1. Reactants Products

3. Photosynthesis & Cellular Respiration

4. The opposite of photosynthesis!!
Photosynthesis is making glucose
Cellular Respiration is breaking down glucose

5. Cellular Respiration takes place in the mitchondria

6. Cellular Respiration
Recall…Energy stored in glucose cannot be used by the cell
Cellular Respiration converts sugar into ATP

7. 3 steps for Cellular Respiration
1) Glycolysis
2) Krebs Cycle (Citric Acid Cycle)
3) Electron Transport Chain (ETC)

8. 1) Glycolysis Occurs in the cytoplasm
Glucose is split in half into 2 pyruvic acids & ENERGY is released.
NADH is produced (Goes to Electron Transport Chain)
4 ATP are produced, but need 2 to get process started = 2 NET ATP

9. Using the diagram, walk your partner through the steps of glycolysis
Turn to a Partner
Using the diagram, walk your partner through the steps of glycolysis
What are the products of glycolysis? (3)

10. Where Pyruvic Acid goes depends on whether or not oxygen is present
Stays in cytoplasm: Anaerobic Respiration
Travels to mitochondria:
Aerobic Respiration

11. In the presence on oxygen, pyruvic acid travels to the mitochondria
The 2 NADH produced in glycolysis are shuttled directly over to the Electron Transport Chain

12. 2) Krebs Cycle (AKA Citric Acid Cycle) Oxygen MUST be present
Occurs in the mitochondrial matrix (interior space of mitochondria).

13. 2) Krebs Cycle
1. Pyruvic acid enters the mitochondria and is converted to citric acid

14. 2) Krebs Cycle
2. Energy molecules (NADH and FADH2) are produced to carry electrons to the electron transport chain.

15. 2) Krebs Cycle .
3. CO2 is released as waste; breathed out when you exhale
2 ATPs are produced

16. Turn to a Partner What are the products of the Krebs Cycle? (4)
Using the diagram, walk your partner through the steps of the Krebs cycle
What are the products of the Krebs Cycle? (4)
Which continue to the electron transport chain?
# of ATPs produced?

17. NADH & FADH2 Continue to the Electron Transport Chain

18. 3) Electron Transport Chain (ETC)
Occurs in the cristae (inner membrane of the mitochondria)
(For prokaryotes it occurs in the cell membrane.)

19. 3) Electron Transport Chain (ETC)
1. NADH & FADH2 enter the cristae.

20. 3) Electron Transport Chain (ETC)
2. They lose their hydrogens (H+) and electrons (e-) to be shuttled through the ETC.

21. 3) Electron Transport Chain (ETC)
3. Electrons are accepted by oxygen and combines with H+, forming water that is released into the cell

22. 3) Electron Transport Chain (ETC)
4. H+ builds up inside the cristae and is passed through transport protein (ATP synthase) adding ADP and P to form ATP.

23. ETC continued… ETC Produce 32 - 34 ATP
NOTE: 2 ATP are used by transport proteins to move NADH from glycolysis into the ETC.
This results in a Net Gain of 32 ATP from the ETC.

24. What are the products of the ETC? (2)
Turn to a Partner
What are the products of the ETC? (2)

25. Cellular Respiration Recap

26. What is the total # ATP from 1 molecule of glucose during cellular respiration?
36 ATP from Aerobic Respiration
(=with Oxygen)
38% of total energy in glucose is held in the bonds of ATP produced
62% released as heat

27. Word Bank: H2O NADH & FADH2 Krebs Cycle 2 Glucose Pyruvic Acid O2 ETC
Mitochondria
NADH &
FADH2
Krebs Cycle 2
Glucose
Pyruvic Acid O2
ETC
Cristae
Glycolysis 32
Matrix
Cytoplasm
NADH
Reactant?
Product?
Product?
Reactant?

28. What happens if cells do not receive enough oxygen?

29. Cornell Summary