As the electron flow through the chains, much of their free energy is conserved in the form of ATP. This process is called

Microbial Metabolism
As the electron flow through the chains, much of their free energy is conserved in the form of ATP. This process is called

none of these

electromotive potential

dehydrogenations

oxidative phosphorylation

none of these

electromotive potential

dehydrogenations

oxidative phosphorylation

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Microbial Metabolism
ATPase

extrudes protons from the cell coupled to the hydrolysis of ATP to ADP

is the enzyme that incorporates ATP into messenger RNA

carries out each of the reactions indicated in (a) and (b)

synthesizes ATP, coupled to transfer of extracellular protons into the cell

extrudes protons from the cell coupled to the hydrolysis of ATP to ADP

is the enzyme that incorporates ATP into messenger RNA

carries out each of the reactions indicated in (a) and (b)

synthesizes ATP, coupled to transfer of extracellular protons into the cell

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Microbial Metabolism
Nitrogen fixation is a process that requires

energy

an anaerobic environment

both (a) and (b)

an aerobic environment

energy

an anaerobic environment

both (a) and (b)

an aerobic environment

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Microbial Metabolism
Entner-Doudoroff pathway is found in

both (a) and (b)

anaerobic prokaryotes

aerobic prokaryotes

aerobic eukaryotes

both (a) and (b)

anaerobic prokaryotes

aerobic prokaryotes

aerobic eukaryotes

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Microbial Metabolism
The relationship between an oxidation-reduction potential difference and the standard free energy change is (where n is the number of moles of electron transferred, F= Faraday's constant and E°= standard oxidation-reduction potential difference)

ΔG° = -nFE°

ΔG° = -nFlnE°

ΔG° = nFE°

ΔG° = nFlnE°

ΔG° = -nFE°

ΔG° = -nFlnE°

ΔG° = nFE°

ΔG° = nFlnE°

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Microbial Metabolism
Hexose monophosphate pathway is also known as

phosphogluconate pathway

malate pathway

fumerate pathway

oxaloacetate pathway

phosphogluconate pathway

malate pathway

fumerate pathway

oxaloacetate pathway

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Microbial Metabolism

Microbial Metabolism As the electron flow through the chains, much of their free energy is conserved in the form of ATP. This process is called

Microbial Metabolism ATPase

Microbial Metabolism Nitrogen fixation is a process that requires

Microbial Metabolism Entner-Doudoroff pathway is found in

Microbial Metabolism The relationship between an oxidation-reduction potential difference and the standard free energy change is (where n is the number of moles of electron transferred, F= Faraday's constant and E°= standard oxidation-reduction potential difference)

Microbial Metabolism Hexose monophosphate pathway is also known as

Microbial Metabolism
As the electron flow through the chains, much of their free energy is conserved in the form of ATP. This process is called

Microbial Metabolism
ATPase

Microbial Metabolism
Nitrogen fixation is a process that requires

Microbial Metabolism
Entner-Doudoroff pathway is found in

Microbial Metabolism
The relationship between an oxidation-reduction potential difference and the standard free energy change is (where n is the number of moles of electron transferred, F= Faraday's constant and E°= standard oxidation-reduction potential difference)

Microbial Metabolism
Hexose monophosphate pathway is also known as