RECAP

1. RECAP • Photosynthesis produces: • Oxygen • Sugar (glucose) • How will these substances be used to make ATP for the organism?

2. Cellular Respiration • Chemical bond energy in food molecules is converted to a form that can be used by the cell (ATP)

3. Energy stored in food is measured in calories • Fats store more energy per gram than do carbohydrates and proteins

6. Cellular Respiration may be: • Anaerobic: doesn’t require oxygen • Aerobic: requires oxygen

7. Anaerobic Respiration • Makes a small amount of usable energy without using oxygen • Reactions occur in cytoplasm • Produces 2 ATP per glucose molecule

8. Takes place in yeast, and bacteria • Can also occur in human muscle cells if no oxygen is present.

9. Anaerobic Respiration Glycolysis: (sugar is “split”) Glucose is only partially broken down Not all of it’s stored energy is released C6H12O6 + 2 ATP → 2 pyruvic acid + 4 ATP (6-carbon)(3-carbon) Net gain of energy is 2 ATP Are produced Needed to start

11. What Happens to Pyruvic Acid?

12. What happens to Pyruvic Acid? • Fermentation of Alcohol • (Oxygen not present) C6H12O6→ Ethyl Alcohol + CO2 + 2ATP • Happens in Yeast • Pyruvic acid (from split glucose) is turned into ethyl alcohol and CO2 (carbon dioxide)

13. Useful in the brewing and baking industries • Produces alcohol • Produces carbonation • Bubbles of CO2 make bread rise

14. What happens to Pyruvic Acid? • Fermentation of Lactic Acid: • (Oxygen not present) C6H12O6→ Lactic Acid + 2ATP • Happens in some bacteria • Pyruvic acid (from split glucose) becomes lactic acid • Used to make cheese, yogurt and buttermilk

15. GLYCOLYSIS Alcohol Fermentation Lactic Acid Fermentation

16. Let’s Try This • Activity: Finger “Crunches” • As fast as possible crunch your fingers 100 times

17. Lactic Acid buildup in human muscle cells • During intense exercise, if oxygen is not present, human muscle cells use anaerobic respiration to produce some energy, yielding lactic acid • Lactic acid builds up • Muscles eventually cramp up (burning feeling)

18. Oxygen Debt: • Eventually Lactic acid goes to your liver where it is changed back into glucose which can be used again. • In order to convert the lactic acid, your body needs oxygen

20. When You Die

21. Anaerobic Respiration

22. Glycolysis happens in cytoplasm • To produce more ATP, (if oxygen present) reactions must take place in the Mitochondria

23. Mitochondria Structure

25. Aerobic Respiration • Makes more ATP using oxygen • Occurs in mitochondria • Most eukaryotic organisms carry out aerobic respiration • Plants also carry out respiration!!!

26. Glucose gets completely broken down to release energy • Releases more energy than anaerobic respiration (more energy efficient) • Most of the CO2 and H2O you exhale is produced from aerobic respiration C6H12O6 + O2→ CO2 + H2O + 36 ATP

27. Aerobic Respiration Summary

28. 3 Steps of Aerobic Respiration Step 1: Glycolysis • Same as in anaerobic respiration • Doesn’t require oxygen • Takes place in cytoplasm • Glucose is split producing 3-carbon pyruvic acid • Also produces NADH from NAD+ • This “carries” some high energy electrons and H+ • Net production of 2 ATP

30. Step 2: Kreb’s Cycle (Citric Acid Cycle) • Requires oxygen • Pyruvic acid from glycolysis enters mitochondria • Reactions occur in mitochondrial matrix • Produces high energy electron/hydrogen carriers • NADH and FADH2 (called coenzymes) • These molecules carry “H+” and high energy electrons • These will be used later to help produce more ATP • Produces CO2 gas • Produces 2 ATP

31. Aerobic Respiration Summary

32. Step 3: Electron Transport Chain • Requires oxygen • Occurs on inner membrane of mitochondria • Uses high energy electrons and H+ to convert ADP to ATP • Uses the NADH/FADH2 from glycolysis & Krebs cycle • Final electron & hydrogen acceptor is oxygen (which then becomes H2O which is released) • Produces 32 ATP!!! • Produces H2O

33. Animation of Electron Transport Chain • Note that Oxygen is the final electron acceptor and accepts 2 H+ to become water! • http://vcell.ndsu.nodak.edu/animations/etc/movie-flash.htm

34. Respiration Animation • http://www.qcc.cuny.edu/BiologicalSciences/Faculty/DMeyer/respiration.html

35. Anaerobic Phase Doesn’t need O2 Aerobic Phase Needs O2

36. Efficiency of Cellular Respiration Anaerobic: Yields 2 ATP per glucose • End products of fermentation still contain a lot of unused potential energy • Meets energy needs of simple organisms Aerobic: Yields 36 ATP per glucose • More efficient • 45% of the energy available in glucose is transferred to ATP where it can do further work for the cell • Note: Car engines only converts about 25% of the energy from gasoline

37. Respiration of Fats and Proteins • Get broken down and converted into amino acids, glycerol and fatty acids • These can enter respiration pathway at different points • Fats yield twice as much ATP as glucose • Proteins yield about the same as glucose but are not the preferred energy source for the cell

38. Evolution of Cellular Respiration • First life originated when there was hardly any oxygen in the atmosphere. (Probably prokaryotes with few organelles and no mitochondria) • Glycolysis was the first biochemical process to evolve • Happens in cytoplasm and no oxygen needed.

39. Comparing Photosynthesis and Cellular Respiration • How are these two processes related to each other? • In a typical plant cell describe the way energy is obtained and utilized through both photosynthetic and respiration processes. • Include the materials that need to be taken in and released

40. Comparing Photosynthesis and Respiration