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Membrane Molecular Structure and Cellular Communication: A Comprehensive Guide

Explore the intricate molecular structure of cell membranes and the mechanisms of cellular communication. Understand how proteins facilitate diffusion and active transport, and how osmosis shapes cell functions. Delve into receptor-mediated endocytosis and chemical signaling concepts for a holistic view of cellular processes.

guthrie-hynes
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Membrane Molecular Structure and Cellular Communication: A Comprehensive Guide

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  1. Chapter 5 Opener

  2. Figure 5.1 Membrane Molecular Structure

  3. Figure 5.1 Membrane Molecular Structure

  4. In-Text Art, Ch. 5, p. 80

  5. Apply the Concept, Ch. 5, p. 80

  6. In-Text Art, Ch. 5, p. 81

  7. In-Text Art, Ch. 5, p. 81

  8. In-Text Art, Ch. 5, p. 82

  9. In-Text Art, Ch. 5, p. 82

  10. Figure 5.2 Rapid Diffusion of Membrane Proteins

  11. Figure 5.2 Rapid Diffusion of Membrane Proteins

  12. Figure 5.2 Rapid Diffusion of Membrane Proteins (Part 1)

  13. Figure 5.2 Rapid Diffusion of Membrane Proteins (Part 2)

  14. Figure 5.2 Rapid Diffusion of Membrane Proteins (Part 3)

  15. In-Text Art, Ch. 5, p. 83

  16. Figure 5.3 Osmosis Can Modify the Shapes of Cells

  17. Figure 5.3 Osmosis Can Modify the Shapes of Cells

  18. Figure 5.3 Osmosis Can Modify the Shapes of Cells (Part 1)

  19. Figure 5.3 Osmosis Can Modify the Shapes of Cells (Part 2)

  20. Figure 5.3 Osmosis Can Modify the Shapes of Cells (Part 3)

  21. Figure 5.4 A Ligand-Gated Channel Protein Opens in Response to a Stimulus

  22. Figure 5.4 A Ligand-Gated Channel Protein Opens in Response to a Stimulus

  23. Figure 5.5 Aquaporins Increase Membrane Permeability to Water

  24. Figure 5.5 Aquaporins Increase Membrane Permeability to Water

  25. Figure 5.5 Aquaporins Increase Membrane Permeability to Water (Part 1)

  26. Figure 5.5 Aquaporins Increase Membrane Permeability to Water (Part 2)

  27. Figure 5.5 Aquaporins Increase Membrane Permeability to Water (Part 3)

  28. Figure 5.6 A Carrier Protein Facilitates Diffusion

  29. Figure 5.6 A Carrier Protein Facilitates Diffusion

  30. Figure 5.6 A Carrier Protein Facilitates Diffusion (Part 1)

  31. Figure 5.6 A Carrier Protein Facilitates Diffusion (Part 2)

  32. Table 5.1 Membrane Transport Mechanisms

  33. Figure 5.7 Primary Active Transport: The Sodium–Potassium Pump

  34. Figure 5.7 Primary Active Transport: The Sodium–Potassium Pump

  35. Figure 5.8 Endocytosis and Exocytosis

  36. Figure 5.8 Endocytosis and Exocytosis

  37. Figure 5.8 Endocytosis and Exocytosis (Part 1)

  38. Figure 5.8 Endocytosis and Exocytosis (Part 2)

  39. Figure 5.9 Receptor-Mediated Endocytosis

  40. Figure 5.9 Receptor-Mediated Endocytosis

  41. Figure 5.9 Receptor-Mediated Endocytosis (Part 1)

  42. Figure 5.9 Receptor-Mediated Endocytosis (Part 2)

  43. Figure 5.10 Chemical Signaling Concepts

  44. Figure 5.10 Chemical Signaling Concepts

  45. Figure 5.11 Signal Transduction Concepts

  46. Figure 5.11 Signal Transduction Concepts

  47. Figure 5.12 A Signal Binds to Its Receptor

  48. Figure 5.12 A Signal Binds to Its Receptor

  49. In-Text Art, Ch. 5, p. 92

  50. Figure 5.13 A Protein Kinase Receptor

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