1. Fluid Mosaic Model Membrane Structure &Processes http://www.wisc-online.com/objects/ViewObject.aspx?ID=ap1101

2. Cell Membrane Structure – Current Model Fluid Mosaic Model Contains a double layer of phospholipids Phospholipids arranged with tails pointing in Globular proteins are scattered throughout Proteins have a variety of functions Enzymes Receptor Sites Carriers Cell Recognition

3. Fluid Mosaic Model

4. Membranes can be one of four types- permeable impermeable Permeable – allows everything in & out Impermeable - allows nothing in or out Semi-permeable – allows substance in & out based on size Selectively permeable – allows substances in & out based on size and chooses between substances of equal size semi-permeable selectively permeable Definitions:

5. Which sidewalk is permeable and which sidewalk is impermeable to water?

6. Gortex raincoats allow air in and keep water out. Use the words in the box at the right to describe how a gortex coat is affected by rain and air. permeable impermeable semi-permeable selectively permeable

7. Using the definitions of the words below, what type of permeability does cell membranes have? permeable impermeable semi-permeable selectively permeable

8. Movement Processes: 1. Diffusion -movement of a substance from an area of high concentration to an area of low concentration -passive process – no energy required -used to move respiratory gases oxygen & carbon dioxide

9. 2. Osmosis: -diffusion of water across a cell membrane -movement of water from an area of high concentration (of water) to an area of low concentration (of water) -passive process – no energy required 0.7% salt 0.7% salt Isotonic cell & Bathing Solution -no net movement of water

10. 1% salt 15% salt Hypertonic bathing -more concentrated Hypotonic cell -more water Water moves out Crenation-animal cell shrinks Plasmolysis-plant vacuole shrinks

11. 15% salt 1% salt Hypertonic cell -more concentrated Hypotonic bathing -more water Water moves in Lysis-animal swells to burst Turgor- plant vacuole fills to capacity

12. Red Blood Cell Plant Cell

14. Turgor –vacuole fills with water -cell is in a hypotonic solution -chloroplasts move to the edges Plasmolysis -vacuole shrinks -cells in a hypertonic solution -chloroplasts move to the center

16. 3. Facilitated Diffusion movement with the concentration gradient (from high to low) passive process – no energy required requires a protein carrier protein carrier is actually a channel protein (creates a pathway for the substance) used to moves simple sugars (glucose) and amino acids

17. 4. Active Transport requires a protein carrier (channel protein) moves AGAINST the concentration gradient (from low to high) requires energy (ATP) used to conserve and move ions Ex. Calcium, sodium & potassium

18. 5. Exocytosis used to export (release) large molecule requires energy vacuole merges with cell membrane to release a cell product Ex. Goblet cell releases mucus

19. 6. Endocytosis used to bring larger molecules/substances into the cell requires energy form a vacuole from the cell membrane two types a. pinocytosis – “cell drinking” b. phagocytosis – “cell eating”