7.2 Flashcards
1
Q
List the three segments of the citric acid cycle
A
- Acetyl-CoA + oxaloacetate
Citrate (step 1) - Citrate rearrangement & decarboxylation (steps 2-8)
- Regeneration of oxaloacetate (step 9)
2
Q
Calculate the energy yield from the citric acid cycle
A
- 2 CO2 molecules
- 3 NADH
- 1 FADH
- 1 ATP
- multiply by 2 for per glucose
3
Q
List the process of the citric acid cycle
A
** completely oxidize acetyl coA to CO2**
* Condensation
* Isomerization
* 1st and 2nd oxidation
* Substrate-level phosphorylation
* Third oxidation
* Regeneration of oxaloacetate and the fourth oxidation
4
Q
Describe the structure and function of the electron transport chain
A
- Series of membrane-bound electron carriers
- Electrons move protein complex to protein complex
- Inner mitochondrial membrane
5
Q
Explain how electrons are passed from NADH and FADH2 to the electron transport chain
A
- transferred to complexes in ETC which operate as proton pumps
driving protons (H+) to the intermembrane space, which powers ATP synthesis via oxidative phosphorylation (chemiosmosis)
6
Q
Illustrate how electrons move through the ETC to produce the proton gradient
A
- Accumulation of H+ in the intermembrane space is referred to as a proton motive force & drives ATP synthase
- Uses energy of gradient to make ATP from ADP + Pi
Chemiosmosis
7
Q
Diagram how the protein gradient connects the ETC with ATP synthesis
A
- Carried out by a tiny rotary motor driven by H+ gradient
- 2 subportions of ATP synthase complex
F0 membrane-bound complex
F1 complex (stalk & knob) has enzymatic activity - Protons travel through F0 channel, which causes F0 to rotate
- Mechanical energy changes confirmation of catalytic domain in F1
8
Q
Calculate the number of ATP molecules produced by aerobic respiration
A
About 30-32
