Chapter 6 Bio – Flashcards

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question
Which of the following statements regarding photosynthesis and cellular respiration is true? A) Photosynthesis occurs in chloroplasts, and cellular respiration occurs in mitochondria. B) Photosynthesis occurs in mitochondria, and cellular respiration occurs in chloroplasts. C) Photosynthesis occurs in mitochondria and in chloroplasts. D) Cellular respiration occurs in mitochondria and in chloroplasts.
answer
A) Photosynthesis occurs in chloroplasts, and cellular respiration occurs in mitochondria.
question
How do cells capture the energy released by cellular respiration? A) They produce ATP. B) They produce glucose. C) They store it in molecules of carbon dioxide. D) The energy is coupled to oxygen.
answer
A) They produce ATP.
question
The processes of photosynthesis and cellular respiration are complementary. During these energy conversions, some energy is A) lost in the form of heat. B) used to create light. C) destroyed when the chemical bonds of glucose are made. D) saved in the chemical bonds of water, CO2 and O2.
answer
A) lost in the form of heat.
question
Respiration ________, and cellular respiration ________. A) produces ATP; is gas exchange B) is gas exchange; produces ATP C) produces glucose; produces oxygen D) uses glucose; produces glucose
answer
B) is gas exchange; produces ATP
question
Which of the following are products of cellular respiration? A) oxygen and carbon dioxide B) energy to make ATP and carbon dioxide C) oxygen and glucose D) oxygen and energy to make ATP
answer
B) energy to make ATP and carbon dioxide
question
Which of the following statements regarding cellular respiration is false? A) Cellular respiration is a single chemical reaction with just one step. B) Cellular respiration produces water. C) Cellular respiration produces carbon dioxide. D) Cellular respiration releases heat.
answer
A) Cellular respiration is a single chemical reaction with just one step.
question
The overall equation for the cellular respiration of glucose is A) C5H12O6 + 6 O2 → 5 CO2 + 6 H2O + energy. B) 5 CO2 + 6 H2O → C5H12O6 + 6 O2 + energy. C) C6H12O6 + 6 O2 → 6 CO2 + 6 H2O + energy. D) C6H12O6 + energy → 6 CO2+ 6 H2O + 6 O2.
answer
C) C6H12O6 + 6 O2 → 6 CO2 + 6 H2O + energy.
question
Which of the following statements about the energy yields from cellular respiration is true? A) Cellular respiration is more efficient at harnessing energy from glucose than car engines are at harnessing energy from gasoline. B) Cellular respiration converts all of the energy in glucose into high-energy ATP bonds. C) Cellular respiration converts the kinetic energy of glucose into chemical energy. D) The heat produced during cellular respiration is only a tiny fraction of the chemical energy available in a glucose molecule.
answer
A) Cellular respiration is more efficient at harnessing energy from glucose than car engines are at harnessing energy from gasoline.
question
Humans use the calories they obtain from ________ as their source of energy. A) food B) water C) sunlight D) minerals
answer
A) food
question
Humans use about ________ of their daily calories to maintain brain cells and power other life-sustaining activities. A) 25% B) 50% C) 75% D) 90%
answer
C) 75%
question
A kilocalorie is defined as A) the quantity of glucose needed to increase the body temperature by 1°C. B) the quantity of heat needed to raise the temperature of 1 kg of water by 1°C. C) the quantity of food used to maintain normal bodily functions. D) the quantity of food consumed during a given type of exercise.
answer
B) the quantity of heat needed to raise the temperature of 1 kg of water by 1°C.
question
The label on the box of breakfast cereal lists one serving as containing "200 Calories" per serving. How many calories are actually in one serving? A) 20 B) 2,000 C) 200,000 D) 2,000,000
answer
C) 200,000
question
During cellular respiration, the energy in glucose A) becomes stored in molecules of ammonia. B) is used to manufacture glucose. C) is released all at once. D) is carried by electrons.
answer
D) is carried by electrons.
question
During redox reactions, A) the loss of electrons from one substance is called reduction. B) a substance that gains electrons is said to be oxidized. C) electrons are lost from one substance and added to another substance. D) protons from one molecule replace the electrons lost from another molecule.
answer
C) electrons are lost from one substance and added to another substance.
question
Oxidation is the ________, and reduction is the ________. A) gain of electrons; loss of electrons B) loss of electrons; gain of electrons C) gain of oxygen; loss of oxygen D) gain of protons; loss of protons
answer
B) loss of electrons; gain of electrons
question
In biological systems, an important enzyme involved in the regulation of redox reactions is A) glucose. B) dehydrogenase. C) oxygen. D) ATP.
answer
B) dehydrogenase.
question
During cellular respiration, NADH A) is chemically converted into ATP. B) is reduced to form NAD+. C) delivers its electron load to the first electron carrier molecule. D) is the final electron acceptor
answer
C) delivers its electron load to the first electron carrier molecule.
question
Which of the following statements regarding the movement of electrons during cellular respiration is true? A) Electrons tend to move away from O2. B) O2 is eventually oxidized by the electrons to form water. C) The electrons release large amounts of energy each time they are transferred from one molecule to another. D) O2 is reduced when it accepts electrons and forms water.
answer
D) O2 is reduced when it accepts electrons and forms water.
question
The functioning of an electron transport chain is analogous to A) a Slinky toy going down a flight of stairs. B) a canoe going over a waterfall. C) a person climbing a flight of stairs one step at a time. D) a person leaping from the top to the bottom of a flight of stairs in one jump.
answer
A) a Slinky toy going down a flight of stairs.
question
Which of the following options lists the stages in cellular respiration in the correct order? A) glycolysis, the citric acid cycle, and oxidative phosphorylation B) glycolysis, oxidative phosphorylation, and the citric acid cycle C) the citric acid cycle, oxidative phosphorylation, and glycolysis D) oxidative phosphorylation, glycolysis, and the citric acid cycle
answer
A) glycolysis, the citric acid cycle, and oxidative phosphorylation
question
A drug is tested in the laboratory and is found to create holes in both mitochondrial membranes. Scientists suspect that the drug will be harmful to human cells because it will inhibit A) the citric acid cycle. B) oxidative phosphorylation. C) glycolysis. D) the citric acid cycle and oxidative phosphorylation.
answer
D) the citric acid cycle and oxidative phosphorylation.
question
During which of the following phases of cellular respiration does substrate-level phosphorylation take place? A) glycolysis B) the citric acid cycle C) oxidative phosphorylation D) glycolysis and the citric acid cycle
answer
D) glycolysis and the citric acid cycle
question
Which of the following metabolic pathways is common in aerobic and anaerobic metabolism? A) the citric acid cycle B) oxidative phosphorylation C) glycolysis D) electron transport chain
answer
C) glycolysis
question
As a result of glycolysis, there is a net gain of ________ ATP(s). A) 0 B) 1 C) 2 D) 36
answer
C) 2
question
How many molecules of NADH are produced during glycolysis? A) 2 B) 4 C) 6 D) 8
answer
A) 2
question
Which of the following is a result of glycolysis? A) production of CO2 B) conversion of glucose to two three-carbon compounds C) a net loss of two ATPs per glucose molecule D) conversion of NADH to NAD+
answer
B) conversion of glucose to two three-carbon compounds
question
A culture of bacteria is fed glucose containing radioactive carbon and is then examined. As the bacteria metabolize the glucose, the radioactive carbon will appear first in A) carbon dioxide. B) glucose-6-phosphate. C) pyruvate. D) ATP.
answer
B) glucose-6-phosphate.
question
The end products of glycolysis include A) NADH. B) acetyl CoA. C) citric acid. D) O2.
answer
A) NADH.
question
Pyruvate A) forms at the end of glycolysis. B) is the molecule that starts the citric acid cycle. C) is the end product of oxidative phosphorylation. D) is a six-carbon molecule
answer
A) forms at the end of glycolysis.
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After glycolysis but before the citric acid cycle, A) pyruvate is oxidized. B) a carbon atom is added to pyruvate to make a four-carbon compound. C) coenzyme A is cleaved off pyruvate. D) glucose is split, producing two molecules of pyruvate.
answer
A) pyruvate is oxidized.
question
Which of the following statements regarding the chemical grooming of pyruvate is false? A) Two molecules of pyruvate are each converted into two-carbon molecules joined to a coenzyme A molecule. B) Each pyruvate loses a carbon atom, which is released as CO2. C) Two pyruvate molecules together contain less chemical energy than was found in the original glucose molecule. D) Each pyruvate molecule has a CO2 added and then joins with an NADH.
answer
D) Each pyruvate molecule has a CO2 added and then joins with an NADH.
question
The enzymes of the citric acid cycle are located in the A) cytoplasm. B) outer mitochondrial membrane. C) nucleus. D) matrix and inner mitochondrial membrane
answer
D) matrix and inner mitochondrial membrane
question
The end products of the citric acid cycle include all of the following except A) CO2. B) pyruvate. C) ATP. D) FADH2.
answer
B) pyruvate.
question
The function of coenzyme A in the citric acid cycle is most like A) a limousine driver dropping off a couple at the school prom. B) a frog that turns into a prince. C) a kid jumping up and down on a trampoline. D) throwing a baited hook into a lake and catching a fish.
answer
A) a limousine driver dropping off a couple at the school prom.
question
A culture of bacteria is fed glucose containing radioactive carbon and is then examined. During the citric acid cycle, radioactive carbon would first appear in A) NADH. B) citrate. C) oxaloacetate. D) CO2.
answer
B) citrate.
question
At the end of the citric acid cycle, most of the energy remaining from the original glucose is stored in A) CO2. B) pyruvate. C) ATP. D) NADH.
answer
D) NADH.
question
During chemiosmosis, A) energy is released as H+ ions move freely across mitochondrial membranes. B) ATP is synthesized when H+ ions move through a channel in ATP synthase. C) a concentration gradient is generated when large numbers of H+ ions are passively transported from the matrix of the mitochondrion to the mitochondrion's intermembrane space. D) H+ ions serve as the final electron acceptor.
answer
B) ATP is synthesized when H+ ions move through a channel in ATP synthase.
question
Which of the following statements about the inner mitochondrial membrane is false? A) ATP synthase is found in the inner mitochondrial membrane. B) The inner mitochondrial membrane plays a role in the production of pyruvate. C) Electron carriers are found in the inner mitochondrial membrane. D) A gradient of H+ exists across the inner mitochondrial membrane.
answer
B) The inner mitochondrial membrane plays a role in the production of pyruvate.
question
The mitochondrial cristae are an adaptation that A) permits the expansion of mitochondria as oxygen accumulates in the mitochondrial matrix. B) helps mitochondria divide during times of greatest cellular respiration. C) increases the space for more copies of the electron transport chain and ATP synthase complexes. D) carefully encloses the DNA housed within the mitochondrial matrix.
answer
C) increases the space for more copies of the electron transport chain and ATP synthase complexes.
question
A mutant protist is found in which some mitochondria lack an inner mitochondrial membrane. Which of the following pathways would be completely disrupted in these mitochondria? A) oxidative phosphorylation B) alcoholic fermentation C) glycolysis D) biosynthesis
answer
A) oxidative phosphorylation
question
If you were able to stop the process of cellular respiration after completing electron transport but prior to chemiosmosis, you would find the pH of a mitochondrion to be at its lowest A) on the outer membrane. B) on the inner membrane. C) in the mitochondrial matrix. D) in the intermembrane space.
answer
D) in the intermembrane space.
question
By-products of cellular respiration include A) oxygen and heat. B) carbon dioxide and water. C) FADH2 and NADH. D) NADH and ATP.
answer
B) carbon dioxide and water.
question
In the electron transport chain, the final electron acceptor is A) an oxygen atom. B) a molecule of carbon dioxide. C) a molecule of water. D) ADP.
answer
A) an oxygen atom.
question
Rotenone is a poison commonly added to insecticides. Rotenone binds tightly with one of the electron carrier molecules in the electron transport chain, preventing electrons from passing to the next carrier molecule. Insects exposed to rotenone will die because A) they will no longer be able to perform anaerobic respiration. B) high levels of fermentation products will build up in their bodies. C) they will no longer be able to produce adequate amounts of ATP. D) they will no longer be able to absorb water and will become dehydrated.
answer
C) they will no longer be able to produce adequate amounts of ATP.
question
As electrons move through the mitochondrial space, A) NADH is reduced. B) water is oxidized. C) ATP synthase works by active transport. D) the pH of the intermembrane space decreases
answer
D) the pH of the intermembrane space decreases
question
Which of the following statements about the energy yield of aerobic respiration is false? A) Less than 50% of the chemical energy available in glucose is converted to ATP energy. B) Most of the ATP derived during aerobic respiration results from oxidative phosphorylation. C) Oxidative phosphorylation resulting from 1 glucose molecule yields about 12 ATP molecules. D) The total yield of ATP molecules per glucose molecule is about 32.
answer
C) Oxidative phosphorylation resulting from 1 glucose molecule yields about 12 ATP molecules.
question
The energy yield from the breakdown of a single molecule of glucose does not depend upon A) whether the NADH produced in glycolysis passes its electrons across the mitochondrial membrane to NAD+ or FAD. B) the supply of oxygen. C) the supply of carbon dioxide. D) whether some of the energy of the H+ gradient is used for work other than ATP production.
answer
C) the supply of carbon dioxide.
question
Which of the following processes produces the most ATP per molecule of glucose oxidized? A) aerobic respiration B) alcoholic fermentation C) lactic acid fermentation D) All produce approximately the same amount of ATP per molecule of glucose.
answer
A) aerobic respiration
question
In fermentation, ________ is ________. A) NADH; reduced B) NAD+; oxidized C) NADH; oxidized D) ethanol; oxidized
answer
C) NADH; oxidized
question
When an organism such as a yeast lives by fermentation, it converts the pyruvate from glycolysis into a different compound, such as alcohol. Why doesn't it secrete the pyruvate directly? A) The conversion yields 32 ATP per pyruvate molecule. B) The conversion yields one NADH per pyruvate molecule. C) The conversion is needed to regenerate the molecules needed for glycolysis. D) A buildup of pyruvate in the surrounding environment would be too toxic.
answer
C) The conversion is needed to regenerate the molecules needed for glycolysis.
question
A child is born with a rare disease in which mitochondria are missing from skeletal muscle cells. However, the muscles still function. Physicians find that A) the muscles contain large amounts of lactate following even mild physical exercise. B) the muscles contain large amounts of carbon dioxide following even mild physical exercise. C) the muscles require extremely high levels of oxygen to function. D) the muscle cells cannot split glucose to pyruvate
answer
A) the muscles contain large amounts of lactate following even mild physical exercise.
question
Some friends are trying to make wine in their basement. They've added yeast to a sweet grape juice mixture and have allowed the yeast to grow. After several days they find that sugar levels in the grape juice have dropped, but there's no alcohol in the mixture. The most likely explanation is that A) the mixture needs more sugar because yeast need a lot of energy before they can begin to produce alcohol. B) the mixture needs less oxygen because yeast only produce alcohol in the absence of oxygen. C) the mixture needs more oxygen because yeast need oxygen to break down sugar and get enough energy to produce alcohol. D) the yeast used the alcohol as a carbon source.
answer
B) the mixture needs less oxygen because yeast only produce alcohol in the absence of oxygen.
question
In yeast cells, A) lactic acid is produced during anaerobic respiration. B) lactic acid is produced during glycolysis. C) alcohol is produced during the citric acid cycle. D) alcohol is produced after glycolysis
answer
D) alcohol is produced after glycolysis
question
Bacteria that are unable to survive in the presence of oxygen are called A) obligate anaerobes. B) obligate aerobes. C) facultative anaerobes. D) aerotolerant anaerobes.
answer
A) obligate anaerobes.
question
Yeasts can produce ATP by either fermentation or oxidative phosphorylation; thus, they are A) strict anaerobes. B) strict aerobes. C) facultative anaerobes. D) facultative aerobes.
answer
C) facultative anaerobes.
question
When did the level of oxygen in Earth's atmosphere become high enough to sustain aerobic respiration? A) 1.0 billion years ago B) 1.5 billion years ago C) 2.7 billion years ago D) 3.5 billion years ago
answer
C) 2.7 billion years ago
question
Which of the following statements regarding glycolysis is false? A) Glycolysis is considered to be an ancient metabolic process because it does not require oxygen. B) Glycolysis is considered to be an ancient metabolic process because it is not located in a membrane-bound organelle. C) Glycolysis is considered to be an ancient metabolic system because it occurs universally. D) Glycolysis is considered to be an ancient metabolic system because it is the most efficient metabolic pathway for ATP synthesis.
answer
D) Glycolysis is considered to be an ancient metabolic system because it is the most efficient metabolic pathway for ATP synthesis.
question
To obtain energy from starch and glycogen, the body must begin by A) hydrolyzing the starch to glucose and the glycogen to amino acids. B) hydrolyzing both starch and glycogen to glucose. C) converting both starch and glycogen to fatty acids. D) removing one glucose at a time with a condensation reaction.
answer
B) hydrolyzing both starch and glycogen to glucose.
question
When proteins are used as a source of energy for the body, the proteins A) are converted into glucose molecules, which are fed into glycolysis. B) are converted mainly into intermediates of glycolysis or the citric acid cycle. C) donate electrons directly to the electron transport chain. D) are hydrolyzed to glucose and converted to acetyl CoA, which enters the citric acid cycle.
answer
B) are converted mainly into intermediates of glycolysis or the citric acid cycle.
question
When a cell uses fatty acids for aerobic respiration, it first hydrolyzes fats to A) glycerol and amino acids. B) glycerol and fatty acids. C) fatty acids and sugars. D) sugars and glycerol.
answer
B) glycerol and fatty acids.
question
If you consume 1 g of each of the following, which will yield the most ATP? A) fat B) glucose C) protein D) starch
answer
A) fat
question
Which of the following statements regarding food is false? A) Food provides the raw materials for biosynthetic pathways that make molecules for cellular repair and growth. B) Food provides the raw materials for biosynthetic pathways that can produce molecules that are not actually present in the original food. C) Food provides the raw materials for biosynthetic pathways that can produce sugar by a process that is the exact opposite of glycolysis. D) Food provides the raw materials for biosynthetic pathways that consume ATP.
answer
C) Food provides the raw materials for biosynthetic pathways that can produce sugar by a process that is the exact opposite of glycolysis.
question
Which of the following organisms can make organic molecules from water and carbon dioxide? A) bear B) mushroom C) wheat D) crayfish
answer
C) wheat
question
The conversion of CO2 and H2O into organic compounds using energy from light is called A) glycolysis. B) photosynthesis. C) fermentation. D) cellular respiration.
answer
B) photosynthesis.
question
If ATP accumulates in a cell, A) the cell receives a signal that there is a need for more energy. B) feedback inhibition speeds up cellular respiration. C) feedback inhibition slows down cellular respiration. D) the rate of cellular respiration does not change.
answer
C) feedback inhibition slows down cellular respiration.
question
The antibiotic oligomycin works by inhibiting ATP synthase. You would expect that A) there will be an increase in ATP production. B) H+ will accumulate in the intermembrane space. C) H+ will accumulate in the mitochondrial matrix. D) NAD+ and FAD will pick up the extra H+.
answer
B) H+ will accumulate in the intermembrane space.
question
The Pasteur effect shows that yeast consume glucose at a higher rate under anaerobic conditions than under aerobic conditions. Which of the following statements correctly explains this observation? A) Yeast are obligate anaerobes, so aerobic conditions will kill yeasts. B) Yeast are photosynthetic, so they are able to produce their own oxygen. C) Less ATP is made under anaerobic conditions, so more glucose must be consumed to produce an equivalent amount of ATP. D) This observation is incorrect. Aerobic conditions mean that cells make more ATP and use more glucose.
answer
C) Less ATP is made under anaerobic conditions, so more glucose must be consumed to produce an equivalent amount of ATP.
question
DNP is a chemical that has been used by people to lose weight. However, it is a dangerous option and has caused several people to die. DNP works in a fashion similar to that of brown fat. Based on this information, how would DNP cause weight loss and death? A) DNP must prevent food from being consumed aerobically, so cells instead perform fermentation, and lactate buildup is deadly. B) DNP must increase the rate of substrate-level phosphorylation, causing NADH to be produced more quickly than it can be used by the electron transport chain. C) DNP must block cells from using fats and proteins to make ATP. D) DNP must increase metabolism of food by producing heat instead of ATP.
answer
D) DNP must increase metabolism of food by producing heat instead of ATP.
question
A friend tells you that he is going on a low-carb diet to lose weight because he thinks that carbs contain more energy than fats or protein. What would you tell your friend about his plan? A) This is a good idea because sugars enter the fuel breakdown pathway earlier than other food molecules. B) This is a good idea because sugars have more electrons than fats and protein. C) This is an incorrect idea because fats contain more hydrogen atoms than carbohydrates and protein. D) This is an incorrect idea because all food molecules store the same amount of energy.
answer
C) This is an incorrect idea because fats contain more hydrogen atoms than carbohydrates and protein.
question
Marathon runners are long-distance runners (marathons are races that are 26.2 miles long). Studies have shown that the muscles of marathon runners contain an abundance of slow-twitch fibers. Which of the following statements about these fibers is true? A) Slow-twitch fibers have lots of mitochondria to make ATP aerobically. B) Slow-twitch fibers have lots of mitochondria to make ATP through fermentation. C) Slow-twitch fibers have few mitochondria and make ATP aerobically. D) Slow-twitch fibers have few mitochondria and make ATP through fermentation.
answer
A) Slow-twitch fibers have lots of mitochondria to make ATP aerobically.
question
Wood frogs freeze solid during the winter and then thaw in the spring. As the freezing progresses, blood circulation stops. How would you expect cells not being served by the circulatory system to produce ATP during this time, and what by-product would you expect to build up in the cells? A) aerobic respiration and CO2 B) fermentation and lactate C) fermentation and alcohol D) photosynthesis and O2
answer
B) fermentation and lactate
question
Arsenic is a poison that binds to a molecule needed to build acetyl CoA. Based on this information, which part of cellular respiration would be stopped if arsenic were ingested? A) glycolysis B) citric acid cycle C) electron transport chain D) ATP synthase
answer
B) citric acid cycle
question
NADH pills can be purchased over the counter and are often taken by sufferers of chronic fatigue syndrome (CFS). How might these pills benefit a CFS patient? A) They would increase energy by creating more FADH2. B) They would decrease the rate of glycolysis. C) They would increase the number of electrons provided to the electron transport chain. D) They would decrease the rate of alcoholic fermentation.
answer
C) They would increase the number of electrons provided to the electron transport chain.
question
NADH is also used by cells when making certain molecules. Based on your knowledge of NADH's role in cellular respiration, what do you think NADH's role is in biosynthesis of molecules? A) oxidizing molecules B) reducing molecules C) phosphorylating molecules D) dehydrating molecules
answer
B) reducing molecules
question
Which of the following statements about the energy yield of aerobic respiration is false? A) Glycolysis resulting from 1 glucose molecule yields 2 ATP molecules. B) The oxidation of pyruvate results in the production of 0 ATP molecules C) Oxidative phosphorylation resulting from 1 glucose molecule yields 12 ATP molecules. D) The citric acid cycle resulting from 1 glucose molecules yields 2 ATP molecules.
answer
C) Oxidative phosphorylation resulting from 1 glucose molecule yields 12 ATP molecules.
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