1. Movement Through the Cell Membrane

2. Review: What are the building blocks of lipids?
2. Sketch a lipid molecule in the space below. Label your sketch!

3. Review: What are the building blocks of lipids
Review: What are the building blocks of lipids? Glycerol and fatty acids
2. Sketch a lipid molecule in the space below. Label your sketch!

4. 2. Sketch a lipid molecule in the space below. Label your sketch!
Review: What are the building blocks of lipids? Glycerol and fatty acids
2. Sketch a lipid molecule in the space below. Label your sketch!
Fatty Acids
Glycerol

6. 3. What is the function of the cell membrane?
4. Describe the structure of a lipid bilayer.
5. In addition to lipids, list 2 other types of molecules found in the cell membrane.
a. _____________ b. _______________

7. 3. What is the function of the cell membrane
3. What is the function of the cell membrane? Regulate what enters and leaves the cell; protect and support the cell
4. Describe the structure of a lipid bilayer.
5. In addition to lipids, list 2 other types of molecules found in the cell membrane.
a. _____________ b. _______________

8. 3. What is the function of the cell membrane
3. What is the function of the cell membrane? Regulate what enters and leaves the cell; protect and support the cell
4. Describe the structure of a lipid bilayer. Double-layered sheet of lipid molecules; hydrophilic heads point out, hydrophobic tails point in
5. In addition to lipids, list 2 other types of molecules found in the cell membrane.
a. _____________ b. _______________

9. 3. What is the function of the cell membrane
3. What is the function of the cell membrane? Regulate what enters and leaves the cell; protect and support the cell
4. Describe the structure of a lipid bilayer. Double-layered sheet of lipid molecules; hydrophilic heads point out, hydrophobic tails point in
5. In addition to lipids, list 2 other types of molecules found in the cell membrane.
a. proteins b. _______________

10. a. proteins b. carbohydrates
3. What is the function of the cell membrane? Regulate what enters and leaves the cell; protect and support the cell
4. Describe the structure of a lipid bilayer. Double-layered sheet of lipid molecules; hydrophilic heads point out, hydrophobic tails point in
5. In addition to lipids, list 2 other types of molecules found in the cell membrane.
a. proteins b. carbohydrates

11. 6. Label the diagram of a cell membrane shown below:
Outside
of cell
Carbohydrate
chains
Proteins
Cell
membrane
Inside
of cell
(cytoplasm)
Protein
channel
Lipid bilayer

12. 7. Define the following terms:
a. solution:
b. solute:
c. solvent:
d. concentration:

13. 7. Define the following terms:
a. solution: mixture of 2 or more substances in which molecules are evenly distributed
b. solute:
c. solvent:
d. concentration:

14. 7. Define the following terms:
a. solution: mixture of 2 or more substances in which molecules are evenly distributed
b. solute: substance that is dissolved in a solution
c. solvent:
d. concentration:

15. 7. Define the following terms:
a. solution: mixture of 2 or more substances in which molecules are evenly distributed
b. solute: substance that is dissolved in a solution
c. solvent: substance in which the solute is dissolved
d. concentration:

16. 7. Define the following terms:
a. solution: mixture of 2 or more substances in which molecules are evenly distributed
b. solute: substance that is dissolved in a solution
c. solvent: substance in which the solute is dissolved
d. concentration: mass of solute in a given volume of solution

17. 8. During the process of diffusion, molecules tend to move from. to
8. During the process of diffusion, molecules tend to move from to until the solution reaches equilibrium.
9. Does diffusion require energy? _______ Explain.

18. 8. During the process of diffusion, molecules tend to move from an area of high concentration to until the solution reaches equilibrium.
9. Does diffusion require energy? _______ Explain.

19. 8. During the process of diffusion, molecules tend to move from an area of high concentration to
an area of low concentration until the solution reaches equilibrium.
9. Does diffusion require energy? _______ Explain.

20. 8. During the process of diffusion, molecules tend to move from an area of high concentration to
an area of low concentration until the solution reaches equilibrium.
9. Does diffusion require energy? __NO__ Explain.
Molecules naturally move from HIGH concentration to LOW concentration

21. Example of Diffusion: The smell of popcorn after it’s been popped.
Does the smell of popcorn stay where the popcorn was popped? Why or why not?

22. 10. Why are biological membranes described as selectively permeable?
11. What is osmosis?

23. 10. Why are biological membranes described as selectively permeable
10. Why are biological membranes described as selectively permeable? Some substances can pass through the membrane while other substances cannot
11. What is osmosis?

24. 10. Why are biological membranes described as selectively permeable
10. Why are biological membranes described as selectively permeable? Some substances can pass through the membrane while other substances cannot
11. What is osmosis? Diffusion of water across a membrane

25. 12. Label the drawing below to show how osmosis works.
water
Cell Membrane
glucose

26. Figure 7-15 Osmosis

27. Figure 7-15 Osmosis

28. 13. Define the following terms:
a. hypertonic:
b. hypotonic:
c. isotonic:
14. Cells are almost always __________ to fresh water, meaning there will be a net movement of water ____ the cell. Describe two ways that cells keep from bursting in fresh water environments: a. b.

29. 13. Define the following terms:
a. hypertonic: Solution has a higher solute concentration than the cell
Water leaves the cell, animal cells can shrink.

30. b. hypotonic: lower concentration of solute
Water enters the cell, animal cells can expand and possibly burst.
Plant and bacteria cells have their cell walls that provides provide protection from too much osmotic pressure

31. Isotonic
The concentration of the solutes is the same inside and outside the cell.
Water goes in and out at the same rate and pressure doesn’t change

32. 14. Cells are almost always __________ to fresh water, meaning there will be a net movement of water ____ the cell. Describe two ways that cells keep from bursting in fresh water environments: a. b.

33. 14. Cells are almost always hypertonic to fresh water, meaning there will be a net movement of water ____ the cell. Describe two ways that cells keep from bursting in fresh water environments: a. b.

34. 14. Cells are almost always hypertonic to fresh water, meaning there will be a net movement of water into the cell. Describe two ways that cells keep from bursting in fresh water environments: a. b.

35. 14. Cells are almost always hypertonic to fresh water, meaning there will be a net movement of water into the cell. Describe two ways that cells keep from bursting in fresh water environments:
a. cell walls keep cell from expanding b.

36. a. cell walls keep cell from expanding
14. Cells are almost always hypertonic to fresh water, meaning there will be a net movement of water into the cell. Describe two ways that cells keep from bursting in fresh water environments:
a. cell walls keep cell from expanding
b. contractile vacuole pumps extra water out of cell

37. 15. What is facilitated diffusion?
16. Label the diagram to show how facilitated diffusion works:

38. 16. Label the diagram to show how facilitated diffusion works:
15. What is facilitated diffusion? Diffusion of molecules across a cell membrane through a special protein channel
16. Label the diagram to show how facilitated diffusion works:
Protein channel
Glucose molecules
High concentration of solute
Low concentration of solute
Cell Membrane

39. 17. What is active transport?
18. Label the diagram to show how active transport works:

40. 18. Label the diagram to show how active transport works:
17. What is active transport? Molecules pumped through special protein channels from low concentration to high concentration
18. Label the diagram to show how active transport works:
Energy
Cell Membrane
Cell Membrane
Protein channel
Molecule to be carried
Protein channel
Low concentration
High concentration

41. 19. Define the following terms:
a. endocytosis:
b. phagocytosis:
c. exocytosis:

42. 19. Define the following terms:
a. endocytosis: process of cellular ingestion by which the cell membrane folds inward to bring substances into the cell.
b. phagocytosis:
c. exocytosis:

43. 19. Define the following terms:
a. endocytosis: process of cellular ingestion by which the cell membrane folds inward to bring substances into the cell.
b. phagocytosis: (another name for endocytosis)
c. exocytosis:

44. 19. Define the following terms:
a. endocytosis: process of cellular ingestion by which the cell membrane folds inward to bring substances into the cell.
b. phagocytosis: (another name for endocytosis)
c. exocytosis: removal of material from a cell; membrane surrounding material fuses with cell membrane to force material out

45. Facilitated diffusion
20. Complete the following chart to compare types of movement through a cell membrane:
Types of molecules transported
Special channel required?
Energy reguired?
Diffusion
Osmosis
Facilitated diffusion
Active transport no no
Small molecules
water no no
ions, sugars (glucose), salts
yes no
ions (H+, K+, Na+, Ca2+)
yes
yes