 10-1-infectious-diseases
  66. 10-2-antibiotics
  67. 11-1-the-immune-system
  68. 11-2-antibodies-and-vaccination
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Phospholipids, cholesterol, glycolipids, proteins & glycoproteins

  • The cell membranes of all organisms generally have a similar structure

  • Cell membranes contain several different types of molecules:

    • Three types of lipid:

      • Phospholipids

      • Cholesterol

      • Glycolipids (also containing carbohydrates)

    • Two types of proteins:

      • Glycoproteins (also containing carbohydrates)

      • Other proteins (e.g., transport proteins)

  • Phospholipids:

    • Form a bilayer (two layers of phospholipid molecules)

    • Hydrophobic tails (fatty acid chains) point in towards the membrane interior

    • Hydrophilic heads (phosphate groups) point out towards the membrane surface

    • Individual phospholipid molecules can move around within their own monolayers by diffusion

  • Cholesterol:

    • Cholesterol molecules also have hydrophobic tails and hydrophilic heads

    • Cholesterol fits between phospholipid molecules and orientated the same way (head out, tail in)

    • It is only found in eukaryotic membranes; it is absent in prokaryotes membranes

Chemical structure diagram with highlighted hydrophobic (nonpolar) and hydrophilic (polar) regions, indicating molecular polarity.
The structure of cholesterol shows that it has a hydrophilic region (the -OH group) and a hydrophobic region (a hydrocarbon chain). This gives the molecule a dual character that allows it to fit inside a phospholipid bilayer.

  • Glycolipids:

    • These are lipids with carbohydrate chains attached

    • These carbohydrate chains project out into whatever fluid is surrounding the cell (they are found on the outer phospholipid monolayer)

  • Glycoproteins:

    • These are proteins with carbohydrate chains attached

    • These carbohydrate chains also project out into whatever fluid is surrounding the cell (they are found on the outer phospholipid monolayer)

  • Proteins:

    • The proteins embedded within the membrane are known as intrinsic proteins (or integral proteins)

    • They can be located in the inner or outer phospholipid monolayer

    • Most commonly, they span the entire membrane – these are known as transmembrane proteins

    • Transport proteins are an example of transmembrane proteins as they cross the whole membrane

    • Proteins can also be found on the inner or outer surface of the membrane, these are known as extrinsic proteins (or peripheral proteins)

Diagram of a cell membrane showing labelled components: glycolipid, glycoprotein, phospholipid, cholesterol, transport protein, and transmembrane ligand receptor.
Membrane proteins (shown in light blue) can span the whole membrane (intrinsic) or just occupy one side of it (extrinsic).

Examiner Tips and Tricks

Make sure you can draw and label all the above structures on a diagram of the fluid mosaic model of cell membranes. You also need to be able to state the functions of the structures. 

2. and 3. Sketch of fluid mosaic model labelled, downloadable AS & A Level Biology revision notes