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Moving Cellular Materials

Moving Cellular Materials. Why do things move into or out of cells?. In order to survive and function properly, cells must take in nutrients and get rid of wastes .

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Moving Cellular Materials

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  1. Moving Cellular Materials

  2. Why do things move into or out of cells? In order to survive and function properly, cells must take in nutrients and get rid of wastes. Cell membranes do not allow all substances to pass through them. They are selectively permeable. (Selecting is choosing.)

  3. selectivelypermeable when some substances can pass through the cell membrane, while other substances cannot permeable ex. air impermeable ex. a wall

  4. Remember the cell membrane? It is the outer layer of a cell which controls the movement of dissolved molecules into and out of the cell. It is kind of like a screen—what can pass through a screen?

  5. Air, light, water, etc.

  6. Cell membrane- The membrane enclosing a cell is made up of two lipid layers called a "bilipid" membrane.

  7. The cell membrane is made up of lipids that fit together kind of like bristle blocks.

  8. Why do things move into cells? • Just like you, cells need certain materials to live. Actually, you need these materials becauseyour cells need them. • Cells need oxygen, nutrients from food, and other substances. • These materials must pass through the cell membrane to get into the cell.

  9. Why do things move out of cells? • Just like you, cells produce wastes. Actually, the wastes you remove from your bodyare the wastes your cells produced. • Some of these wastes are carbon dioxide and urea. • These materials must pass through the cell membrane to get out of the cells and into your blood. Your blood takes them to a place where they can get out of your body.

  10. How do materials move through the cell membrane? • Some materials move through the cell membrane by passive transport. This means the cell does not use energy to move these substances in or out. They just let it happen. • Some materials move through the cell membrane by active transport. This means the cell must use energy to move these substances in or out.

  11. Active or Passive Transport • Which way things move through a cell membrane depends on: (1) the size of the particles (S, M, or L) (2) the path taken through the membrane (diffusion, transport proteins, endocytosis or exocytosis), and (3) whether or not energy is used (passive or active)

  12. Three types of passive transport • diffusion (O2 and CO2) • osmosis (diffusion of H2O) • facilitated diffusion

  13. Diffusion (diagrams A-E) • Diffusion is the random movement of molecules from an area where they are crowded (in high concentration) to an area where they are less crowded (a lower concentration). • Examples: perfume spreading in a room; food coloring spreading in a beaker of water (diagram A) • This happens because the molecules are moving and bouncing off of one another.

  14. A. Diffusion

  15. DIFFUSION(Watch the blue molecules)

  16. E. Diffusion cell membrane high concentration low concentration Diffusion animation

  17. B. Molecules leaving a cell by diffusion Cell membrane Outside cell Inside cell

  18. C. Molecules leaving a cell by diffusion Cell membrane diffusion Outside cell Inside cell

  19. D. The small (red) molecules have reached equilibrium Cell membrane Outside cell Inside cell EQUILIBRIUM

  20. Equilibrium (diagram D) • When the concentration of molecules is the same inside and outside the cell, equilibrium has been reached. The molecules keep moving in and out of the cell, but they move in and out at the same rate. • This means when molecules move into the cell, the same number of molecules move out of the cell, therefore the concentration stays the same in both places.

  21. D. The small (red) molecules have reached equilibrium Cell membrane Outside cell Inside cell EQUILIBRIUM

  22. Examples of molecules that diffuse through cell membranes 1. Oxygen 2. Carbon dioxide 3. Water

  23. Osmosis • Osmosis is the diffusion of water through a cell membrane. • If cells are surrounded by water that contains some dissolved substances, water will diffuse out of the cells. This happens because the water is more highly concentrated in the cell than outside the cell. (see diagram G)

  24. F. Cells in Solutions animation

  25. Facilitated Diffusion (diagrams G-K) • Some molecules are too big to diffuse normally through the cell membrane. • Facilitated diffusion is where protein channels (openings) in the cell membrane allow these larger molecules to get through. • It is still passive transport, just with a larger opening.

  26. Air, light, water, etc.

  27. Like a doggy door Larger things can get in

  28. Openings in the cell's membrane are made up of certain proteins whose function is to control the movement of food and water into the cell.

  29. Facilitated Diffusion video

  30. G. facilitated diffusion high concentration low concentration

  31. I. Facilitated Diffusion Cell membrane Protein channel Outside cell Inside cell

  32. J. Facilitated Diffusion Cell membrane diffusion Protein channel Outside cell Inside cell

  33. K. Facilitated Diffusion Cell membrane diffusion Protein channel Outside cell Inside cell EQUILIBRIUM

  34. Diffusion alone is not enough to move all of the dissolved materials into or out of a cell. Sometimes materials must move against a concentration difference (like a salmon going upstream).

  35. Active transport is when a cell uses energy to move materials into areas where they are more concentrated. (From a low concentration to an already high concentration.)

  36. What are the three types of active transport? • active transport by transport proteins • endocytosis • exocytosis

  37. Active transport by transport proteins • Transport proteins force molecules to move in the opposite direction of diffusion. Molecules move from an area of lower concentration to an area of higher concentration.

  38. Active transport by transport proteins • This happens when a cell needs more of a substance, but the concentration is higher inside the cell than it is outside the cell. • This requires the cell to use energy.

  39. L. Active transport by transport proteins low concentration high concentration

  40. active transport Cell membrane Outside cell Inside cell

  41. Endocytosis (diagram M) • Molecules too big to pass through the cell membrane by diffusion or transport proteins can be taken in by endocytosis. • Endocytosis is where the cell membrane surrounds the substance to bring it in.

  42. M. Endocytosis

  43. Endocytosis (diagram M) • An animil-like protist called an amoeba gets its food that way. • Endocytosis and Exocytosis Animation

  44. Exocytosis • Molecules too big to pass through the cell membrane by diffusion or transport proteins can be removed by exocytosis. • Exocytosis is where substances inside the cell are moved to the cell membrane and the cell membrane opens up to let them out.

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