Ch.7 Cellular Respiration

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In the absence of oxygen, yeast cells can obtain energy by fermentation, resulting in the production of _____. Question 48 options: 1) ATP, CO2, and ethanol (ethyl alcohol) 2) ATP, CO2, and lactate 3) ATP, NADH, and pyruvate 4) ATP, pyruvate, and acetyl CoA

1) ATP, CO2, and ethanol (ethyl alcohol)

Which of the listed statements describes the results of the following reaction?C6H12O6 + 6 O2 → 6 CO2 + 6 H2O + Energy Question 4 options: 1) C6H12O6 is oxidized and O2 is reduced. 2) O2 is oxidized and H2O is reduced. 3) CO2 is reduced and O2 is oxidized. 4) O2 is reduced and CO2 is oxidized.

1) C6H12O6 is oxidized and O2 is reduced.

A young dog has never had much energy. He is brought to a veterinarian for help and she decides to conduct several diagnostic tests. She discovers that the dog's mitochondria can use only fatty acids and amino acids for respiration, and his cells produce more lactate than normal. Of the following, which is the best explanation of the dog's condition? Question 57 options: 1) His mitochondria lack the transport protein that moves pyruvate across the outer mitochondrial membrane. 2) His cells cannot move NADH from glycolysis into the mitochondria. 3) His cells lack the enzyme in glycolysis that forms pyruvate. 4) His cells have a defective electron transport chain, so glucose goes to lactate instead of to acetyl CoA.

1) His mitochondria lack the transport protein that moves pyruvate across the outer mitochondrial membrane.

You have a friend who lost 7 kg (about 15 pounds) of fat on a regimen of strict diet and exercise. How did the fat leave his body? Question 42 options: 1) It was released as CO2 and H2O. 2) It was converted to heat and then released. 3) It was converted to ATP, which weighs much less than fat. 4) It was converted to urine and eliminated from the body.

1) It was released as CO2 and H2O.

Which of the following statements about NAD+ is true? Question 7 options: 1) NAD+ is reduced to NADH during glycolysis, pyruvate oxidation, and the citric acid cycle. 2) NAD+ has more chemical energy than NADH. 3) NAD+ can donate electrons for use in oxidative phosphorylation. 4) In the absence of NAD+, glycolysis can still function.

1) NAD+ is reduced to NADH during glycolysis, pyruvate oxidation, and the citric acid cycle.

Exposing inner mitochondrial membranes to ultrasonic vibrations will disrupt the membranes. However, the fragments will reseal "inside out." The little vesicles that result can still transfer electrons from NADH to oxygen and synthesize ATP.After the disruption, when electron transfer and ATP synthesis still occur, what must be present? Question 43 options: 1) all of the electron transport proteins and ATP synthase 2) all of the electron transport system and the ability to add CoA to acetyl groups 3) the ATP synthase system 4) the electron transport system

1) all of the electron transport proteins and ATP synthase

Exposing inner mitochondrial membranes to ultrasonic vibrations will disrupt the membranes. However, the fragments will reseal "inside out." The little vesicles that result can still transfer electrons from NADH to oxygen and synthesize ATP.These inside-out membrane vesicles will _____. Question 44 options: 1) become acidic inside the vesicles when NADH is added 2) become alkaline inside the vesicles when NADH is added 3) make ATP from ADP and i if transferred to a pH 4 buffered solution after incubation in a pH 7 buffered solution 4) hydrolyze ATP to pump protons out of the interior of the vesicle to the exterior

1) become acidic inside the vesicles when NADH is added

Yeast cells that have defective mitochondria incapable of respiration will be able to grow by catabolizing which of the following carbon sources for energy? Question 52 options: 1) glucose 2) proteins 3) fatty acids 4) Such yeast cells will not be capable of catabolizing any food molecules, and therefore, will die

1) glucose

During aerobic respiration, electrons travel downhill in which sequence? Question 30 options: 1) glucose → NADH → electron transport chain → oxygen 2) glucose → pyruvate → ATP → oxygen 3) glucose → ATP → electron transport chain → NADH 4) food → glycolysis → citric acid cycle → NADH → ATP

1) glucose → NADH → electron transport chain → oxygen

Which of the following normally occurs regardless of whether or not oxygen (O2) is present? Question 46 options: 1) glycolysis 2) fermentation 3) citric acid cycle 4) oxidative phosphorylation (chemiosmosis)

1) glycolysis

Which of the following occurs in the cytosol of a eukaryotic cell? Question 47 options: 1) glycolysis and fermentation 2) fermentation and chemiosmosis 3) oxidation of pyruvate to acetyl CoA 4) citric acid cycle

1) glycolysis and fermentation

The chemiosmotic hypothesis is an important concept in our understanding of cellular metabolism in general because it explains _____. Question 29 options: 1) how ATP is synthesized by a proton motive force 2) how electron transport can fuel substrate-level phosphorylation 3) the sequence of the electron transport chain molecules 4) the reduction of oxygen to water in the final steps of oxidative metabolism

1) how ATP is synthesized by a proton motive force

The electron transport chain _____. Question 28 options: 1) is a series of redox reactions 2) is a series of substitution reactions 3) is driven by ATP consumption 4) takes place in the cytoplasm of prokaryotic cells

1) is a series of redox reactions

When electrons move closer to a more electronegative atom, what happens? The more electronegative atom is _____. Question 3 options: 1) reduced, and energy is released 2) reduced, and energy is consumed 3) oxidized, and energy is consumed 4) oxidized, and energy is released

1) reduced, and energy is released

Substrate-level phosphorylation accounts for approximately what percentage of the ATP formed by the reactions of glycolysis? Question 11 options: 1) 0% 2) 2% 3) 38% 4) 100%

100%

Starting with one molecule of glucose, the energy-containing products of glycolysis are _____. Question 13 options: 1) 2 NAD+, 2 pyruvate, and 2 ATP 2) 2 NADH, 2 pyruvate, and 2 ATP 3) 2 FADH2, 2 pyruvate, and 4 ATP 4) 6 CO2, 2 pyruvate, and 2 ATP

2 NADH, 2 pyruvate, and 2 ATP

A cell has enough available ATP to meet its needs for about 30 seconds. What is likely to happen when an athlete exhausts his or her ATP supply? Question 10 options: 1) He or she has to sit down and rest. 2) Catabolic processes are activated that generate more ATP. 3) ATP is transported into the cell from the circulatory system. 4) Other cells take over, and the muscle cells that have used up their ATP cease to function.

2) Catabolic processes are activated that generate more ATP.

New biosensors, applied like a temporary tattoo to the skin, can alert serious athletes that they are about to "hit the wall" and find it difficult to continue exercising. These biosensors monitor lactate, a form of lactic acid, released in sweat during strenuous exercise.Which of the statements below is the best explanation of why athletes would need to monitor lactate levels? Question 61 options: 1) During aerobic respiration, muscle cells cannot produce enough lactate to fuel muscle cell contractions and muscles begin to cramp, thus athletic performance suffers. 2) During anaerobic respiration, lactate levels increase when muscles cells need more energy, however muscles cells eventually fatigue, thus athletes should modify their activities to increase aerobic respiration. 3) During aerobic respiration, muscles cells produce too much lactate which causes a rise in the pH of the muscle cells, thus athletes must consume increased amounts of sports drinks, high in electrolytes, to buffer the pH. 4) During anaerobic respiration, muscle cells receive too little oxygen and begin to convert lactate to pyruvate (pyruvic acid), thus athletes experience cramping and fatigue.

2) During anaerobic respiration, lactate levels increase when muscles cells need more energy, however muscles cells eventually fatigue, thus athletes should modify their activities to increase aerobic respiration.

Why is glycolysis considered to be one of the first metabolic pathways to have evolved? Question 51 options: 1) It produces much less ATP than does oxidative phosphorylation. 2) It does not involve organelles or specialized structures, does not require oxygen, and is present in most organisms. 3) It is found in prokaryotic cells but not in eukaryotic cells. 4) It requires the presence of membrane-enclosed cell organelles found only in eukaryotic cells.

2) It does not involve organelles or specialized structures, does not require oxygen, and is present in most organisms.

Which electron carrier(s) function in the citric acid cycle? Question 18 options: 1) NAD+ only 2) NADH and FADH2 3) the electron transport chain 4) ADP and ATP

2) NADH and FADH2

If pyruvate oxidation is blocked, what will happen to the levels of oxaloacetate and citric acid in the citric acid cycle shown in the accompanying figure? Question 23 options: 1) Oxaloacetate will decrease and citric acid will accumulate. 2) Oxaloacetate will accumulate and citric acid will decrease. 3) Both oxaloacetate and citric acid will decrease. 4) Both oxaloacetate and citric acid will accumulate.

2) Oxaloacetate will accumulate and citric acid will decrease.

If you were to add one of the eight citric acid cycle intermediates to the culture medium of yeast growing in the laboratory, what do you think would happen to the rates of ATP and carbon dioxide production? Question 19 options: 1) There would be no change in ATP production, but we would observe an increased rate of carbon dioxide production. 2) The rates of ATP production and carbon dioxide production would both increase. 3) The rate of ATP production would decrease, but the rate of carbon dioxide production would increase. 4) Rates of ATP and carbon dioxide production would probably both decrease.

2) The rates of ATP production and carbon dioxide production would both increase.

The oxygen consumed during cellular respiration is involved directly in which process or event? Question 8 options: 1) glycolysis 2) accepting electrons at the end of the electron transport chain 3) the citric acid cycle 4) the oxidation of pyruvate to acetyl CoA

2) accepting electrons at the end of the electron transport chain

The primary role of oxygen in cellular respiration is to _____. Question 33 options: 1) yield energy in the form of ATP as it is passed down the respiratory chain 2) act as an acceptor for electrons and hydrogen, forming water 3) combine with carbon, forming CO2 4) combine with lactate, forming pyruvate

2) act as an acceptor for electrons and hydrogen, forming water

High levels of citric acid inhibit the enzyme phosphofructokinase, a key enzyme in glycolysis. Citric acid binds to the enzyme at a different location from the active site. This is an example of _____. Question 54 options: 1) competitive inhibition 2) allosteric regulation 3) the specificity of enzymes for their substrates 4) positive feedback regulation

2) allosteric regulation

The synthesis of ATP by oxidative phosphorylation, using the energy released by the movement of protons across the membrane down their electrochemical gradient, is an example of _____. Question 39 options: 1) active transport 2) an endergonic reaction coupled to an exergonic reaction 3) a reaction with a positive ΔG 4) allosteric regulation

2) an endergonic reaction coupled to an exergonic reaction

The molecule that functions as the reducing agent (electron donor) in a redox or oxidation-reduction reaction _____. Question 2 options: 1) gains electrons and gains potential energy 2) loses electrons and loses potential energy 3) gains electrons and loses potential energy 4) loses electrons and gains potential energy

2) loses electrons and loses potential energy

Glycolysis is active when cellular energy levels are _____; the regulatory enzyme, phosphofructokinase, is _____ by ATP. Question 55 options: 1) low; activated 2) low; inhibited 3) high; activated 4) high; inhibited

2) low; inhibited

Where are the proteins of the electron transport chain located? Question 31 options: 1) mitochondrial outer membrane 2) mitochondrial inner membrane 3) mitochondrial intermembrane space 4) mitochondrial matrix

2) mitochondrial inner membrane

Carbon dioxide (CO2) is released during which of the following stages of cellular respiration? Question 20 options: 1) glycolysis and the oxidation of pyruvate to acetyl CoA 2) oxidation of pyruvate to acetyl CoA and the citric acid cycle 3) oxidative phosphorylation and fermentation 4) fermentation and glycolysis

2) oxidation of pyruvate to acetyl CoA and the citric acid cycle

When a glucose molecule loses a hydrogen atom as the result of an oxidation-reduction reaction, the molecule becomes _____. Question 5 options: 1) hydrolyzed 2) oxidized 3) reduced 4) an oxidizing agent

2) oxidized

For each mole of glucose (C6H12O6) oxidized by cellular respiration, how many moles of CO2 are released in the citric acid cycle (see the accompanying figure)? Question 22 options: 1) 2 2) 4 3) 6 4) 32

2) 4

In glycolysis, for each molecule of glucose oxidized to pyruvate _____. Question 14 options: 1) two molecules of ATP are used and two molecules of ATP are produced. 2) two molecules of ATP are used and four molecules of ATP are produced. 3) four molecules of ATP are used and two molecules of ATP are produced. 4) two molecules of ATP are used and six molecules of ATP are produced.

2) two molecules of ATP are used and four molecules of ATP are produced.

Starting with citrate, which of the following combinations of products would result from three acetyl CoA molecules entering the citric acid cycle (see the accompanying figure)? Question 24 options: 1) 1 ATP, 2 CO2, 3 NADH, and 1 FADH2 2) 3 ATP, 3 CO2, 3 NADH, and 3 FADH2 3) 3 ATP, 6 CO2, 9 NADH, and 3 FADH2 4) 38 ATP, 6 CO2, 3 NADH, and 12 FADH2

3) 3 ATP, 6 CO2, 9 NADH, and 3 FADH2

In liver cells, the inner mitochondrial membranes are about five times the area of the outer mitochondrial membranes. What purpose must this serve? Question 41 options: 1) It allows for an increased rate of glycolysis. 2) It allows for an increased rate of the citric acid cycle. 3) It increases the surface for oxidative phosphorylation. 4) It increases the surface for substrate-level phosphorylation.

3) It increases the surface for oxidative phosphorylation.

The free energy for the oxidation of glucose to CO2 and water is -686 kcal/mol and the free energy for the reduction of NAD+ to NADH is +53 kcal/mol. Why are only two molecules of NADH formed during glycolysis when it appears that as many as a dozen could be formed? Question 12 options: 1) Most of the free energy available from the oxidation of glucose is used in the production of ATP in glycolysis. 2) Glycolysis is a very inefficient reaction, with much of the energy of glucose released as heat. 3) Most of the free energy available from the oxidation of glucose remains in pyruvate, one of the products of glycolysis. 4) There is no CO2 or water produced as products of glycolysis.

3) Most of the free energy available from the oxidation of glucose remains in pyruvate, one of the products of glycolysis.

Which one of the following is formed by the removal of a carbon (as CO2) from a molecule of pyruvate? Question 26 options: 1) glyceraldehyde 3-phosphate 2) oxaloacetate 3) acetyl CoA 4) citrate

3) acetyl CoA

In the presence of oxygen, the three-carbon compound pyruvate can be catabolized in the citric acid cycle. First, however, the pyruvate (1) loses a carbon, which is given off as a molecule of CO2, (2) is oxidized to form a two-carbon compound called acetate, and (3) is bonded to coenzyme A.The three listed steps result in the formation of _____. Question 25 options: 1) acetyl CoA, O2, and ATP 2) acetyl CoA, FADH2, and CO2 3) acetyl CoA, NADH, and CO2 4) acetyl CoA, NAD+, ATP, and CO2

3) acetyl CoA, NADH, and CO2

Even though plants cells photosynthesize, they still use their mitochondria for oxidation of pyruvate. This will occur in _____. Question 58 options: 1) photosynthetic cells in the light, while photosynthesis occurs concurrently 2) cells that are storing glucose only 3) all cells all the time 4) photosynthesizing cells in the light and in other tissues in the dark

3) all cells all the time

Which kind of metabolic poison would most directly interfere with glycolysis? Question 15 options: 1) an agent that reacts with oxygen and depletes its concentration in the cell 2) an agent that binds to pyruvate and inactivates it 3) an agent that closely mimics the structure of glucose but is not metabolized 4) an agent that reacts with NADH and oxidizes it to NAD+

3) an agent that closely mimics the structure of glucose but is not metabolized

Canine phosphofructokinase (PFK) deficiency afflicts Springer spaniels, affecting an estimated 10% of the breed. Given its critical role in glycolysis, one implication of the genetic defect resulting in PFK deficiency in dogs is _____. Question 56 options: 1) early embryonic mortality 2) elevated blood-glucose levels in the dog's blood 3) an intolerance for exercise 4) a reduced life span

3) an intolerance for exercise

When hydrogen ions are pumped from the mitochondrial matrix across the inner membrane and into the intermembrane space, the result is the _____. Question 37 options: 1) formation of ATP 2) reduction of NAD+ 3) creation of a proton-motive force 4) lowering of pH in the mitochondrial matrix

3) creation of a proton-motive force

In chemiosmosis, what is the most direct source of energy that is used to convert ADP + i to ATP? Question 35 options: 1) energy released as electrons flow through the electron transport system 2) energy released from substrate-level phosphorylation 3) energy released from movement of protons through ATP synthase, down their electrochemical gradient 4) No external source of energy is required because the reaction is exergonic.

3) energy released from movement of protons through ATP synthase, down their electrochemical gradient

Carbohydrates and fats are considered high-energy foods because they _____. Question 9 options: 1) have a lot of oxygen atoms. 2) have no nitrogen in their makeup. 3) have a lot of electrons associated with hydrogen. 4) are easily reduced.

3) have a lot of electrons associated with hydrogen.

Substrate-level phosphorylation occurs _____. Question 1 options: 1) in glycolysis 2) in the citric acid cycle 3) in both glycolysis and the citric acid cycle 4) during oxidative phosphorylation

3) in both glycolysis and the citric acid cycle

Energy released by the electron transport chain is used to pump H+ into which location in eukaryotic cells? Question 36 options: 1) mitochondrial outer membrane 2) mitochondrial inner membrane 3) mitochondrial intermembrane space 4) mitochondrial matrix

3) mitochondrial intermembrane space

During aerobic respiration, H2O is formed. Where does the oxygen atom for the formation of the water come from? Question 34 options: 1) carbon dioxide (CO2) 2) glucose (C6H12O6) 3) molecular oxygen (O2) 4) pyruvate (C3H3O3-)

3) molecular oxygen (O2)

One function of both alcohol fermentation and lactic acid fermentation is to _____. Question 49 options: 1) reduce NAD+ to NADH 2) reduce FAD+ to FADH2 3) oxidize NADH to NAD+ 4) reduce FADH2 to FAD+

3) oxidize NADH to NAD+

When a molecule of NAD+ (nicotinamide adenine dinucleotide) gains a hydrogen atom (not a proton), the molecule becomes _____. Question 6 options: 1) dehydrogenated 2) oxidized 3) reduced 4) redoxed

3) reduced

Which of the following events takes place in the electron transport chain? Question 27 options: 1) the breakdown of glucose into two pyruvate molecules 2) the breakdown of an acetyl group to carbon dioxide 3) the extraction of energy from high-energy electrons remaining from glycolysis and the citric acid cycle 4) substrate-level phosphorylation

3) the extraction of energy from high-energy electrons remaining from glycolysis and the citric acid cycle

If a cell is able to synthesize 30 ATP molecules for each molecule of glucose completely oxidized to carbon dioxide and water, approximately how many ATP molecules can the cell synthesize for each molecule of pyruvate oxidized to carbon dioxide and water? Question 40 options: 1) 0 2) 12 3) 14 4) 26

3) 14

If glucose is the sole energy source, what fraction of the carbon dioxide exhaled by animals is generated by the reactions of the citric acid cycle? Question 21 options: 1) 1/6 2) 1/3 3) 2/3 4) all of it

3) 2/3

Approximately how many molecules of ATP are produced from the complete oxidation of one molecule of glucose (C6H12O6) in aerobic cellular respiration? Question 38 options: 1) 2 2) 4 3) 18-24 4) 30-32

4) 30-32

During aerobic respiration, which of the following directly donates electrons to the electron transport chain at the lowest energy level? Question 32 options: 1) NADH 2) ATP 3) ADP + i 4) FADH2

4) FADH2

Following glycolysis and the citric acid cycle, but before the electron transport chain and oxidative phosphorylation, the carbon skeleton of glucose has been broken down to CO2 with some net gain of ATP. Most of the energy from the original glucose molecule at that point in the process, however, is in the form of _____. Question 17 options: 1) acetyl-CoA 2) glucose 3) pyruvate 4) NADH

4) NADH

Chemiosmotic ATP synthesis (oxidative phosphorylation) occurs in _____. Question 45 options: 1) all cells, but only in the presence of oxygen 2) only eukaryotic cells, in the presence of oxygen 3) only in mitochondria, using either oxygen or other electron acceptors 4) all respiring cells, both prokaryotic and eukaryotic, using either oxygen or other electron acceptors

4) all respiring cells, both prokaryotic and eukaryotic, using either oxygen or other electron acceptors

In respiration, beta oxidation involves the _____. Question 59 options: 1) oxidation of glucose 2) oxidation of pyruvate 3) regulation of glycolysis 4) breakdown of fatty acids

4) breakdown of fatty acids

Fatty acids usually have an even number of carbons in their structures. They are catabolized by a process called beta-oxidation. The end products of the metabolic pathway are acetyl groups of acetyl CoA molecules. These acetyl groups _____. Question 60 options: 1) directly enter the electron transport chain 2) directly enter the energy-yielding stages of glycolysis 3) are directly decarboxylated by pyruvate dehydrogenase 4) directly enter the citric acid cycle

4) directly enter the citric acid cycle

An organism is discovered that thrives in both the presence and absence of oxygen in the air. Curiously, the consumption of sugar increases as oxygen is removed from the organism's environment, even though the organism does not gain much weight. This organism _____. Question 50 options: 1) is a normal eukaryotic organism 2) is photosynthetic 3) is an anaerobic organism 4) is a facultative anaerobe

4) is a facultative anaerobe

What is the oxidizing agent in the following reaction?Pyruvate + NADH + H+ → Lactate + NAD+ Question 53 options: 1) NADH 2) NAD+ 3) lactate 4) pyruvate

4) pyruvate

Most of the CO2 from the catabolism of glucose is released during _____. Question 16 options: 1) glycolysis 2) electron transport 3) chemiosmosis 4) the citric acid cycle

4) the citric acid cycle


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