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?

Cell wall synthesis

Cellular respiration

Photosynthesis

Mitosis

Cell wall synthesis

Cellular respiration

Photosynthesis

Mitosis

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

Anaerobic respiration is glycolysis

Aerobic respiration requires the electron transport chain

The final electron acceptors are different

Aerobic respiration produces less ATP

Anaerobic respiration is glycolysis

Aerobic respiration requires the electron transport chain

The final electron acceptors are different

Aerobic respiration produces less ATP

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Energy Release and Conservation
The enzymes for glycolysis are located

on the inner membrane of the mitochondrion

in the cytoplasm

on the outer membrane of the chloroplast

on the inner surface of the cell membrane

on the inner membrane of the mitochondrion

in the cytoplasm

on the outer membrane of the chloroplast

on the inner surface of the cell membrane

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Energy Release and Conservation
The final electron acceptor in the electron transport chain is

CoQ

oxygen

a cytochrome

FMN

CoQ

oxygen

a cytochrome

FMN

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Energy Release and Conservation
In cellular metabolism, O2 is used

to provide electrons for photophosphorylation

in glycolysis

as a terminal electron acceptor

in the Krebs cycle

to provide electrons for photophosphorylation

in glycolysis

as a terminal electron acceptor

in the Krebs cycle

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Energy Release and Conservation
Fatty acids are oxidized to acetyl-CoA by which of the following pathways?

pentose phosphate pathway

Entner-Doudoroff

Embden-Meyerhof pathway

β-oxidation

pentose phosphate pathway

Entner-Doudoroff

Embden-Meyerhof pathway

β-oxidation

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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 Aerobic respiration differs from anaerobic respiration in which of the following respects?

Energy Release and Conservation The enzymes for glycolysis are located

Energy Release and Conservation The final electron acceptor in the electron transport chain is

Energy Release and Conservation In cellular metabolism, O2 is used

Energy Release and Conservation Fatty acids are oxidized to acetyl-CoA by which of the following pathways?

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
Aerobic respiration differs from anaerobic respiration in which of the following respects?

Energy Release and Conservation
The enzymes for glycolysis are located

Energy Release and Conservation
The final electron acceptor in the electron transport chain is

Energy Release and Conservation
In cellular metabolism, O2 is used

Energy Release and Conservation
Fatty acids are oxidized to acetyl-CoA by which of the following pathways?