EN: Aerobic Respiration Flashcards
Link reaction.
Stage after glycolysis which converts pyruvate to acetyl coenzyme A.
Stage after glycolysis which converts pyruvate to acetyl coenzyme A.
Link reaction.
Where does the link reaction occur?
In the mitochondrial matrix.
Pyruvate is decarboxylated - what does this mean?
One carbon atom is removed from pyruvate in the form of CO2.
Briefly describe the stages of the link reaction:
- Pyruvate is decarboxylated - carbon is removed in form of CO2.
- Pyruvate is oxidised to form acetate and NAD is reduced to form reduced NAD.
- Acetate is combined with coenzyme A (CoA) to form acetyl coenzyme A.
No ATP is produced.
Is ATP produced in the Link reaction?
No, none is produced.
Draw a diagram to represent the link reaction:
Briefly describe the stages of aerobic respiration:
- Glycolysis
- Link reaction
- Krebs cycle
- Oxidative phosphorylation
How many pyruvate molecules are made for every glucose molecule that enters glycolysis?
What does this mean?
2
Means for each glucose molecule:
- 2 molecules of acetyl coenzyme A go into the Krebs cycle.
- 2 CO2 molecules are released as waste products.
- 2 molecules of reduced NAD are formed and go to oxidative phosphorylation.
Where does the Krebs cycle occur?
Mitochondrial matrix
What does the Krebs cycle produce?
Reduced coenzymes and ATP
Briefly, what does the Krebs cycle involve?
A series of oxidation-reduction reactions
How many times does the Krebs cycle happen for pyruvate molecules?
How many times does it happen for glucose molecules?
Pyruvate = once
Glucose = twice
What happens in the first part of the Krebs cycle?
- Acetyl CoA from link reaction combines with 4C molecule (oxaloacetate) to form a 6C molecule (citrate).
- Coenzyme A goes back to link reaction.
What happens in the second part of the Krebs cycle?
- 6C citrate molecule is converted to 5C molecule.
- Decarboxylation occurs - CO2 removed.
- Dehydrogenation occurs.
- Hydrogen is used to produce reduced NAD from NAD.