Suppose a eukaryotic cell had a mutation that prevented the production of cytochrome c. As a result of this mutation, which of the following processes would not occur?

Energy Release and Conservation
Suppose a eukaryotic cell had a mutation that prevented the production of cytochrome c. As a result of this mutation, which of the following processes would not occur?

Cellular respiration

Photosynthesis

Mitosis

Cell wall synthesis

Cellular respiration

Photosynthesis

Mitosis

Cell wall synthesis

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Energy Release and Conservation
Which of the following best explains about the usefulness of the production of ethanol in yeast cells under anaerobic conditions?

The process regenerates NAD+, which is required for glycolysis

The process generates oxygen, which is required for glycolysis

Yeast would be unable to activate the enzymes of the Krebs cycle without ethanol

Ethanol keeps the electron transport system functioning

The process regenerates NAD+, which is required for glycolysis

The process generates oxygen, which is required for glycolysis

Yeast would be unable to activate the enzymes of the Krebs cycle without ethanol

Ethanol keeps the electron transport system functioning

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Energy Release and Conservation
Which one of the following is not produced in any of the steps of glycolysis?

ATP

NADH

NAD+

ADP

ATP

NADH

NAD+

ADP

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Energy Release and Conservation
Aerobic respiration differs from anaerobic respiration in which of the following respects?

Aerobic respiration produces less ATP

Aerobic respiration requires the electron transport chain

Anaerobic respiration is glycolysis

The final electron acceptors are different

Aerobic respiration produces less ATP

Aerobic respiration requires the electron transport chain

Anaerobic respiration is glycolysis

The final electron acceptors are different

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Energy Release and Conservation
Glucose can be broken down to pyruvate by

none of these

both (a) and (b)

tricarboxylic acid cycle

Entner-Doudoroff pathway

none of these

both (a) and (b)

tricarboxylic acid cycle

Entner-Doudoroff pathway

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Energy Release and Conservation
Before most molecules can enter the Krebs citric acid cycle, they must be converted to

oxaloacetic acid

NADH or FADH

acetyl-CoA

citric acid

oxaloacetic acid

NADH or FADH

acetyl-CoA

citric acid

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Energy Release and Conservation

Energy Release and Conservation Suppose a eukaryotic cell had a mutation that prevented the production of cytochrome c. As a result of this mutation, which of the following processes would not occur?

Energy Release and Conservation Which of the following best explains about the usefulness of the production of ethanol in yeast cells under anaerobic conditions?

Energy Release and Conservation Which one of the following is not produced in any of the steps of glycolysis?

Energy Release and Conservation Aerobic respiration differs from anaerobic respiration in which of the following respects?

Energy Release and Conservation Glucose can be broken down to pyruvate by

Energy Release and Conservation Before most molecules can enter the Krebs citric acid cycle, they must be converted to

Energy Release and Conservation
Suppose a eukaryotic cell had a mutation that prevented the production of cytochrome c. As a result of this mutation, which of the following processes would not occur?

Energy Release and Conservation
Which of the following best explains about the usefulness of the production of ethanol in yeast cells under anaerobic conditions?

Energy Release and Conservation
Which one of the following is not produced in any of the steps of glycolysis?

Energy Release and Conservation
Aerobic respiration differs from anaerobic respiration in which of the following respects?

Energy Release and Conservation
Glucose can be broken down to pyruvate by

Energy Release and Conservation
Before most molecules can enter the Krebs citric acid cycle, they must be converted to