2. AP Biology Lipids: Fats & Oils

3. AP Biology Lipids long term energy storage concentrated energy

4. AP Biology Lipids  Lipids are composed of C, H, O  long hydrocarbon chains (H-C)  Nonpolar  Reconfiguration of sugars  “Family groups”  fats  Phospholipids  (cell membrane)  Steroids  Waxes  Lipid soluble vitamins (K,A)

5. AP Biology Lipids  Do not form polymers  big molecules made of smaller subunits  not a continuing chain  Hydrogenation  Water molecule replaces a double bond

6. AP Biology Fats  Structure:  glycerol (3C alcohol) + fatty acid  fatty acid = long HC “tail” with carboxyl (COOH) group “head” dehydration synthesis H2OH2O enzyme

7. AP Biology Building Fats  Triacylglycerol  3 fatty acids linked to glycerol  ester linkage = between OH & COOH hydroxylcarboxyl

8. AP Biology Dehydration synthesis dehydration synthesis H2OH2OH2OH2OH2OH2OH2OH2O enzyme

9. AP Biology Fats store energy  Long HC chain  polar or non-polar?  hydrophilic or hydrophobic?  Function:  energy storage  concentrated  all H-C!  2x carbohydrates  cushion organs  insulates body  think whale blubber! Why do humans like fatty foods?

10. AP Biology Saturated fats  All C bonded to H  No C=C double bonds  long, straight chain  most animal fats  solid at room temp.  contributes to cardiovascular disease (atherosclerosis) = plaque deposits

11. AP Biology Unsaturated fats  C=C double bonds in the fatty acids  plant & fish fats  vegetable oils  liquid at room temperature  the kinks made by double bonded C prevent the molecules from packing tightly together mono-unsaturated? poly-unsaturated?

12. AP Biology Saturated vs. unsaturated saturatedunsaturated

13. AP Biology Phospholipids  Structure: Structure  glycerol + 2 fatty acids + PO 4  PO 4 = negatively charged It’s just like a penguin… A head at one end & a tail at the other!

14. AP Biology Phospholipids  Hydrophobic or hydrophilic?  fatty acid tails =  PO 4 head =  split “personality” interaction with H 2 O is complex & very important! “repelled by water” “attracted to water” Come here, No, go away! hydrophobic hydrophillic

15. AP Biology Phospholipids in water  Hydrophilic heads “attracted” to H 2 O  Hydrophobic tails “hide” from H 2 O  can self-assemble into “bubbles”  bubble = “micelle”  can also form a phospholipid bilayer  early evolutionary stage of cell? bilayer water

16. AP Biology Why is this important?  Phospholipids create a barrier in water  define outside vs. inside  they make cell membranes! Lets Draw Some Pictures

17. AP Biology Steroids  Structure:  4 fused C rings + ??  different steroids created by attaching different functional groups to rings  different structure creates different function  examples: cholesterol, sex hormones cholesterol

18. AP Biology Cholesterol  Maintenance of cell membrane structure  Maintains fluidity -40 – 100 F  Prevents membrane from being too fluid  Synthesis of bile acids that break down undigested fats  Synthesis of vitamin D  Atherosclerosis – build up of plaques in arteries  Precursor to various sex hormones

19. AP Biology Cholesterol helps keep cell membranes fluid & flexible Important component of cell membrane

20. AP Biology

21. From Cholesterol  Sex Hormones  What a big difference a few atoms can make!

22. AP Biology Waxes  Protects inside from water, prevents water from leaving  Fur, feathers, fruits and leaves

23. AP Biology 2006-2007 Let’s build some Lipids!

24. AP Biology 2007-2008 Ghosts of Lectures Past (storage)

25. AP Biology Phospholipids & cells  Phospholipids of cell membrane  double layer = bilayer  hydrophilic heads on outside  in contact with aqueous solution outside of cell and inside of cell  hydrophobic tails on inside  form core  forms barrier between cell & external environment