1. Chapter 4 Membrane Structure and Function

2. Plasma Membrane

3. Fluid Mosaic Model Cholesterol – Reduces the amount of stuff allowed to enter a cell Phospholipids – This is the lipid bilayer Glycolipids – A carbohydrate that is attached to a phospholipid Proteins – Can help move things in and out of the cell Glycoproteins – A carbohydrate that is attached to a protein

4. The carbohydrates that come out of the plasma membrane allow cells to recognize each other If a cell is not recognized the body tries to kill that foreign cell

7. Permeability of Plasma Membrane Plasma membrane is selectively permeable

8. Selective Permeability Selective permeability- Some things are let into the cell while some things remain outside of the cell

9. Concentration Gradient There is a greater concentration of small balls on one side than the other. This means that it will try to reach an equilibrium. A gradient means that there is more on one side and gets less and less as you move to the other side

10. Diffusion Diffusion is the movement of molecules from a higher concentration to a lower concentration Time Semi-Permeable

11. Diffusion – This occurs in our lungs. – High concentration of oxygen air enters lungs and O 2 diffuses into our blood, which has a lower concentration of oxygen

12. Osmosis Osmosis is the diffusion of water Water moves from a high concentration to a low concentration

13. Water moves to the right because there is a difference in concentration Osmotic pressure is the pressure that develops in a system because of osmosis

14. Factors that will affect the rate of Diffusion 1.Temperature  higher temp. the faster the rate of diffusion 2.Size of molecule  the smaller the molecule then the faster the rate of diffusion 3.Charge of molecule  charged molecules have difficulty moving through the cell 4.Concentration Gradient  the larger the difference in concentration the faster the diffusion 5.Pressure Gradient  If there is pressure on one side then the faster the diffusion

15. What happens to a cell in a solution Tonicity – concentration of the solution compared to the concentration inside the cell Isotonic – The concentration of the solution is equal to that of inside the cell Hypotonic – Solution has a lower concentration of solute (higher concentration of water) than inside the cell Hypertonic – Solution has higher concentration of solute than inside the cell

16. What happens to a cell in solution Isotonic solution – The cell remains the same. No changes Hypotonic solution – The cell swells and may undergo lysis Hypertonic solution – The cell loses water and shrivels. Or undergoes crenation

17. Which is which? Hypertonic IsotonicHypotonic

18. Facilitated Transport This is for molecules that are too big to diffuse through the plasma membrane Proteins help them move It stills move with the concentration gradient It uses NO ENERGY

19. DiffusionFacilitated Transport

20. Facilitated Transport Diffusion Osmosis None of these use Energy So therefore they are called “Passive Transport”

21. Active Transport This uses energy – ATP  ADP It moves molecules and ions against a concentration gradient An example of active transport is the sodium potassium pump – Sodium is moved to the outside and potassium is moved to the inside of the cell

27. Endocytosis and Exocytosis These processes are used for materials that are too big to pass through the plasma membrane by a protein transport Endocytosis – The cell engulfs material to bring it into the cell – Two types Phagocytosis Pinocytosis Exocytosis – Moves material to the outside of the cell – This allows cell to secrete molecules

28. Endocytosis Phagocytosis – A type of endocytosis that engulfs large items. Like cells or bacteria – The vesicle that forms afterwards combines with lysosomes so digestion can occur

30. Endocytosis Pinocytosis – This is when very small particles are engulfed by the membrane – Receptor mediated endocytosis is a type of pinocytosis that uses receptor proteins to help initiate pinocytosis