Lesson 13 Review

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Middle

Right

100

Formed in glycolysis

1. glycolysis

2. glucose

3. formation of ATP

4. pyruvic acid

5. hydrogen atoms

4. pyruvic acid

100

Inner membrane of mitochondria

1. lactic acid

2. PGAL

3. Cristae

4. Acetyl CoA

5. CO2

3. cristae

100

where hydrogen atoms are taken

1. electrons

2. hydrogen

3. electron transport system

4. oxaloacetic acid

5. between 34 and 38

3. electron transport system

200

oxidative phosphorylation

1. glycolysis

2. glucose

3. formation of ATP

4. pyruvic acid

5. hydrogen atoms

3. formation of ATP

200

formed when oxygen is lacking

1. lactic acid

2. PGAL

3. Cristae

4. Acetyl CoA

5. CO2

1. lactic acid

200

oxygen accepts ______

1. electrons

2. hydrogen

3. electron transport system

4. oxaloacetic acid

5. between 34 and 38

1. electrons

300

anaerobic

1. glycolysis

2. glucose

3. formation of ATP

4. pyruvic acid

5. hydrogen atoms

1. glycolysis

300

carbon atoms are removed as ____

1. lactic acid

2. PGAL

3. Cristae

4. Acetyl CoA

5. CO2

5. CO2

300

number of ATP molecules from each glucose molecule

1. electrons

2. hydrogen

3. electron transport system

4. oxaloacetic acid

5. between 34 and 38

5. between 34 and 38

400

enters glycolysis

1. glycolysis

2. glucose

3. formation of ATP

4. pyruvic acid

5. hydrogen atoms

2. glucose

400

enters Krebs cycle

1. lactic acid

2. PGAL

3. Cristae

4. Acetyl CoA

5. CO2

4. Acetyl CoA

400

______ ions pass into the matrix

1. electrons

2. hydrogen

3. electron transport system

4. oxaloacetic acid

5. between 34 and 38

2. hydrogen

500

removed by NAD

1. glycolysis

2. glucose

3. formation of ATP

4. pyruvic acid

5. hydrogen atoms

5. Hydrogen atoms

500

glucose is broken down into _____

1. lactic acid

2. PGAL

3. Cristae

4. Acetyl CoA

5. CO2

2. PGAL

500

has 4 carbon atoms

1. electrons

2. hydrogen

3. electron transport system

4. oxaloacetic acid

5. between 34 and 38

4. oxaloacetic acid