Bio chem chp. 19 (citric acid cycle)

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. Which enzymes in the citric acid cycle catalyze oxidative decarboxylation reactions? A. isocitrate dehydrogenase and the a-ketoglutarate dehydrogenase complex B. aconitase and succinate dehydrogenase C. the a-ketoglutarate dehydrogenase complex and succinate thiokinase D. fumarase and succinate dehydrogenase

A

17. The reactions in which succinate is converted to oxaloacetate are, in order A. an oxidation, a dehydration, and an oxidation B. three successive oxidation reactions C. an oxidative decarboxylation, a dehydration, and a condensation D. a condensation, a dehydration, and an oxidative decarboxylation

A

29. When acetyl-CoA reacts with oxaloacetate to form citrate A. a new carbon-carbon bond is formed B. an oxidative decarboxylation reaction takes place C. a dehydration reaction takes place D. a rearrangement takes place

A

39. Which of these enzymes is most similar to pyruvate dehydrogenase? A. Alpha-Ketoglutarate Dehydrogenase complex. B. IsoCitrate Dehydrogenase. C. Succinate Dehydrogenase. D. Malate Dehydrogenase. E. None of these enzymes is similar to pyruvate dehydrogenase.

A

49. Which of the following enzymes is allosterically inhibited by ATP? A. pyruvate dehydrogenase complex B. succinyl-CoA synthetase C. succinate dehydrogenase D. fumarase

A

50. Which of the following enzymes is allosterically activated by NAD+? A. isocitrate dehydrogenase B. succinyl-CoA synthetase C. succinate dehydrogenase D. fumarase

A

52. A control point outside the citric acid cycle is the reaction catalyzed by A. the pyruvate dehydrogenase complex. B. citrate synthetase. C. isocitrate dehydrogenase. D. the a-ketoglutarate dehydrogenase complex.

A

56. Which of the following is true regarding the control of pyruvate dehydrogenase? A. It is inhibited by ATP B. It is inhibited by NAD+ C. It is activated by acetyl-CoA D. It is inhibited by succinyl-CoA E. none of these are true

A

58. The intracellular site of the glyoxylate cycle is A. glyoxysomes only. B. glyoxysomes and lysosomes. C. glyoxysomes and Golgi apparatus. D. glyoxysomes and smooth endoplasmic reticulum.

A

76. The citric acid cycle is considered part of aerobic metabolism even though oxygen does not appear explicitly in any reaction because A. the NADH and FADH2 produced are reoxidized in the electron transport chain linked to oxygen B. the reoxidation of NADH and FADH2 leads to the production of considerable quantities of ATP C. it takes place in the mitochondrion D. it contains oxidation reactions

A

Which group of small molecules best fit the boxes associated with the reaction shown? A B I. NAD+ NADH II. NADP+ NADPH III. ADP + Pi ATP IV. FAD FADH2 A. I B. II C. III D. IV

A

Which intermediate is formed from acetyl-CoA and oxaloacetate. A. Citrate + CoA-SH (Citrate synthase) B. Succinate + GTP + CoA-SH (Succinyl-CoA synthetase) C. Succinyl-CoA +H+ Co2+ NADH (Alpha-ketoglutarate dehydrogenase complex) D. All of the above E. None of the above

A

The citric acid cycle is amphibolic, meaning A. it plays a role in both anabolism and catabolism. B. it is essentially irreversible. C. it can operate both in the presence and absence of oxygen. D. it can oxidize carbons and nitrogens equally well.

A. it plays a role in both anabolism and catabolism.

10. The acetyl group is carried on lipoic acid as A. an alcohol. B. a thioester. C. a phosphoanhydride. D. an amide.

B

12. Which of the following is not a reaction occurring during oxidative decarboxylation of pyruvate? A. Removal of CO2. B. Oxidation of an acetate group. C. Addition of Coenzyme A to a 2-carbon fragment. D. Reduction of NAD+ E. All of these reactions take place during oxidative decarboxylation.

B

31. Release of succinate from succinyl-CoA can be coupled to GTP synthesis because: A. The amide bond between succinate and CoA has a large -DG of hydrolysis. B. The thioester bond between succinate and CoA has a large -DG of hydrolysis. C. The link between succinate and CoA involves an acid anhydride to phosphate. D. Coenzyme A is a "high energy" compound, just like GTP. E. None of these explains why GTP can be formed during this reaction.

B

36. The conversion of citrate to isocitrate is remarkable because A. it is a condensation reaction. B. a chiral center is introduced in a molecule that did not have one previously. C. a dehydration reaction is involved. D. the enzyme that catalyzes it has very little specificity.

B

59. A unique feature of the glyoxylate cycle is that it allows the organisms that possess this pathway to A. produce fats from carbohydrates. B. produce carbohydrates from fats. C. convert acetyl-CoA to pyruvate. D. do all of the above.

B

63. An organism that undergoes the glyoxylate cycle can make sugar from fat because: A. there is a specific isomerase that converts a six carbon fatty acid to glucose B. the unique reactions of the glyoxylate cycle bypass the two decarboyxlation reactions of the citric acid cycle C. glyoxysomes lack succinate dehydrogenase D. none of these

B

71. There is a cyclic reaction in which pyruvate becomes oxaloacetate. The oxaloacetate is converted to malate and then back to pyruvate. This cycle is important because: A. There is no net use or fixation of CO2 in this cycle. B. NADH is converted to NADPH in this cycle. C. There is no net oxidation or reduction in this cycle. D. NADPH is converted to NADH in this cycle. E. This is actually a wasteful pathway with no practical use.

B

9. Thiamine pyrophosphate carries a ____ carbon unit. A. 1 B. 2 C. 3 D. 4

B

In which cellular location do the majority of the reactions of the citric acid cycle take place? A. the cytosol. B. the mitochondrial matrix. C. the endoplasmic reticulum. D. lysosomes.

B

The immediate electron acceptor for the majority of the oxidative reactions of the citric acid cycle is A. ATP. B. NAD. C. FAD. D. coenzyme A.

B

Which group of small molecules best fit the boxes associated with the reaction shown? A B I. ADP + 2 Pi ATP II. NAD+ NADH III. NADP+ NADPH IV. FAD FADH2 A. I B. II C. III D. IV

B

18. All but one of the enzymes of the citric acid cycle are found in this part of the mitochondrion: A. The outer membrane. B. The inner membrane. C. The mitochondrial matrix. D. The intermembrane space. E. It is not known where these enzymes are located.

C

19. Which of the following enzymes contains a non-heme iron? A. citrate synthase B. succinyl-CoA synthetase C. succinate dehydrogenase D. fumarase

C

24. Which coenzyme listed below is not associated with the a-ketoglutarate dehydrogenase complex? A. thiamine pyrophosphate B. lipoic acid C. biotin D. NAD+

C

25. Which of the following enzymes is the only membrane-bound enzyme in the citric acid cycle? A. Aconitase. B. IsoCitrate Dehydrogenase. C. Succinate Dehydrogenase. D. Malate Dehydrogenase. E. Alpha-Ketoglutarate Dehydrogenase complex.

C

30. The order of compounds and intermediates found in the citric acid cycle is as follows: A. IsoCitrate Aconitate ® a-Ketoglutarate ® Fumarate ® Malate ® Oxaloacetate B. Aconitate ® IsoCitrate ® Oxaloacetate ® a-Ketoglutarate ® Malate ® Fumarate C. Aconitate ® IsoCitrate ® a-Ketoglutarate ® Fumarate ® Malate ® Oxaloacetate D. Aconitate ® IsoCitrate ® a-Ketoglutarate ® Malate ® Fumarate ® Oxaloacetate E. IsoCitrate ® Aconitate ® a-Ketoglutarate ® Malate ® Oxaloacetate ® Fumarate

C

35. Which of the reactions of the citric acid cycle requires FAD as a coenzyme? A. the conversion of isocitrate to a-ketoglutarate B. the conversion of citrate to isocitrate C. the conversion of succinate to fumarate D. the conversion of malate to oxaloacetate

C

38. Which of the following enzymes does not use NAD+ for oxidation? A. Alpha-Ketoglutarate Dehydrogenase complex. B. IsoCitrate Dehydrogenase. C. Succinate Dehydrogenase. D. Malate Dehydrogenase. E. All of these enzymes use NAD+

C

48. Which of the following enzymes is not a control point of the citric acid cycle? A. citrate synthase B. isocitrate dehydrogenase C. aconitase D. the a-ketoglutarate dehydrogenase complex

C

51. The reaction in which malate is oxidized to oxaloacetate is not thermodynamically favored. It takes place because A. it is coupled to ATP hydrolysis. B. it involves substrate-level phosphorylation. C. the product is continuously used up in the next reaction of the cycle, which is thermodynamically favored. D. it is coupled to a strong reduction.

C

53. A cell in an active metabolic state has A. a high (ATP/ADP) and a high (NADH/NAD+) ratio. B. a high (ATP/ADP) and a low (NADH/NAD+) ratio. C. a low (ATP/ADP) and a low (NADH/NAD+) ratio. D. a low (ATP/ADP) and a high (NADH/NAD+) ratio.

C

55. "Energy charge" in a cell is a measure of A. ATP/NAD+ ratios. B. ATP/NADH ratios. C. ATP/ADP ratios. D. NADH/NAD+ ratios. E. NAD+/ADP ratios.

C

57. The glyoxylate cycle occurs in A. plants and animals. B. bacteria and animals. C. plants and bacteria. D. plants, animals, and bacteria.

C

65. Which of the following statements concerning the glyoxylate pathway is false? A. It utilizes one mole of acetyl-CoA per cycle. B. It can produce a net synthesis of 4-carbon fragments that are intermediates of the citric acid cycle. C. It does not occur in the mitochondria. D. It is the main pathway that allows for synthesis of sugars from acetyl-CoA.

C

70. Which of the following is a source of NADPH? A. the pentose phosphate pathway B. a series of reactions in which oxaloacetate is reduced to malate followed by oxidative decarboxylation of the malate to pyruvate C. both of the above D. neither of these

C

77. In the classical equation for respiration: Glucose + 6O2 --> 6CO2 + 6H2O, the following molecules are found directly in the citric acid cycle: A. O2 B. Glucose and O2 C. CO2 and H2O D. all of these arae found directly in the citric acid cycle

C

13. The enzymes involved in the pyruvate dehydrogenase complex are A. physically separated from each other B. crosslinked to each other by lipoic acid linkers C. covalently bonded to coenzyme A D. associated with each other in a cubical array

D

22. Which of the following reactions involves substrate-level phosphorylation? A. isocitrate ® a-ketoglutarate B. citrate ® isocitrate C. succinate ® fumarate D. succinyl-CoA ® succinate

D

34. Fluorine is related to the citric acid cycle because: A. fluoroacetyl-CoA is also a substrate for citrate synthase B. fluoroacetate, found in poisonous plants, acts as an inhibitor of aconitase C. fluorocitrate acts as a potent inhibitor of the citric acid cycle D. all of these

D

37. In the conversion of succinyl-CoA to succinate, GTP is produced from GDP in a reaction in which the source of the added phosphate is A. ATP. B. ADP. C. phosphenolpyruvate. D. inorganic phosphate ion.

D

47. The conversion of malate to oxaloacetate has a high +DG (it is endergonic). It can take place because: A. It is coupled to hydrolysis of the GTP produce earlier in the cycle. B. It is coupled to hydrolysis of ATP from other sources. C. It involves a substrate level phosphorylation. D. The oxaloacetate product is used up in the subsequent reaction. E. It is coupled to a strong reduction reaction.

D

60. The glyoxylate pathway bypasses part of the citric acid cycle by converting isocitrate to glyoxylate and A. a-ketoglutarate B. fumarate C. succinyl-CoA D. succinate

D

61. In the glyoxylate cycle, acetyl-CoA reacts with glyoxylate to produce A. succinyl-CoA B. succinate C. fumarate D. malate

D

66. Most of the products of the catabolism of sugars, fats and amino acids enter the citric acid cycle as: A. pyruvate B. acetyl-CoA C. malate D. all of these E. none of these

D

69. Which of the following cannot cross the inner mitochondrial membrane? A. malate B. phosphoenolpyruvate C. succinyl-CoA D. oxaloacetate

D

7. The reaction of the citric acid cycle that does not take place in the mitochondrial matrix is the one catalyzed by: A. fumarase B. citrate synthase C. isocitrate dehydrogenase D. succinate dehydrogenase E. All of these reactions take place in the matrix

D

Which group of small molecules best fit the boxes associated with the reaction shown? A B I. ADP + 2 Pi ATP II. NAD+ NADH III. ATP ADP + 2 Pi IV. FAD FADH2 A. I B. II C. III D. IV

D

Which intermediate does FAD oxidize? A. L-Malate to oxaloacetate (L-malate dehydrogenase) B.Citrate to isocitrate (Aconitase) C.Fumerate to L-Malate (fumerase) D.Succinate to fumerate (Succinate dehydrogenase) E. none of the above

D

11. Which of the following vitamins and enzyme cofactors are used by the pyruvate dehydrogenase complex during oxidative decarboxylation? A. Lipoic Acid. B. Niacin. C. Pantothenic Acid. D. Thiamine. E. All of these

E

74. Which of the following describes a use for acetyl-CoA as an important intermediate in metabolism? A. Breakdown to CO2 and water, yielding much energy. B. Synthesis of terpenes and steroids. C. Synthesis of oxaloacetate in plants. D. Synthesis of fatty acids. E. All of these are reasons why acetyl-CoA is a central molecule in metabolism.

E

8. Which of the following is not a component of the pyruvate dehydrogenase complex? A. pyruvate dehydrogenase B. dihydrolipoyl transacetylase C. dihydrolipoyl dehydrogenase D. pyruvate dehydrogenase kinase E. aconitase

E

Which intermediate is formed from fumarate A. Fumerate to succinate (succinate dehydrogenase) B.Fumerate to alpha-ketoglutarate (alpha-ketoglutarate complex) C. Frumerate to citrate (Aconitase) D.Fumerate to isocitrate (isocitrate dehydrogenase) E. Fumerate to L-Malate (fumerase)

E

Which intermediate releases CO2 concurrent with oxidation? A. between isocitrate and alpha- ketoglutarate (isocitrate dehydrogenase) B. between succinate and fumerate (succinate dehydrogenase) C. Between alpha-ketoglutarate and succinyl- CoA (alpha-ketoglutarate dehydrogenase complex) D. Both A and B E. Both A and C

E.

Which of the following statements concerning the citric acid cycle as the central metabolic pathway is true? A. It is involved in the metabolism of sugars and amino acids. B. It is involved in the metabolism of amino acids and lipids. C. It links anaerobic metabolism to aerobic metabolism. D. Many of its intermediates are starting points for synthesis of a variety of compounds. E. All of these are reasons why the citric acid cycle is considered to be the central pathway.

E. All of these are reasons why the citric acid cycle is considered to be the central pathway

. The citric acid cycle is the only metabolic pathway that can be used both as an anabolic and as a catabolic pathway. True or False

Flase

14. Lipoic acid is a required vitamin in the human diet. A. True B. False

Flase

15. Each of the enzymes of the pyruvate dehydrogenase complex requires a different vitamin. A. True B. False

True

32. The only difference between succinate and fumarate is the geometry around their double bonds, one contains a cis double bond and the other contains a trans double bond. A. True B. False

false

33. The enzyme "aconitase" is also known as "condensing enzyme" A. True B. False

false

26. The iron ion, which is part of succinate dehydrogenase, is bonded to heme. A. True B. False

flase

46. One round of the citric acid cycle generates about ten equivalents of ATP. A. True B. False

flase

75. Intermediates of the citric acid cycle are especially important in the synthesis of fatty acids and amino acids. A. True B. False

flase

54. The "energy charge" in a cell is important in the control of metabolism. A. True B. False

true

62. Glyoxysomes are named for the fact that they contain the glyoxylate pathway. A. True B. False

true

64. The production of malate in the glyoxylate pathway is important, since it can be readily converted to phosphoenolpyruvate and then to sugars. A. True B. False

true

67. The citric acid cycle uses anaplerotic reactions to get rid of the many intermediates of the cycle that accumulate during catabolism of amino acids. A. True B. False

true

68. When the citric acid cycle is not functioning, the most common fate of acetyl-CoA from sugar metabolism in humans is the formation of fatty acids or cholesterol. A. True B. False

true

73. Weight loss in humans can be difficult to achieve, since we lack the ability to convert our fats to sugars, and it is difficult to change our metabolism to using fats as a primary energy source. A. True B. False

true


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