1. How Cells Harvest Chemical Energy
Chapter 9
How Cells Harvest Chemical Energy
Introduction to Cell Metabolism
Glycolysis
Aerobic Cell Respiration
Anaerobic Cell Respiration

2. Breathing and Cell Respiration are related
CO2
Lungs
Muscle cells carrying out
CO2
Bloodstream O2
CELLULAR RESPIRATION
Sugar + O2  ATP + CO2 + H2O

3. How efficient is cell respiration?
Energy released from glucose banked in ATP
Energy released from glucose (as heat and light)
Gasoline energy converted to movement
100%
About 40%
25%
Burning glucose in an experiment
“Burning” glucose in cellular respiration
Burning gasoline in an auto engine

4. Reduction and Oxidation OILRIG
Oxidation is losing electrons
Reduction is gaining electrons
Loss of hydrogen atoms
Energy
Glucose
Gain of hydrogen atoms
Glucose gives off energy and is oxidized

5. Reduction and Oxidation OILRIG
Gain or loss of electrons is often in the form of hydrogen. The hydrogen is then passed to a coenzyme such as NAD+

6. Reduction and Oxidation
What are some common co-enzymes/electron carriers?
NAD+ and FAD
NAD H  NADH + H+
FAD H  FADH2

7. Generation of ATP
There are two ways to generate ATP
Chemiosmosis
Substrate-Level Phosphorylation

8. Generation of ATP
Substrate Level Phosphorylation
Enzyme
ATP can also be made by transferring phosphate groups from organic molecules to ADP
Adenosine
substrate
Adenosine
product
Figure 6.7B

9. Generation of ATP
Substrate Level Phosphorylation
Enzyme
ATP can also be made by transferring phosphate groups from organic molecules to ADP
Adenosine
substrate
Adenosine
product
Figure 6.7B

10. Glycolysis General Outline No Oxygen Anaerobic Oxygen Aerobic
Glucose
Glycolysis
No Oxygen
Anaerobic
Oxygen
Aerobic
Pyruvic Acid
Transition Reaction
Fermentation
Krebs Cycle
ETS
36 ATP

11. Glycolysis
Where? The cytosol
What? Breaks down glucose to pyruvic acid

12. Glycolysis Energy In: 2 ATP Energy Out: 4 ATP NET 2 ATP
Steps – A fuel molecule is energized, using ATP.
Glucose 1 3
Step
Glycolysis 1
Glucose-6-phosphate 2
Fructose-6-phosphate
Energy In: 2 ATP 3
Fructose-1,6-diphosphate
Step A six-carbon intermediate splits into two three-carbon intermediates. 4 4
Glyceraldehyde-3-phosphate (G3P) (TRIOSE PHOSPHATE) 5
Step A redox reaction generates NADH. 5
1,3-Diphosphoglycerate (2 molecules) 6
Steps – ATP and pyruvic acid are produced.
3-Phosphoglycerate (2 molecules)
Energy Out: 4 ATP 6 9 7
2-Phosphoglycerate(2 molecules) 8
2-Phosphoglycerate(2 molecules)
NET 2 ATP 9
Pyruvic acid
(2 molecules per glucose molecule)

13. General Outline of Aerobic Respiration
Glycolysis
Transition Reaction
Krebs Cycle
Electron Transport System

14. Transition Reaction/Pre-Krebs/Link Reaction: Occurs in the Matrix
Each pyruvic acid molecule is broken down to form CO2 and a two-carbon acetyl group, which enters the Krebs cycle. An Oxidative Decarboxylation Reaction:
Pyruvic Acid
Acetyl CoA

15. General Outline of Aerobic Respiration
Glycolysis
Transition Reaction
Krebs Cycle
Electron Transport System

16. Krebs Cycle

17. Krebs Cycle

18. General Outline of Aerobic Respiration
Glycolysis
Krebs Cycle
Electron Transport System

19. Electron Transport System

20. ELECTRON TRANSPORT CHAIN
Electron Transport System
Protein complex
Intermembrane space
Electron carrier
Inner mitochondrial membrane
Electron flow
Mitochondrial matrix
ELECTRON TRANSPORT CHAIN
ATP SYNTHASE
Figure 6.12

21. Generation of ATP
Chemiosmosis
Cells use the energy released by “falling” electrons in the ETS to pump H+ ions across a membrane
Uses the enzyme ATP synthase.

22. Reduction and Oxidation
As the electrons move from carrier to carrier, energy is released in small quantities.
Electron transport system (ETS)

23. Generation of ATP
Chemiosmosis

24. CHEMIOSMOSIS
The coupling of ATP synthesis to electron transport via a concentration gradient.
It is the MECHANISM for oxidative phosphorylation in Aerobic C.R. and Photosynthesis

25. Overview of Aerobic Respiration

26. Fermentation
Requires NADH generated by glycolysis.
Where do you suppose these reactions take place?
Yeast produce carbon dioxide and ethanol
Muscle cells produce lactic acid
Only a 2 ATP are produced per glucose

27. Fermentation