a. What do O, L, T, and γ represent or mean? (5)
b. What enzyme-substrate change occurs in the subunit labeled X in going from the left diagram to the right? (3)
c. What caused the change? (2)
Chemistry 340 Exam 4 Fall 2008 |
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There are 48 questions in all. Questions 1-8 are essays and problems worth 64 points.
Questions 1-4 and 9-33 are over recent material, and 5-8 and 34-48 are review questions. Multiple choice questions 9-21 and 34-39 are worth 3 points each.
Questions 22-33 and 40-48 are worth 2 points each.
These are equations and constants that you may find useful:
ΔGT = R T ln (c2/c1) + (Z F ΔV) |
ΔG°′ = - R T ln Keq |
R = 8.314 J/mole-K |
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ΔG = ΔG°′ + R T ln ([products]/[reactants]) |
T = 298 K |
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pH = pKa + log ([A−]/[HA]) |
F = 96,480 J/V-mole | ΔV = − 0.070 V |
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1. The two diagrams below represent two stages in ATP synthesis by ATP synthase. (10)
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a. What do O, L, T, and γ represent or mean? (5) b. What enzyme-substrate change occurs in the subunit labeled X in going from the left diagram to the right? (3) c. What caused the change? (2) |
2. The molecule below is a substrate in the citric acid cycle. (10)
a. Name the enzyme that catalyzes the next reaction and draw the structure of the product.
b. The molecule you drew is also a substrate in the citric acid cycle. Name the enzyme
for which it is a substrate and draw the structure of the next product. (4)
c. Add all co-substrate coenzymes produced by the two reactions. (2)
3. Skeletal muscle glycogen phosphorylase is regulated both allosterically and covalently.
a. Write the reaction catalyzed by glycogen phosphorylase. (3)
b. Name the enzyme that covalently activates glycogen phosphorylase and write the
reaction it catalyzes. (5)
c. Glucose-6-P is an allosteric modulator of glycogen phosphorylase. Is it a positive or
a negative modulator? Why is that reasonable? (2)
4. Use the two half reactions below.
Half reaction |
E°′ (V) |
Half reaction |
E°′ (V) |
cyt a (Fe3+) + e− → cyt a (Fe2+) |
0.29 |
Q + 2 H+ + 2 e− → QH2 |
0.10 |
a. Write the balanced spontaneous whole reaction.
Calculate ΔE°′ and ΔG°′ for the whole reaction.(6)
b. The whole reaction summarizes reactions catalyzed by complexes III and IV.
Electron transport of 2 e− by those complexes causes transport of H+ N → P. (2)
c. Based upon your answers to a and b, what is ΔGT for moving H+ N → P? (2)
Questions 5-8 are review essays. Answer THREE of them. Your choice.
5. We studied several enzymes regulated by covalent modification that requires PKA.
a. Write the reaction catalyzed by PKA when pyruvate kinase in the liver is the substrate.
Which conformation (R or T) is stabilized as a result? (4)
b. What enzyme is required to convert pyruvate kinase to its original conformation?
Write the reaction catalyzed by that enzyme. (4)
6. The two diagrams below represent two stages in the mechanism of the reaction catalyzed by citrate synthase. X represents the enzyme.
a. Label the substrate molecules in the diagram on the left. (2)
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b. Name one mechanism that is used by citrate synthase. Explain how you chose that
mechanism. (2)
c. Name two other mechanisms used by enzymes and a distinguishing feature of each. (4)
7. The table below lists solutes and the membranes they must cross. Choose two. Answer parts a and b for your two choices. No ATP is involved in this transport.
a. What type of protein (ion channel, uniport, symport, or antiport) is required, and in
what direction (out → in, in → out, P → N, or N → P) does it move the solute(s)? If two
solutes are named, write the direction for the first. (4)
b. The equation for ΔGT has two terms: concentration (R T ln c2/c1 ) and charge ((Z F ΔV)).
Which term(s) is/are favorable for the direction in which the solute moves? (4)
solutes |
Ca2+ |
pyruvate |
malate + |
H+ + H2PO4− |
membrane |
cell |
inner mitochondrial |
inner mitochondrial |
inner mitochondrial |
protein type |
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direction |
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favorable term(s) |
8. The last five residues in the β chain of hemoglobin have the sequence A-H-K-Y-H.
a. Draw the sequence at pH 7. Use R to represent the rest of the β chain. (5)
b. What type of interaction involving part of the segment could help to stabilize the T
conformation when the pH becomes more acidic? Name the residue involved.
What other residue (not in this segment) might be involved? (3)
9. Glycogen phosphorylase and glycogen synthase both (A) require ATP; (B) are ligases; (C) catalyze reactions involving α-(1→4) glycoside bonds but not reactions of α-(1→6) glycoside bonds; (D) all of the above.
10. The enzyme in glycogen metabolism that produces PPi is
(A) glycogen synthase; (B) glycogen phosphorylase; (C) phosphoglucomutase;
(D) UDP-glucose pyrophosphorylase; (E) pyrophosphatase.
11. The response to glucagon in a liver cell includes (A) activation of PFK-2;
(B) a decrease in [fructose-2,6-bis-P]; (C) activation of glycogen synthase;
(D) an increase in [ATP].
12. Muscle cell hexokinase is inhibited by and has a KM, while
liver cell hexokinase (glucokinase) is inhibited by and has a KM.
(A) ATP / high / glucose-6-P / low;
(B) glucose-6-P / low / a regulatory protein / high;
(C) glucose-6-P / high / ATP / low; (D) a regulatory protein / low / ATP / high.
13. The response to epinephrine in a muscle cell includes (A) activation of PKA;
(B) inhibition of glycogen phosphorylase; (C) activation of glycogen synthase;
(D) all of the above.
14. Coenzyme Q is reduced by Complex , accepting electrons. It is then oxidized by Complex .
(A) I / 4 / III; (B) II / 2 / III; (C) I / 2 / II; (D) II / 4 / IV.
15. The ratio of the number of cyt c (Fe2+) oxidized by Complex IV to the number of O2 reduced is (A) 4:1; (B) 2:1; (C) 1:2; (D) 3:2.
16. Which of the following is the correct sequence of electron transport complexes required for the oxidation of succinate? (A) I, II, IV: (B) I, III, IV: (C) II, III, IV;
(D) II, I, III, IV.
17. Antimycin A is an inhibitor of complex III. Treatment with Antimycin A would increase concentration and O2 consumption
(A) QH2, reduce; (B) Q, not change; (C) fumarate, increase; (D) QH2, increase.
Assume you are studying mitochondria that are well supplied with citrate, and the citric acid cycle is functioning normally until you add the treatment.
18. Synthesis of 2 ATP by ATP synthase requires transport of from the P side to the N side through ATP synthase and a total of 6 conformation changes by β subunits.
(A) 6 e− / 3 ; (B) 8 H+/ 4; (C) 6 H+ / 2; (D) 8 e− / 2.
19. Energy for the synthesis of ATP by ATP synthase is provided directly by and indirectly by . (A) movement of ADP through the membrane / ATP;
(B) movement of the ring of c subunits / oxidation-reduction reactions;
(C) conformation changes / glycolysis; (D) electron transport / proton transport.
20. Degradation of 1 glucose molecules in the presence of O2 in a cell that uses glycerol-3-P dehydrogenase results in the net synthesis of ATP as a result of glycolysis, ATP as a result of pyruvate dehydrogenase, and ATP as a result of reactions in the citric acid cycle.
(A) 2, 2, 20; (B) 3, 5, 25; (C) 5, 5, 20; (D) 5, 2, 25.
21. Which of the following conditions reduces ATP synthesis by ATP synthase?
(A) low pO2; (B) reducing work done by the cell; (C) low concentration of glucose and other energy sources; (D) all of the above.
22-27. Use these molecules. Not all molecules are used. In addition, name the pathway that requires each enzyme. A pathway may be used more than once. (2 points each)
Assume the citric acid cycle reactions go clockwise (from citrate to oxaloacetate).
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(A) |
(B) |
(C) |
(D) |
(E) |
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(F) |
(G) |
(H) |
(I) |
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Pathways: (K) citric acid (Krebs) cycle; (N) NADH shuttle; (O) glycogen degradation;
(R) regulation of glycolysis and gluconeogenesis; (S) glycogen synthesis.
If a molecule is involved in two pathways, list either. Use each pathway at least once.
22. Intermediate for aconitase Pathway requiring this enzyme
23. Product of PFK-2 Pathway requiring this enzyme
24. Substrate of glycogen synthase Pathway requiring this enzyme
25. Substrate of phosphoglucomutase Pathway requiring this enzyme
26. Product of malate dehydrogenase Pathway requiring this enzyme
27. Substrate of glycerol-3-P dehydrogenase in the inner membrane
Pathway requiring this enzyme
28-31. Answer with the appropriate coenzyme that is required by pyruvate dehydrogenase.
(C) CoA-SH; (F) FAD; (L) lipoate; (N) NAD+; (T) TPP. (2 each) Use a coenzyme only once.
28. Required to transfer C2 to CoA-SH 31. Required by E2
29. Required to oxidize reduced lipoate (dihydrolipoate)
30. A co-substrate coenzyme
32-33. Answer with the appropriate hormone: (E) epinephrine; (G) glucagon; (I) insulin.
Use a hormone only once. 2 points each
32. Causes an increase in glycogen degradation in skeletal muscle cells
33. Causes an increase in glycolysis in liver cells
The remaining questions cover review material. Questions 34-39 are worth 3 points each.
34. Glutamate has three pKa's: 2.19, 4.25, and 9.67. The optimal glutamate buffer for pH 4.5 has a ratio of for . Use these molecules:
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(N) |
(O) |
(P) |
(Q) |
(A) 0.56 / [P]/[O]; (B) 204 / [N]/[O]; (C) 0.25 / [Q]/[P]; (D) 1.8 / [P]/[O].
35. Pyruvate can be converted to lactate, alanine, oxaloacetate, or AcCoA because it is the substrate for four different enzymes. In a mixture such as a cell, what two factors determine the major product?
(A) ΔG°′ for each reaction and Vmax for each enzyme;
(B) [pyruvate] and regulation of the enzymes;
(C) kcat /KM for each enzyme and [co-substrate];
(D) Vmax for each enzyme and PKA activity.
36-37. Use these graphs on O2 binding by myoglobin (Mb) and hemoglobin (Hb).
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36. The Hill plot shows that line (Hb) has , and the other plot shows that
has higher affinity for O2. (A) A, ↑ Kd when pO2 ↓, Hb;
(B) B, ↑ Kd when pO2 ↑, Mb; (C) B, ↓ Kd when pO2 ↑ , Hb;
(D) A, ↓ Kd when pO2 ↓, Mb.
37. Line C shows that adding CO2 stabilizes the conformation, so that the % of with O2 bound if pO2 remains the same.
(A) T, Hb molecules, ↑ ; (B) T, hemes, ↓ ; (C) R, Hb molecules, ↑ ; (D) R, hemes, ↓ .
38. PFK-1 is allosterically activated when binds to a PFK-1 site, which
the [fructose-6-P] required for the apparent K0.5.
(A) ATP / active / ↑ ; (B) fructose-2,6-bis-P / allosteric / ↓ ;
(C) AMP / allosteric / ↑ ; (D) fructose-1,6-bis-P / active /↑ .
39. Gluconeogenesis energy, occurs in , and is used to .
(A) requires / liver cells / provide glucose for cells when blood glucose is low;
(B) produces / all cells / provide ATP for cells when energy supplies are low;
(C) requires / skeletal muscle cells / provide ATP in case of emergency need;
(D) produces / liver cells / provide ATP in the absence of O2.
40-42. Use these molecules. Not all molecules are used. (2 points each)
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(A) |
(B) |
(C) |
(D) |
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(E) |
(F) |
(G) |
(H) |
40. The product of lactate dehydrogenase when [NADH] is high.
42. α-glucose with its anomeric carbon circled
41. The substrate of FBPase-1
43. Which of the following enzymes catalyzes a reversible reaction that requires metal ion catalysis? (A) chymotrypsin; (B) hexokinase; (C) carbonic anhydrase;
(D) glyceraldehyde-3-P dehydrogenase.
44-45. Answer (A) adenylyl cyclase (AC); (G) Gα; (P) PKA; (D) all of these.
If an answer is true for two enzymes, answer with both.
44. Catalyzes its reaction several times whenever it is activated.
45. Has hydrolase activity
46. The Michaelis-Menton equation has in both numerator and denominator and only in the numerator.
(A) KM/ Vmax ; (B) Vmax / [S]; (C) KM / [S]; (D) [S] / Vmax .
47. Moving an ion in a spontaneous direction can be performed by
(A) an ion channel only; (B) a carrier protein only; (C) both proteins;
(D) a primary active transporter only.
