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Deck 5: Microbial Metabolism

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Question
Which of the following can be the final electron acceptor in anaerobic respiration in bacteria?

A) pyruvic acid only
B) sulfate only
C) nitrate only
D) both nitrate and sulfate
E) nitrate, pyruvic acid, and sulfate
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Question
Which of the following is/are common to chemiosmosis and the light -dependent reactions of photosynthesis?

A) reduction of NADP+ only
B) a proton gradient only
C) electron transport only
D) both electron transport and a proton gradient
E) electron transport, a proton gradient, and reduction of NADP +
Question
Which of the following is a by-product of the catabolism of proteins?

A) carbon dioxide
B) lactic acid
C) ammonia
D) proteases
E) acetyl-CoA
Question
Changes in can be useful in analyzing microbesʹ ability to ferment carbohydrates.

A) pH
B) osmotic pressure
C) temperature
D) oxygen use
E) smell
Question
Which of the following is a fermentation product useful in the manufacture of cheese?

A) lactic acid
B) ethanol
C) ammonia
D) pyruvic acid
E) acetic acid
Question
Anabolic reactions may be characterized as

A) breaking large molecules into smaller molecules.
B) breaking large molecules into smaller molecules to produce ATP.
C) exergonic.
D) producing ATP.
E) forming large molecules from smaller molecules.
Question
The catalytic component of a ribozyme is

A) an apoenzyme.
B) a cofactor.
C) RNA.
D) a coenzyme.
E) FADH.
Question
A catabolic process which occurs in eukaryotic mitochondria is

A) the Calvin-Benson cycle.
B) deamination.
C) the Entner-Doudoroff pathway.
D) beta-oxidation.
E) fermentation.
Question
Which of the following statements concerning glycolysis is TRUE?

A) Glycolysis both requires the input of ATP and produces ATP.
B) Glycolysis is an alternative to fermentation.
C) Glycolysis occurs in the cell membranes of bacteria.
D) Ribulose 5-phosphate is an intermediate of glycolysis.
E) Glycolysis produces ATP by oxidative phosphorylation.
Question
Which of the following statements concerning reduction reactions is FALSE?

A) An electron acceptor gains an electron.
B) They frequently involve electron carrier molecules.
C) They are coupled with oxidation reactions.
D) A molecule gains a hydrogen atom.
E) An electron acceptor becomes more positively charged.
Question
NAD (nicotinamide adenine dinucleotide) is required for many reactions.

A) oxidation-reduction
B) catabolic
C) ribozyme
D) phosphorylation
E) transfer
Question
Which of the following statements is MOST accurate concerning metabolism?

A) Metabolism is the production and expenditure of chemical energy.
B) Metabolism is the assembly of small molecules into macromolecules.
C) Metabolism is the digestion of nutrients to release energy.
D) Metabolism is all the chemical reactions of an organism, both anabolic and catabolic.
E) Metabolism is the assembly of macromolecules into cellular structures.
Question
The molecule that an enzyme acts upon is known as its

A) holoenzyme.
B) catalyst.
C) coenzyme.
D) substrate.
E) apoenzyme.
Question
Which of the following processes utilize inorganic phosphate?

A) oxidative phosphorylation
B) photophosphorylation
C) substrate-level phosphorylation
D) both photophosphorylation and substrate-level phosphorylation
E) both photophosphorylation and oxidative phosphorylation
Question
The habitat of a photosynthetic organism is largely determined by the

A) amount of available hydrogen.
B) chlorophylls it produces.
C) carbohydrates it can metabolize.
D) products of its light-independent reactions.
E) amount of available oxygen.
Question
How many ATP molecules can theoretically be produced from the NADH generated by the catabolism of a molecule of glucose during aerobic respiration?

A) 4
B) 30
C) 36
D) 38
E) 34
Question
Sulfanilamide is an antimicrobial drug that mimics the shape of an important substrate for a particular bacterial enzyme, thereby inhibiting the enzyme. This type of inhibition is known as

A) feedback inhibition.
B) competitive inhibition.
C) allosteric inhibition.
D) noncompetitive inhibition.
E) excitatory allosteric control.
Question
Heme complexed with iron is found in of the electron transport chain.

A) ubiquinones
B) cytochromes
C) metal-containing proteins
D) ribozymes
E) flavoproteins
Question
Which of the following produces NADPH?

A) the Entner-Doudoroff pathway only
B) the Embden-Meyerhof pathway only
C) the pentose phosphate pathway only
D) both the Embden-Meyerhof and Entner-Doudoroff pathways
E) both the pentose phosphate and Entner-Doudoroff pathways
Question
Which of the following is required for holoenzyme function?

A) a substrate
B) an allosteric inhibitor
C) a coenzyme
D) a protein cofactor
E) an activator
Question
In reactions catalyzed by oxidoreductases an electron donor is

A) unaltered.
B) oxidized.
C) synthesized.
D) reduced.
E) degraded.
Question
The metabolic processes called fermentation

A) are alternatives for the pentose phosphate pathway.
B) produce substrates for the Krebs cycle.
C) use an organic molecule as a final electron acceptor.
D) produce substrates for glycolysis.
E) occur only when oxygen is readily available.
Question
Isomerases catalyze reactions in which

A) biomolecules are oxidized or reduced.
B) biomolecules are assembled from smaller molecules.
C) biomolecules are broken down into their component parts.
D) atoms in biomolecules are rearranged.
E) groups are transferred from one molecule to another.
Question
Oxygenic photosynthesis requires

A) photosystem II.
B) the pentose phosphate pathway.
C) substrate-level phosphorylation.
D) the Entner-Doudoroff pathway.
E) glycolysis.
Question
Beta-oxidation produces a substrate of the

A) Entner-Doudoroff pathway.
B) Calvin-Benson cycle.
C) pentose phosphate pathway.
D) Krebs cycle.
E) Embden-Meyerhof pathway.
Question
Photosystems are assembled in

A) cristae.
B) stroma.
C) thylakoids.
D) grana.
E) cytoplasm.
Question
Which of the following is TRUE concerning the structure and function of enzymes?

A) After an enzyme has catalyzed a reaction, it resumes its original shape and can interact with a new substrate molecule.
B) All enzymes bind cofactors necessary for their function.
C) Competitive inhibition of an enzyme occurs when an inhibitor binds to an allosteric site on the enzyme.
D) An apoenzyme is a combination of a cofactor bound to a holoenzyme.
E) Enzymes can function at a wide range of pH.
Question
If a cell reverses the process of beta-oxidation, which of the following molecules will it make?

A) nucleotides
B) amino acids
C) starch
D) glycerol
E) fatty acids
Question
During the synthesis of acetyl-CoA from pyruvic acid, is produced.

A) H2O
B) FADH2
C) NADH
D) acetic acid
E) ATP
Question
All of the following are ways in which cells regulate metabolism EXCEPT

A) isolation of various enzymes within membranous organelles.
B) synthesis of a catabolic enzyme only when its substrate is available.
C) use of the same coenzymes for anabolic and catabolic reactions that share substrate molecules.
D) feedback inhibition by end products.
E) synthesis or degradation of membrane transport proteins.
Question
What is the major product of the Calvin-Benson cycle that can then be used to form glucose?

A) ribulose bisphosphate (RuBP)
B) adenosine triphosphate (ATP)
C) NADPH
D) glyceraldehyde 3-phosphate (G3P)
E) carbon dioxide (CO2)
Question
Although glycolysis requires an input of ATP, this pathway results in a net gain of two ATP; therefore, it is pathway.

A) a reductive
B) an oxidative
C) an exergonic
D) an endergonic
E) neither an exergonic nor an endergonic
Question
The process of produces amino acids from precursor metabolites and ammonia.

A) transamination
B) deamination
C) polymerization
D) reduction
E) amination
Question
The assembly of carbon dioxide and water into carbohydrates occurs in the process known as

A) photosynthesis.
B) chemiosmosis.
C) gluconeogenesis.
D) fermentation.
E) oxidation.
Question
Chemical reactions that are reversible, proceeding anabolically or catabolically, are called

A) glycolytic.
B) synthetic.
C) cyclic.
D) light-independent.
E) amphibolic.
Question
In aerobic non-photosynthetic organisms, the majority of ATP is generated by

A) glycolysis reactions.
B) oxidation-reduction reactions.
C) substrate-level phosphorylation.
D) catabolic reactions.
E) the Calvin-Benson cycle.
Question
Many metabolites for anabolic pathways are produced by the pathway.

A) pentose-phosphate
B) Entner-Doudoroff
C) beta-oxidation
D) glycolytic
E) chemiosmosis
Question
The conversion of amino acids to carbohydrates is an example of

A) beta-oxidation.
B) gluconeogenesis.
C) substrate-level phosphorylation.
D) amination.
E) electron transport.
Question
Hydrolases are generally involved in reactions.

A) neither anabolic nor catabolic
B) both anabolic and catabolic
C) anabolic
D) catabolic
E) oxidation-reduction
Question
Which of the following is the final electron acceptor in aerobic respiration?

A) acetic acid
B) nitrate
C) carbonate
D) oxygen
E) sulfate
Question
<strong> The arrow indicates the only protein component of this complex. This illustration represents a(n)</strong> A) holoenzyme. B) ubiquinone. C) ribozyme. D) coenzyme. E) apoenzyme. <div style=padding-top: 35px> The arrow indicates the only protein component of this complex. This illustration represents a(n)

A) holoenzyme.
B) ubiquinone.
C) ribozyme.
D) coenzyme.
E) apoenzyme.
Question
Ribozymes are enzymes that cleave the subunits of the ribosome.
Question
Non-cyclic photophosphorylation requires photosystem II.
Question
Gluconeogenesis reactions are generally highly endergonic.
Question
As the concentration of substrate increases, the activity of the enzyme decreases.
Question
Glycolysis begins with a(n) stage(s).

A) energy-conservation
B) energy-investment
C) lysis
D) lysis and energy-conservation
E) energy-investment and conservation
Question
Protein catabolism for prokaryotes starts extracellularly.
Question
The bonds between glycerol and fatty acids are broken by (ligase/lipase/lyase) enzymes.
Question
Which of the following products of glucose catabolism is a substrate for fatty acid synthesis?

A) phosphoglyceric acid
B) pyruvic acid
C) acetyl-CoA
D) succinyl-CoA
E) oxaloacetate
Question
A(n) (oxidation/reduction/transport) reaction is one in which a molecule accepts an electron.
Question
Substrate-level phosphorylation occurs during the stage(s) of glycolysis.

A) lysis
B) energy-investment
C) energy-conservation
D) energy-investment and energy-conservation
E) energy-investment, lysis, and energy-conservation
Question
Beta oxidation of fatty acids produces substrates for the (Calvin-Benson/Entner-Doudoroff/Krebs) cycle.
Question
<strong> Identify the processes of glucose metabolism represented in Figure 5 -1.</strong> A) A = glycolysis, B = fermentation, C = Krebs cycle, D = electron transport chain. B) A = fermentation, B = glycolysis, C = Krebs cycle, D = electron transport chain C) A = glycolysis, B = Krebs cycle, C = electron transport chain, D = fermentation. D) A = electron transport chain, B = Krebs cycle, C = glycolysis, D = fermentation E) A = glycolysis, B = Krebs cycle, C = fermentation, D = electron transport chain <div style=padding-top: 35px> Identify the processes of glucose metabolism represented in Figure 5 -1.

A) A = glycolysis, B = fermentation, C = Krebs cycle, D = electron transport chain.
B) A = fermentation, B = glycolysis, C = Krebs cycle, D = electron transport chain
C) A = glycolysis, B = Krebs cycle, C = electron transport chain, D = fermentation.
D) A = electron transport chain, B = Krebs cycle, C = glycolysis, D = fermentation
E) A = glycolysis, B = Krebs cycle, C = fermentation, D = electron transport chain
Question
Essential amino acids are amino acids that cannot be synthesized by an organism and so must be provided as nutrients.
Question
Changes in temperature or pH can cause enzymes to lose activity. What is a common feature of these two effects?

A) Temperature and pH affect the rate of substrate binding.
B) Temperature and pH change the ionization state of cofactors.
C) Temperature and pH both induce an enzyme to lose its precise three-dimensional shape.
D) Temperature and pH change the activation energy of the reaction.
E) There is no common mechanism of temperature and pH effects on enzyme activity.
Question
The pentose phosphate pathway generates all the necessary precursors for nucleotide biosynthesis.
Question
The ability to utilize different metabolites for cellular respiration is one method for identifying bacteria.
Question
The production of NADH takes place during the stage(s) of glycolysis.

A) energy-investment
B) energy-conservation
C) lysis
D) lysis and energy-investment
E) energy-investment and energy-conservation
Question
Synthesis of the precursors of purines and pyrimidines requires transamination of ribose-5-phosphate.
Question
During chemiosmosis, electrons are pumped across a membrane to produce ATP.
Question
Anaerobic respiration involves the use of molecules other than oxygen as the final electron (acceptor/donor) in an electron transport chain.
Question
Explain why the ATP yield from processes such as cellular respiration is generally given as a theoretical number.
Question
Enzymes increase the rate of reaction by lowering the (activation/reaction/substrate) energy.
Question
The majority of the energy captured in the Krebs cycle is in the form of (ATP/FADH2/NADH).
Question
A (photosystem/thylakoid/chloroplast) is a collection of pigments such as chlorophyll that are used to absorb light in the light-dependent reactions of photosynthesis.
Question
Waste products such as sulfur are produced by (oxygenic/anoxygenic/aerobic) photosynthetic bacteria as they obtain electrons for noncyclic photophosphorylation.
Question
During glycolysis, glucose is converted to (pyruvic/acetic/lactic) acid, a molecule that can be used in either fermentation or respiration pathways.
Question
Describe the mechanism of feedback inhibition and the role this process plays in controlling enzyme activity.
Question
Only Photosystem I is required for (cyclic/noncyclic) photophosphorylation to occur.
Question
The (activation/inhibition/saturation) point of an enzyme is reached when all active sites have bound substrate molecules.
Question
The purpose of electron transport is to create a proton (concentration/gradient/pump) across a membrane for the process of chemiosmosis.
Question
Laboratory fermentation tests often include a pH indicator because many bacteria produce (hydroxyls/bases/acids) as they ferment carbohydrates.
Question
The discussion of carbohydrate catabolism includes some of the many metabolic variations microbes are capable of. Using the information in the following table, devise a set of biochemical tests to identify the bacteria in this example Assume you can detect various organic compounds. Prepare a dichotomous key of your identification scheme.
The discussion of carbohydrate catabolism includes some of the many metabolic variations microbes are capable of. Using the information in the following table, devise a set of biochemical tests to identify the bacteria in this example Assume you can detect various organic compounds. Prepare a dichotomous key of your identification scheme. <div style=padding-top: 35px>
Question
The (transferases/transaminases/deaminases) generate amino acids from carbohydrate precursors and glutamic acid.
Question
When a noncompetitive inhibitor molecule binds to an (active/allosteric) site on an enzyme, the shape of the active site changes so that the substrate molecules can no longer bind.
Question
Compare and contrast cyclic and noncyclic photophosphorylation.
Question
Discuss the interrelationships between anabolic and catabolic pathways. Provide specific examples in your answer.
Question
Significant amounts of the NADPH required for the Calvin-Benson cycle are produced during the (cyclic/noncyclic) photophosphorylation reactions of photosynthesis.
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Deck 5: Microbial Metabolism
1
Which of the following can be the final electron acceptor in anaerobic respiration in bacteria?

A) pyruvic acid only
B) sulfate only
C) nitrate only
D) both nitrate and sulfate
E) nitrate, pyruvic acid, and sulfate
D
2
Which of the following is/are common to chemiosmosis and the light -dependent reactions of photosynthesis?

A) reduction of NADP+ only
B) a proton gradient only
C) electron transport only
D) both electron transport and a proton gradient
E) electron transport, a proton gradient, and reduction of NADP +
D
3
Which of the following is a by-product of the catabolism of proteins?

A) carbon dioxide
B) lactic acid
C) ammonia
D) proteases
E) acetyl-CoA
C
4
Changes in can be useful in analyzing microbesʹ ability to ferment carbohydrates.

A) pH
B) osmotic pressure
C) temperature
D) oxygen use
E) smell
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k this deck
5
Which of the following is a fermentation product useful in the manufacture of cheese?

A) lactic acid
B) ethanol
C) ammonia
D) pyruvic acid
E) acetic acid
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Unlock Deck
k this deck
6
Anabolic reactions may be characterized as

A) breaking large molecules into smaller molecules.
B) breaking large molecules into smaller molecules to produce ATP.
C) exergonic.
D) producing ATP.
E) forming large molecules from smaller molecules.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
7
The catalytic component of a ribozyme is

A) an apoenzyme.
B) a cofactor.
C) RNA.
D) a coenzyme.
E) FADH.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
8
A catabolic process which occurs in eukaryotic mitochondria is

A) the Calvin-Benson cycle.
B) deamination.
C) the Entner-Doudoroff pathway.
D) beta-oxidation.
E) fermentation.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
9
Which of the following statements concerning glycolysis is TRUE?

A) Glycolysis both requires the input of ATP and produces ATP.
B) Glycolysis is an alternative to fermentation.
C) Glycolysis occurs in the cell membranes of bacteria.
D) Ribulose 5-phosphate is an intermediate of glycolysis.
E) Glycolysis produces ATP by oxidative phosphorylation.
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Unlock for access to all 78 flashcards in this deck.
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k this deck
10
Which of the following statements concerning reduction reactions is FALSE?

A) An electron acceptor gains an electron.
B) They frequently involve electron carrier molecules.
C) They are coupled with oxidation reactions.
D) A molecule gains a hydrogen atom.
E) An electron acceptor becomes more positively charged.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
11
NAD (nicotinamide adenine dinucleotide) is required for many reactions.

A) oxidation-reduction
B) catabolic
C) ribozyme
D) phosphorylation
E) transfer
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k this deck
12
Which of the following statements is MOST accurate concerning metabolism?

A) Metabolism is the production and expenditure of chemical energy.
B) Metabolism is the assembly of small molecules into macromolecules.
C) Metabolism is the digestion of nutrients to release energy.
D) Metabolism is all the chemical reactions of an organism, both anabolic and catabolic.
E) Metabolism is the assembly of macromolecules into cellular structures.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
13
The molecule that an enzyme acts upon is known as its

A) holoenzyme.
B) catalyst.
C) coenzyme.
D) substrate.
E) apoenzyme.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
14
Which of the following processes utilize inorganic phosphate?

A) oxidative phosphorylation
B) photophosphorylation
C) substrate-level phosphorylation
D) both photophosphorylation and substrate-level phosphorylation
E) both photophosphorylation and oxidative phosphorylation
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Unlock for access to all 78 flashcards in this deck.
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k this deck
15
The habitat of a photosynthetic organism is largely determined by the

A) amount of available hydrogen.
B) chlorophylls it produces.
C) carbohydrates it can metabolize.
D) products of its light-independent reactions.
E) amount of available oxygen.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
16
How many ATP molecules can theoretically be produced from the NADH generated by the catabolism of a molecule of glucose during aerobic respiration?

A) 4
B) 30
C) 36
D) 38
E) 34
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k this deck
17
Sulfanilamide is an antimicrobial drug that mimics the shape of an important substrate for a particular bacterial enzyme, thereby inhibiting the enzyme. This type of inhibition is known as

A) feedback inhibition.
B) competitive inhibition.
C) allosteric inhibition.
D) noncompetitive inhibition.
E) excitatory allosteric control.
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Unlock for access to all 78 flashcards in this deck.
Unlock Deck
k this deck
18
Heme complexed with iron is found in of the electron transport chain.

A) ubiquinones
B) cytochromes
C) metal-containing proteins
D) ribozymes
E) flavoproteins
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k this deck
19
Which of the following produces NADPH?

A) the Entner-Doudoroff pathway only
B) the Embden-Meyerhof pathway only
C) the pentose phosphate pathway only
D) both the Embden-Meyerhof and Entner-Doudoroff pathways
E) both the pentose phosphate and Entner-Doudoroff pathways
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20
Which of the following is required for holoenzyme function?

A) a substrate
B) an allosteric inhibitor
C) a coenzyme
D) a protein cofactor
E) an activator
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21
In reactions catalyzed by oxidoreductases an electron donor is

A) unaltered.
B) oxidized.
C) synthesized.
D) reduced.
E) degraded.
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k this deck
22
The metabolic processes called fermentation

A) are alternatives for the pentose phosphate pathway.
B) produce substrates for the Krebs cycle.
C) use an organic molecule as a final electron acceptor.
D) produce substrates for glycolysis.
E) occur only when oxygen is readily available.
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Unlock Deck
k this deck
23
Isomerases catalyze reactions in which

A) biomolecules are oxidized or reduced.
B) biomolecules are assembled from smaller molecules.
C) biomolecules are broken down into their component parts.
D) atoms in biomolecules are rearranged.
E) groups are transferred from one molecule to another.
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Unlock Deck
k this deck
24
Oxygenic photosynthesis requires

A) photosystem II.
B) the pentose phosphate pathway.
C) substrate-level phosphorylation.
D) the Entner-Doudoroff pathway.
E) glycolysis.
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k this deck
25
Beta-oxidation produces a substrate of the

A) Entner-Doudoroff pathway.
B) Calvin-Benson cycle.
C) pentose phosphate pathway.
D) Krebs cycle.
E) Embden-Meyerhof pathway.
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26
Photosystems are assembled in

A) cristae.
B) stroma.
C) thylakoids.
D) grana.
E) cytoplasm.
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Unlock Deck
k this deck
27
Which of the following is TRUE concerning the structure and function of enzymes?

A) After an enzyme has catalyzed a reaction, it resumes its original shape and can interact with a new substrate molecule.
B) All enzymes bind cofactors necessary for their function.
C) Competitive inhibition of an enzyme occurs when an inhibitor binds to an allosteric site on the enzyme.
D) An apoenzyme is a combination of a cofactor bound to a holoenzyme.
E) Enzymes can function at a wide range of pH.
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28
If a cell reverses the process of beta-oxidation, which of the following molecules will it make?

A) nucleotides
B) amino acids
C) starch
D) glycerol
E) fatty acids
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29
During the synthesis of acetyl-CoA from pyruvic acid, is produced.

A) H2O
B) FADH2
C) NADH
D) acetic acid
E) ATP
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30
All of the following are ways in which cells regulate metabolism EXCEPT

A) isolation of various enzymes within membranous organelles.
B) synthesis of a catabolic enzyme only when its substrate is available.
C) use of the same coenzymes for anabolic and catabolic reactions that share substrate molecules.
D) feedback inhibition by end products.
E) synthesis or degradation of membrane transport proteins.
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Unlock Deck
k this deck
31
What is the major product of the Calvin-Benson cycle that can then be used to form glucose?

A) ribulose bisphosphate (RuBP)
B) adenosine triphosphate (ATP)
C) NADPH
D) glyceraldehyde 3-phosphate (G3P)
E) carbon dioxide (CO2)
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k this deck
32
Although glycolysis requires an input of ATP, this pathway results in a net gain of two ATP; therefore, it is pathway.

A) a reductive
B) an oxidative
C) an exergonic
D) an endergonic
E) neither an exergonic nor an endergonic
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k this deck
33
The process of produces amino acids from precursor metabolites and ammonia.

A) transamination
B) deamination
C) polymerization
D) reduction
E) amination
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k this deck
34
The assembly of carbon dioxide and water into carbohydrates occurs in the process known as

A) photosynthesis.
B) chemiosmosis.
C) gluconeogenesis.
D) fermentation.
E) oxidation.
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Unlock Deck
k this deck
35
Chemical reactions that are reversible, proceeding anabolically or catabolically, are called

A) glycolytic.
B) synthetic.
C) cyclic.
D) light-independent.
E) amphibolic.
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Unlock Deck
k this deck
36
In aerobic non-photosynthetic organisms, the majority of ATP is generated by

A) glycolysis reactions.
B) oxidation-reduction reactions.
C) substrate-level phosphorylation.
D) catabolic reactions.
E) the Calvin-Benson cycle.
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k this deck
37
Many metabolites for anabolic pathways are produced by the pathway.

A) pentose-phosphate
B) Entner-Doudoroff
C) beta-oxidation
D) glycolytic
E) chemiosmosis
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38
The conversion of amino acids to carbohydrates is an example of

A) beta-oxidation.
B) gluconeogenesis.
C) substrate-level phosphorylation.
D) amination.
E) electron transport.
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Unlock Deck
k this deck
39
Hydrolases are generally involved in reactions.

A) neither anabolic nor catabolic
B) both anabolic and catabolic
C) anabolic
D) catabolic
E) oxidation-reduction
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40
Which of the following is the final electron acceptor in aerobic respiration?

A) acetic acid
B) nitrate
C) carbonate
D) oxygen
E) sulfate
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41
<strong> The arrow indicates the only protein component of this complex. This illustration represents a(n)</strong> A) holoenzyme. B) ubiquinone. C) ribozyme. D) coenzyme. E) apoenzyme. The arrow indicates the only protein component of this complex. This illustration represents a(n)

A) holoenzyme.
B) ubiquinone.
C) ribozyme.
D) coenzyme.
E) apoenzyme.
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42
Ribozymes are enzymes that cleave the subunits of the ribosome.
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43
Non-cyclic photophosphorylation requires photosystem II.
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44
Gluconeogenesis reactions are generally highly endergonic.
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45
As the concentration of substrate increases, the activity of the enzyme decreases.
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46
Glycolysis begins with a(n) stage(s).

A) energy-conservation
B) energy-investment
C) lysis
D) lysis and energy-conservation
E) energy-investment and conservation
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47
Protein catabolism for prokaryotes starts extracellularly.
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48
The bonds between glycerol and fatty acids are broken by (ligase/lipase/lyase) enzymes.
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49
Which of the following products of glucose catabolism is a substrate for fatty acid synthesis?

A) phosphoglyceric acid
B) pyruvic acid
C) acetyl-CoA
D) succinyl-CoA
E) oxaloacetate
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50
A(n) (oxidation/reduction/transport) reaction is one in which a molecule accepts an electron.
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51
Substrate-level phosphorylation occurs during the stage(s) of glycolysis.

A) lysis
B) energy-investment
C) energy-conservation
D) energy-investment and energy-conservation
E) energy-investment, lysis, and energy-conservation
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52
Beta oxidation of fatty acids produces substrates for the (Calvin-Benson/Entner-Doudoroff/Krebs) cycle.
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53
<strong> Identify the processes of glucose metabolism represented in Figure 5 -1.</strong> A) A = glycolysis, B = fermentation, C = Krebs cycle, D = electron transport chain. B) A = fermentation, B = glycolysis, C = Krebs cycle, D = electron transport chain C) A = glycolysis, B = Krebs cycle, C = electron transport chain, D = fermentation. D) A = electron transport chain, B = Krebs cycle, C = glycolysis, D = fermentation E) A = glycolysis, B = Krebs cycle, C = fermentation, D = electron transport chain Identify the processes of glucose metabolism represented in Figure 5 -1.

A) A = glycolysis, B = fermentation, C = Krebs cycle, D = electron transport chain.
B) A = fermentation, B = glycolysis, C = Krebs cycle, D = electron transport chain
C) A = glycolysis, B = Krebs cycle, C = electron transport chain, D = fermentation.
D) A = electron transport chain, B = Krebs cycle, C = glycolysis, D = fermentation
E) A = glycolysis, B = Krebs cycle, C = fermentation, D = electron transport chain
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54
Essential amino acids are amino acids that cannot be synthesized by an organism and so must be provided as nutrients.
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55
Changes in temperature or pH can cause enzymes to lose activity. What is a common feature of these two effects?

A) Temperature and pH affect the rate of substrate binding.
B) Temperature and pH change the ionization state of cofactors.
C) Temperature and pH both induce an enzyme to lose its precise three-dimensional shape.
D) Temperature and pH change the activation energy of the reaction.
E) There is no common mechanism of temperature and pH effects on enzyme activity.
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56
The pentose phosphate pathway generates all the necessary precursors for nucleotide biosynthesis.
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57
The ability to utilize different metabolites for cellular respiration is one method for identifying bacteria.
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58
The production of NADH takes place during the stage(s) of glycolysis.

A) energy-investment
B) energy-conservation
C) lysis
D) lysis and energy-investment
E) energy-investment and energy-conservation
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59
Synthesis of the precursors of purines and pyrimidines requires transamination of ribose-5-phosphate.
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60
During chemiosmosis, electrons are pumped across a membrane to produce ATP.
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61
Anaerobic respiration involves the use of molecules other than oxygen as the final electron (acceptor/donor) in an electron transport chain.
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62
Explain why the ATP yield from processes such as cellular respiration is generally given as a theoretical number.
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63
Enzymes increase the rate of reaction by lowering the (activation/reaction/substrate) energy.
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64
The majority of the energy captured in the Krebs cycle is in the form of (ATP/FADH2/NADH).
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65
A (photosystem/thylakoid/chloroplast) is a collection of pigments such as chlorophyll that are used to absorb light in the light-dependent reactions of photosynthesis.
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66
Waste products such as sulfur are produced by (oxygenic/anoxygenic/aerobic) photosynthetic bacteria as they obtain electrons for noncyclic photophosphorylation.
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67
During glycolysis, glucose is converted to (pyruvic/acetic/lactic) acid, a molecule that can be used in either fermentation or respiration pathways.
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68
Describe the mechanism of feedback inhibition and the role this process plays in controlling enzyme activity.
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69
Only Photosystem I is required for (cyclic/noncyclic) photophosphorylation to occur.
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70
The (activation/inhibition/saturation) point of an enzyme is reached when all active sites have bound substrate molecules.
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71
The purpose of electron transport is to create a proton (concentration/gradient/pump) across a membrane for the process of chemiosmosis.
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72
Laboratory fermentation tests often include a pH indicator because many bacteria produce (hydroxyls/bases/acids) as they ferment carbohydrates.
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73
The discussion of carbohydrate catabolism includes some of the many metabolic variations microbes are capable of. Using the information in the following table, devise a set of biochemical tests to identify the bacteria in this example Assume you can detect various organic compounds. Prepare a dichotomous key of your identification scheme.
The discussion of carbohydrate catabolism includes some of the many metabolic variations microbes are capable of. Using the information in the following table, devise a set of biochemical tests to identify the bacteria in this example Assume you can detect various organic compounds. Prepare a dichotomous key of your identification scheme.
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74
The (transferases/transaminases/deaminases) generate amino acids from carbohydrate precursors and glutamic acid.
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75
When a noncompetitive inhibitor molecule binds to an (active/allosteric) site on an enzyme, the shape of the active site changes so that the substrate molecules can no longer bind.
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76
Compare and contrast cyclic and noncyclic photophosphorylation.
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77
Discuss the interrelationships between anabolic and catabolic pathways. Provide specific examples in your answer.
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78
Significant amounts of the NADPH required for the Calvin-Benson cycle are produced during the (cyclic/noncyclic) photophosphorylation reactions of photosynthesis.
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