Most multi-cellular organisms obtain energy for the synthesis of ATP during oxidative phosphorylation from

TCA Cycle
Most multi-cellular organisms obtain energy for the synthesis of ATP during oxidative phosphorylation from

a proton gradient across the outer mitochondrial membrane

a proton gradient across the cell membrane

a proton gradient across the inner mitochondrial membrane

high energy phosphate compounds

a proton gradient across the outer mitochondrial membrane

a proton gradient across the cell membrane

a proton gradient across the inner mitochondrial membrane

high energy phosphate compounds

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TCA Cycle
Oxidation of a molecule involves

gain of electron

loss of proton

gain of proton

loss of electron

gain of electron

loss of proton

gain of proton

loss of electron

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TCA Cycle
The catabolism of sugars and fatty acids is similar because

both of these compounds are funnelled through the TC A/citric acid cycle

both of these compounds generate redox energy during catabolism

both of these compounds generate chemical energy during catabolism

All of these

both of these compounds are funnelled through the TC A/citric acid cycle

both of these compounds generate redox energy during catabolism

both of these compounds generate chemical energy during catabolism

All of these

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TCA Cycle
A positive redox potential means substance has

higher affinity for proton

lower affinity for proton

higher affinity for electron

lower affinity for electron

higher affinity for proton

lower affinity for proton

higher affinity for electron

lower affinity for electron

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TCA Cycle
Why is the TCA cycle the central pathway of metabolism of the cell?

Its intermediates are commonly used by other metabolic reactions

All other metabolic pathways depend upon it

None of the above

It occurs in the center of the cell

Its intermediates are commonly used by other metabolic reactions

All other metabolic pathways depend upon it

None of the above

It occurs in the center of the cell

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TCA Cycle
Which one is not the main protein in electron transport chain?

NADH dehydrogenase

Cytochrome bc1 complex

Citrate synthease

Cytochrome oxidase

NADH dehydrogenase

Cytochrome bc1 complex

Citrate synthease

Cytochrome oxidase

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TCA Cycle

TCA Cycle Most multi-cellular organisms obtain energy for the synthesis of ATP during oxidative phosphorylation from

TCA Cycle Oxidation of a molecule involves

TCA Cycle The catabolism of sugars and fatty acids is similar because

TCA Cycle A positive redox potential means substance has

TCA Cycle Why is the TCA cycle the central pathway of metabolism of the cell?

TCA Cycle Which one is not the main protein in electron transport chain?

TCA Cycle
Most multi-cellular organisms obtain energy for the synthesis of ATP during oxidative phosphorylation from

TCA Cycle
Oxidation of a molecule involves

TCA Cycle
The catabolism of sugars and fatty acids is similar because

TCA Cycle
A positive redox potential means substance has

TCA Cycle
Why is the TCA cycle the central pathway of metabolism of the cell?

TCA Cycle
Which one is not the main protein in electron transport chain?