1. Which enzyme forms a carbon-carbon bond without using a metal ion as a co-factor?
2. Which enzyme has stereochemical specificity?
3. Which enzyme catalyzes the first oxidative decarboxylation?
4. This compound is similar to the substrate of the PDC reaction.
5. Cleavage of the thioester bond of ____________ generates energy to drive the synthesis of GTP.
6. The co-factor for the synthesis of fumarate is ___________.
7. Formation of malate requires __________ as a substrate.
8. Regeneration of oxalacetate requires ____________.
9. ______________ is an inhibitor of citrate synthase.
10. Release of _________ is part of the catabolic process of the CAC.
Answer Choices.
l. citrate synthase
k. carbon dioxide
j. isocitrate dehydrogenase
i. NAD+
h. aconitase
g. NADH
f. FADH2
e. alpha-ketoglutarate
d. succinyl Co-A
c. FAD
b. water
a. Fumarase
2. Which enzyme has stereochemical specificity?
3. Which enzyme catalyzes the first oxidative decarboxylation?
4. This compound is similar to the substrate of the PDC reaction.
5. Cleavage of the thioester bond of ____________ generates energy to drive the synthesis of GTP.
6. The co-factor for the synthesis of fumarate is ___________.
7. Formation of malate requires __________ as a substrate.
8. Regeneration of oxalacetate requires ____________.
9. ______________ is an inhibitor of citrate synthase.
10. Release of _________ is part of the catabolic process of the CAC.
Answer Choices.
l. citrate synthase
k. carbon dioxide
j. isocitrate dehydrogenase
i. NAD+
h. aconitase
g. NADH
f. FADH2
e. alpha-ketoglutarate
d. succinyl Co-A
c. FAD
b. water
a. Fumarase