1. Standardized Test Prep
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Standardized Test Prep

2. Chapter 7 Table of Contents Section 1 Glycolysis and Fermentation
Cellular Respiration
Table of Contents
Section 1 Glycolysis and Fermentation
Section 2 Aerobic Respiration

3. Section 1 Glycolysis and Fermentation
Chapter 7
Objectives
Identify the two major steps of cellular respiration.
Describe the major events in glycolysis.
Compare lactic acid fermentation with alcoholic fermentation.
Calculate the efficiency of glycolysis.

4. Fig. 9-1

5. Organic molecules Cellular respiration in mitochondria
Fig. 9-2
Light
energy
ECOSYSTEM
Photosynthesis
in chloroplasts
Organic
molecules
CO2 + H2O
+ O2
Cellular respiration
in mitochondria
ATP
ATP powers most cellular work
Heat
energy

6. Electrons carried via NADH Electrons carried via NADH and FADH2
Fig
Electrons
carried
via NADH
Electrons carried
via NADH and
FADH2
Oxidative
phosphorylation:
electron transport
and
chemiosmosis
Glycolysis
Citric
acid
cycle
Glucose
Pyruvate
Mitochondrion
Cytosol
ATP
ATP
ATP
Substrate-level
phosphorylation
Substrate-level
phosphorylation
Oxidative
phosphorylation

7. Energy investment phase
Fig. 9-8
Energy investment phase
Glucose
2 ADP + 2 P
2 ATP
used
Energy payoff phase
4 ADP + 4 P
4 ATP
formed
2 NAD e– + 4 H+
2 NADH
+ 2 H+
2 Pyruvate + 2 H2O
Net
Glucose
2 Pyruvate + 2 H2O
4 ATP formed – 2 ATP used
2 ATP
2 NAD e– + 4 H+
2 NADH + 2 H+

8. Pyruvate CO2 NAD+ CoA NADH + H+ Acetyl CoA CoA CoA Citric acid cycle 2
Fig. 9-11
Pyruvate
CO2
NAD+
CoA
NADH
+ H+
Acetyl CoA
CoA
CoA
Citric
acid
cycle 2
CO2
FADH2
3 NAD+
FAD 3
NADH
+ 3 H+
ADP + P i
ATP

9. Electron transport chain 2 Chemiosmosis
Fig. 9-16 H+ H+ H+ H+
Protein complex
of electron
carriers
Cyt c V Q
 
ATP synthase 
2 H+ + 1/2O2
H2O
FADH2
FAD
NADH
NAD+
ADP + P
ATP i
(carrying electrons
from food) H+ 1
Electron transport chain 2
Chemiosmosis
Oxidative phosphorylation

10. Electron Transport Chain and Chemiosmosis, continued
Section 2 Aerobic Respiration
Chapter 7
Electron Transport Chain and Chemiosmosis, continued
The Importance of Oxygen
ATP can be synthesized by chemiosmosis only if electrons continue to move along the electron transport chain.
By accepting electrons from the last molecule in the electron transport chain, oxygen allows additional electrons to pass along the chain.
As a result, ATP can continue to be made through chemiosmosis.

11. Citric acid cycle CYTOSOL Electron shuttles span membrane
Fig. 9-17
CYTOSOL
Electron shuttles
span membrane
MITOCHONDRION
2 NADH or
2 FADH2
2 NADH
2 NADH
6 NADH
2 FADH2
Glycolysis
Oxidative
phosphorylation:
electron transport
and
chemiosmosis 2
Pyruvate 2
Acetyl
CoA
Citric
acid
cycle
Glucose
+ 2 ATP
+ 2 ATP
+ about 32 or 34 ATP
About
36 or 38 ATP
Maximum per glucose:

12. Fig. 9-UN5
Inputs
Outputs 2
ATP
Glycolysis + 2
NADH
Glucose 2
Pyruvate

13. Inputs Outputs S—CoA 2 ATP C O CH3 2 Acetyl CoA 6 NADH O C COO
Fig. 9-UN6
Inputs
Outputs
S—CoA 2
ATP
C O
CH3 2
Acetyl CoA 6
NADH
O C COO
Citric acid
cycle
CH2 2
FADH2
COO 2
Oxaloacetate

14. INTER- MEMBRANE SPACE H+ ATP synthase ADP + P ATP MITO- CHONDRIAL
Fig. 9-UN7
INTER-
MEMBRANE
SPACE H+
ATP
synthase
ADP + P
ATP i
MITO-
CHONDRIAL
MATRIX H+

15. Ethanol or lactate Citric acid cycle
Fig. 9-19
Glucose
Glycolysis
CYTOSOL
Pyruvate
O2 present:
Aerobic cellular
respiration
No O2 present:
Fermentation
MITOCHONDRION
Ethanol or
lactate
Acetyl CoA
Citric
acid
cycle

16. Cellular Respiration Versus Fermentation
Section 1 Glycolysis and Fermentation
Chapter 7
Cellular Respiration Versus Fermentation

17. Two Types of Fermentation
Section 1 Glycolysis and Fermentation
Chapter 7
Two Types of Fermentation

18. Chapter 7 Comparing Aerobic and Anaerobic Respiration
Section 1 Glycolysis and Fermentation
Chapter 7
Comparing Aerobic and Anaerobic Respiration

19. Chapter 7 Objectives Section 2 Aerobic Respiration
Relate aerobic respiration to the structure of a mitochondrion.
Summarize the events of the Krebs cycle.
Summarize the events of the electron transport chain and chemiosmosis.
Calculate the efficiency of aerobic respiration.
Contrast the roles of glycolysis and aerobic respiration in cellular respiration.

20. Chapter 7 Multiple Choice
Standardized Test Prep
Multiple Choice
1. Which of the following must pyruvic acid be converted into before the Krebs cycle can proceed?
A. NADH
B. glucose
C. citric acid
D. acetyl CoA

21. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
1. Which of the following must pyruvic acid be converted into before the Krebs cycle can proceed?
A. NADH
B. glucose
C. citric acid
D. acetyl CoA

22. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
2. Which of the following occurs in lactic acid fermentation?
F. Oxygen is consumed.
G. Lactic acid is converted into pyruvic acid.
H. NAD+ is regenerated for use in glycolysis.
J. Electrons pass through the electron transport chain.

23. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
2. Which of the following occurs in lactic acid fermentation?
F. Oxygen is consumed.
G. Lactic acid is converted into pyruvic acid.
H. NAD+ is regenerated for use in glycolysis.
J. Electrons pass through the electron transport chain.

24. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
3. Which of the following is not a product of the Krebs cycle?
A. CO2
B. ATP
C. FADH2
D. ethyl alcohol

25. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
3. Which of the following is not a product of the Krebs cycle?
A. CO2
B. ATP
C. FADH2
D. ethyl alcohol

26. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
4. In which way is cellular respiration similar to photosynthesis?
F. They both make G3P.
G. They both involve ATP.
H. They both involve chemiosmosis.
J. all of the above

27. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
4. In which way is cellular respiration similar to photosynthesis?
F. They both make G3P.
G. They both involve ATP.
H. They both involve chemiosmosis.
J. all of the above

28. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
5. ATP is synthesized in chemiosmosis when which of the following moves across the inner mitochondrial membrane?
A. NADH
B. oxygen
C. protons
D. citric acid

29. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
5. ATP is synthesized in chemiosmosis when which of the following moves across the inner mitochondrial membrane?
A. NADH
B. oxygen
C. protons
D. citric acid

30. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
The illustration shows
part of a biochemical pathway. Use the illustration to
answer the question that follows.
6. This reaction occurs during which of the following processes?
F. Krebs cycle
G. acetyl CoA formation
H. alcoholic fermentation
J. lactic acid fermentation

31. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
The illustration shows
part of a biochemical pathway. Use the illustration to
answer the question that follows.
6. This reaction occurs during which of the following processes?
F. Krebs cycle
G. acetyl CoA formation
H. alcoholic fermentation
J. lactic acid fermentation

32. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
7. glycolysis : pyruvic acid :: Krebs cycle :
A. O2
B. ATP
C. lactic acid
D. acetyl CoA

33. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
7. glycolysis : pyruvic acid :: Krebs cycle :
A. O2
B. ATP
C. lactic acid
D. acetyl CoA

34. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
The illustration below
shows some stages and reactants of cellular respiration. Use the illustration to answer the question that follows.
8. At which of the points is ATP, the main energy currency of the cell, produced?
F. 1 only
G. 2 only
H. 1 and 3
J. 1, 2, and 3

35. Multiple Choice, continued
Chapter 7
Standardized Test Prep
Multiple Choice, continued
The illustration below
shows some stages and reactants of cellular respiration. Use the illustration to answer the question that follows.
8. At which of the points is ATP, the main energy currency of the cell, produced?
F. 1 only
G. 2 only
H. 1 and 3
J. 1, 2, and 3

36. Chapter 7 Short Response
Standardized Test Prep
Short Response
The inner membrane of a mitochondrion is folded; these folds are called cristae.
How might cellular respiration be different if the inner
mitochondrial membrane were not folded??

37. Short Response, continued
Chapter 7
Standardized Test Prep
Short Response, continued
The inner membrane of a mitochondrion is folded; these folds are called cristae.
How might cellular respiration be different if the inner
mitochondrial membrane were not folded?
Answer:
The cristae increase the surface area of the inner wall of the mitochondria, which allows more electron transport chain pathways and ATP synthase. Thus, the rate of cellular respiration is increased.

38. Chapter 7 Extended Response
Standardized Test Prep
Extended Response
Oxygen is produced during the reactions of photosynthesis, and it is used in the reactions of cellular respiration.
Part A How does oxygen get into or out of chloroplasts and mitochondria?
Part B What are the roles of oxygen in the processes of photosynthesis and cellular respiration, and how are the roles similar?

39. Extended Response, continued
Chapter 7
Standardized Test Prep
Extended Response, continued
Answer:
Part A Oxygen builds up inside chloroplasts as they produce oxygen, forming a concentration gradient—high oxygen concentration inside and low concentration outside. This causes O2 to diffuse out of the chloroplast. In mitochondria, as O2 is used up, a favorable gradient for the inward diffusion of oxygen occurs.
Part B In photosynthesis, oxygen is formed when water is split during the light reactions. This byproduct of photosynthesis is released by cells and becomes available for aerobic respiration. In aerobic respiration, oxygen is the final electron acceptor at the end of electron transport. When oxygen accepts these electrons (and protons), water is formed. Hence, water supplies oxygen for photosynthesis, and oxygen is used to form water in aerobic respiration.