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Deck 7: Cellular Respiration, Fermentation, and Secondary Metabolism
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Deck 7: Cellular Respiration, Fermentation, and Secondary Metabolism
1
The equation, C6H12O6 + 6O2 ?6CO2 + 6H2O (ATP + Heat), describes a reaction that
A) is endergonic.
B) requires energy.
C) occurs in plants only.
D) is exergonic.
E) is anabolic.
A) is endergonic.
B) requires energy.
C) occurs in plants only.
D) is exergonic.
E) is anabolic.
is exergonic.
2
Which of the following is NOT a process of aerobic respiration?
A) citric acid cycle
B) glycolysis
C) acetyl CoA formation
D) oxidative phosphorylation
E) lactate fermentation
A) citric acid cycle
B) glycolysis
C) acetyl CoA formation
D) oxidative phosphorylation
E) lactate fermentation
lactate fermentation
3
Which of the following is TRUE of the citric acid cycle?
A) It yields most of the NAD+ in cell respiration.
B) It produces oxygen.
C) It yields ATP, NADH, and FADH2 as energy intermediates.
D) It occurs on the inner membrane of the mitochondria.
E) It produces ATP as the primary energy intermediate.
A) It yields most of the NAD+ in cell respiration.
B) It produces oxygen.
C) It yields ATP, NADH, and FADH2 as energy intermediates.
D) It occurs on the inner membrane of the mitochondria.
E) It produces ATP as the primary energy intermediate.
It yields ATP, NADH, and FADH2 as energy intermediates.
4
Which of the following function: location relationship is INCORRECT?
A) acetyl CoA formation; cytosol
B) citric acid cycle; mitochondria matrix
C) oxidative phosphorylation; mitochondria inner membrane
D) glycolysis; cytosol
E) electron transport chain and ATP synthase; mitochondria inner membrane
A) acetyl CoA formation; cytosol
B) citric acid cycle; mitochondria matrix
C) oxidative phosphorylation; mitochondria inner membrane
D) glycolysis; cytosol
E) electron transport chain and ATP synthase; mitochondria inner membrane
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5
Which compound has the highest free energy and produces the most ATP when oxidized?
A) acetyl CoA
B) glucose
C) pyruvate
D) carbon
E) both pyruvate and carbon
A) acetyl CoA
B) glucose
C) pyruvate
D) carbon
E) both pyruvate and carbon
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6
Cellular respiration produces the most chemical in the form of ATP from which of the following?
A) the electron transport chain
B) the citric acid cycle
C) substrate-level phosphorylation
D) glycolysis
E) oxidative phosphorylation
A) the electron transport chain
B) the citric acid cycle
C) substrate-level phosphorylation
D) glycolysis
E) oxidative phosphorylation
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7
Which of the following statements is TRUE of both aerobic and anaerobic respiration?
A) Both use glycolysis to oxidize glucose to pyruvate.
B) Both produce NADH as high-energy intermediates.
C) Both produce either lactic acid or enthanol as a bioproduct.
D) Both use glycolysis to oxidize glucose to pyruvate and both produce NADH as high-energy intermediates.
E) Both produce NADH as high-energy intermediates and both produce either lactic acid or enthanol as a bioproduct.
A) Both use glycolysis to oxidize glucose to pyruvate.
B) Both produce NADH as high-energy intermediates.
C) Both produce either lactic acid or enthanol as a bioproduct.
D) Both use glycolysis to oxidize glucose to pyruvate and both produce NADH as high-energy intermediates.
E) Both produce NADH as high-energy intermediates and both produce either lactic acid or enthanol as a bioproduct.
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8
Which would be TRUE if a metabolic poison were to completely inhibit the function of mitochondrial ATP synthase?
A) The pH difference across the inner mitochondrial membrane would decrease.
B) The pH difference across the inner mitochondrial membrane would increase.
C) ATP synthesis would increase.
D) Oxygen consumption would decrease.
E) The accumulation of NADH would increase.
A) The pH difference across the inner mitochondrial membrane would decrease.
B) The pH difference across the inner mitochondrial membrane would increase.
C) ATP synthesis would increase.
D) Oxygen consumption would decrease.
E) The accumulation of NADH would increase.
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9
Which of the following is most directly responsible for driving ATP synthase and the production of ATP in cellular respiration?
A) The electron transport chain pumping H+ from the mitochondrial matrix into the intermembrane space.
B) The flow of electrons down the electron transport chain.
C) The loss in free energy that occurs as an electron moves down the transport chain.
D) The H+ electrochemical gradient across the inner mitochondria membrane.
E) The ability of oxygen to rapidly capture an electron and energize ATP synthase.
A) The electron transport chain pumping H+ from the mitochondrial matrix into the intermembrane space.
B) The flow of electrons down the electron transport chain.
C) The loss in free energy that occurs as an electron moves down the transport chain.
D) The H+ electrochemical gradient across the inner mitochondria membrane.
E) The ability of oxygen to rapidly capture an electron and energize ATP synthase.
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10
Assuming a fat molecule can be oxidized into 2 glycerol molecules, which are immediately converted to glyceraldehyde-3-phosphate, in intermediate glycolysis, how many ATP can be produced from a fat molecule?
A) 4
B) 8
C) 24
D) 36
E) 60
A) 4
B) 8
C) 24
D) 36
E) 60
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11
In the citric acid cycle, succinate is oxidized to form
A) fumarate.
B) succinate.
C) citrate.
D) malate.
E) oxaloacetate.
A) fumarate.
B) succinate.
C) citrate.
D) malate.
E) oxaloacetate.
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12
The enzyme responsible for oxidizing pyruvate once it enters the mitochondrial matrix is
A) pyruvate oxidase
B) pyruvate dehydrogenase.
C) hexokinase
D) ATP synthase.
E) peptidase.
A) pyruvate oxidase
B) pyruvate dehydrogenase.
C) hexokinase
D) ATP synthase.
E) peptidase.
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13
Which pathway shows the correct path of electron transfer from a molecule of NADH?
A) NADH hydrogenase ? ubiquinone ? cytochrome oxidase ? cytochrome b-c1 ? cytochrome c ? O2
B) NADH hydrogenase ? ubiquinone ? cytochrome c ? cytochrome b-c1? cytochrome oxidase ? O2
C) ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? NADH hydrogenase ? O2
D) NADH hydrogenase ? ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? O2
E) ubiquinone ? cytochrome b-c1? cytochrome c ? NADH hydrogenase ? cytochrome oxidase ? O2
A) NADH hydrogenase ? ubiquinone ? cytochrome oxidase ? cytochrome b-c1 ? cytochrome c ? O2
B) NADH hydrogenase ? ubiquinone ? cytochrome c ? cytochrome b-c1? cytochrome oxidase ? O2
C) ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? NADH hydrogenase ? O2
D) NADH hydrogenase ? ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? O2
E) ubiquinone ? cytochrome b-c1? cytochrome c ? NADH hydrogenase ? cytochrome oxidase ? O2
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14
Which pathway shows the correct path of electron transfer from a molecule of FADH2?
A) succinate reductase ? ubiquinone ? cytochrome oxidase ? cytochrome b-c1 ? cytochrome c ? O2
B) succinate reductase ? ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? O2
C) ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? NADH hydrogenase ? O2
D) succinate reductase ? ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? O2.
E) ubiquinone ? cytochrome b-c1? cytochrome c ? NADH hydrogenase ? cytochrome oxidase ? O2.
A) succinate reductase ? ubiquinone ? cytochrome oxidase ? cytochrome b-c1 ? cytochrome c ? O2
B) succinate reductase ? ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? O2
C) ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? NADH hydrogenase ? O2
D) succinate reductase ? ubiquinone ? cytochrome b-c1? cytochrome c ? cytochrome oxidase ? O2.
E) ubiquinone ? cytochrome b-c1? cytochrome c ? NADH hydrogenase ? cytochrome oxidase ? O2.
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15
Sports physiologists at an Olympic training center wanted to monitor athletes to determine at what point their muscles were functioning anaerobically. They could do this by checking for the buildup of which molecule?
A) ATP
B) lactate
C) carbon dioxide
D) ADP
E) oxygen
A) ATP
B) lactate
C) carbon dioxide
D) ADP
E) oxygen
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16
Which of the following is INCORRECT for ethanol fermentation?
A) A source of organic sugar is required, for instance from malt.
B) Results in a net production of NADH.
C) Glucose is oxidized to pyruvate as one of the steps.
D) Carbon dioxide and ATP are produced.
E) NADH is used to reduce acetaldehyde to ethanol.
A) A source of organic sugar is required, for instance from malt.
B) Results in a net production of NADH.
C) Glucose is oxidized to pyruvate as one of the steps.
D) Carbon dioxide and ATP are produced.
E) NADH is used to reduce acetaldehyde to ethanol.
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17
Which of the following does NOT occur during yeast fermentation?
A) Acetylaldehyde is reduced to make ethanol.
B) Decrease in NADH.
C) Lactate is produced.
D) Pyruvate is broken down into CO2 and acetylaldehyde.
E) NADH is oxidized to NAD+
A) Acetylaldehyde is reduced to make ethanol.
B) Decrease in NADH.
C) Lactate is produced.
D) Pyruvate is broken down into CO2 and acetylaldehyde.
E) NADH is oxidized to NAD+
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18
Which of the following is NOT considered a secondary metabolite?
A) glucose
B) flavonoids
C) terpenoids
D) alkoloids
E) polyketides
A) glucose
B) flavonoids
C) terpenoids
D) alkoloids
E) polyketides
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19
Vanillin is to flavonoids as atropine is to
A) flavonoids.
B) terpenoids.
C) polyketides.
D) alkoloids.
E) B-carotenes.
A) flavonoids.
B) terpenoids.
C) polyketides.
D) alkoloids.
E) B-carotenes.
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20
NADH and FADH2 donate their electrons to protein complex I.
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21
ATP synthase is a good example of a molecular machine that is composed of various protein subunits and that has moving parts.
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22
The proton motive force is key to chemiosis because the H+ electrochemical gradient is lower in the intermembrane space than inside the matrix.
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23
When a molecule of NAD+ (nicontinamide adenine dinucleotide) gains a hydrogen atom, the molecule becomes reduced.
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24
Proteins and fats may be used as energy sources to drive aerobic respiration.
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25
During the energy investment phase of glycolysis there is a decrease of free energy that allows later reactions to be exergonic.
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26
The ability of bread to rise is mainly a function of the CO2 produced during oxidative phosphorylation rather than that produced from fermentation.
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27
The aerobic breakdown of glucose yields 34 to 38 ATP, while the anaerobic breakdown of glucose yields 20 ATP.
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28
Secondary metabolites like caffeine are produced mainly from plant sources.
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