Chapter 7 Cellular Respiration

1. Chapter 7Cellular Respiration Section 7.1

2. Glycolysis and Fermentation • All cells break down complex organic compounds into simpler molecules • As the compounds are broken down, cells release energy • Some of the energy is used to make ATP from ADP

3. Harvesting Chemical Energy • ATP is the main energy currency of cells • Cellular respiration- the complex process in which cells make ATP by breaking down organic compounds

4. Cellular Respiration • Begins with glycolysis • Glycolysis yields a small amount of ATP • Two possible pathways depending on the presence or absence of oxygen

5. Aerobic vs. Anaerobic • Aerobic: oxygen is present (pathway will lead to aerobic respiration) • Anaerobic: oxygen is absent (pathway leads to fermentation)

6. Glycolysis • Takes place in the cytosol of the cell • Involves four main steps • One 6-Carbon molecule of glucose is oxidized to produce two three-Carbon molecules of pyruvic acid

7. Two ATP molecules are used in step 1 • Four ATP molecules are produced in step 4 • Glycolysis has a net yield of 2 ATP

8. Fermentation • Occurs in the absence of oxygen • Converts pyruvic acid into other compounds • These pathways regenerate NAD+

9. Lactic Acid Fermentation • An enzyme converts pyruvic acid into another 3-carbon compound called lactic acid • Two hydrogen atoms are transferred to pyruvic acid

10. Uses of Lactic Acid • Microorganisms are used for lactic acid fermentation in cheese and yogurt • Also occurs in muscle cells during strenuous exercise (muscle cells use up oxygen faster than it can be delivered)

11. Alcoholic Fermentation • Plant cells and unicellular organisms, such as yeast, convert pyruvic acid into ethyl alcohol • Used in bread, wine, beer, etc.

12. Energy Yield • Energy is measured in units of kilocalories (kcal) • One kilocalorie equals 1000 calories (cal) • Oxidation of a standard amount of glucose releases 686 kcal

13. Efficiency of Glycolysis • Efficiency of = energy required to make ATP glycolysis energy released by oxidation of glucose = 2 X 12 kcal X 100% 686 kcal = 3.5%

14. Anaerobic pathways probably evolved very early in the history of life on Earth • For more than a billion years, this was the only pathway available for harvesting chemical energy • The first organisms to use anaerobic pathways were bacteria

15. Larger organisms have greater energy requirements that cannot be met by only anaerobic pathways • Must use aerobic respiration

16. Chapter 7 Section 7.2

17. Aerobic Respiration • Produces 20 times as much ATP as produced by glycolysis alone • Has two major stages: the Krebs cycle and the electron transport chain

18. Energy Yield • Maximum of 38 ATP molecules can be produced from 1 molecule of glucose • Efficiency = Energy required to make ATP Energy released by oxidation of glucose = 38 X 12 kcal X 100% = 66% 686 kcal

19. Aerobic respiration is nearly 20 times more efficient than glycolysis alone • Glucose  glycolysis  pyruvic acid  acetyl CoA  Krebs cycle

20. Summarizing Cellular Respiration • C6H12O6 + 6O2 6 CO2 + 6H2O + energy • Cellular respiration provides ATP that all cells need to support the activities of life

21. Also provides carbon skeletons that can be built up into larger molecules • Cells need specific organic compounds to build macromolecules