Aerobic catabolism of glucose yields how much energy (ATP synthesized) relative to glucose fermentation?

Microbial Metabolism
Aerobic catabolism of glucose yields how much energy (ATP synthesized) relative to glucose fermentation?

Slightly less

More than 10 times as much

Twice as much

About the same

Slightly less

More than 10 times as much

Twice as much

About the same

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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° = -nFlnE°

ΔG° = nFE°

ΔG° = -nFE°

ΔG° = nFlnE°

ΔG° = -nFlnE°

ΔG° = nFE°

ΔG° = -nFE°

ΔG° = nFlnE°

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Microbial Metabolism
Which of the following does not produce oxygen as a product of photosynthesis?

Purple sulfur bacteria

Oak trees

Phytoplankton

Cyanobacteria

Purple sulfur bacteria

Oak trees

Phytoplankton

Cyanobacteria

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Microbial Metabolism
Which of the following(s) is/are the products of the light reactions of photosynthesis?

ATP and O2 only

ATP only

NADPH only

ATP, NADPH, and O2

ATP and O2 only

ATP only

NADPH only

ATP, NADPH, and O2

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Microbial Metabolism
Bacteriochlorophyll differs from chlorophyll in what way?

There are chemical differences between the two chlorophyll in their side (R) groups

They have different absorption spectra

The chelated metal in bacteriochlorophyll is not Mg

Both (b) and (c)

There are chemical differences between the two chlorophyll in their side (R) groups

They have different absorption spectra

The chelated metal in bacteriochlorophyll is not Mg

Both (b) and (c)

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Microbial Metabolism
Phosphate deregulated mutants are

none of these

less sensitive to phosphate regulation

highly sensitive to phosphate regulation

moderately sensitive to phosphate regulation

none of these

less sensitive to phosphate regulation

highly sensitive to phosphate regulation

moderately sensitive to phosphate regulation

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Microbial Metabolism

Microbial Metabolism Aerobic catabolism of glucose yields how much energy (ATP synthesized) relative to glucose fermentation?

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 Which of the following does not produce oxygen as a product of photosynthesis?

Microbial Metabolism Which of the following(s) is/are the products of the light reactions of photosynthesis?

Microbial Metabolism Bacteriochlorophyll differs from chlorophyll in what way?

Microbial Metabolism Phosphate deregulated mutants are

Microbial Metabolism
Aerobic catabolism of glucose yields how much energy (ATP synthesized) relative to glucose fermentation?

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
Which of the following does not produce oxygen as a product of photosynthesis?

Microbial Metabolism
Which of the following(s) is/are the products of the light reactions of photosynthesis?

Microbial Metabolism
Bacteriochlorophyll differs from chlorophyll in what way?

Microbial Metabolism
Phosphate deregulated mutants are