Which of the following is not a mechanism for altering the flux of metabolites through the rate-determining step of a pathway?

Glycolysis
Which of the following is not a mechanism for altering the flux of metabolites through the rate-determining step of a pathway?

Diffusional coupling between adjacent active sites

Genetic control of the enzyme concentration

Covalent modification of the enzyme

Allosteric control of the enzyme activity

Diffusional coupling between adjacent active sites

Genetic control of the enzyme concentration

Covalent modification of the enzyme

Allosteric control of the enzyme activity

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Glycolysis
When concentration of the reactants is higher than the equilibrium concentration then

more products will be formed

the gibbs free energy will be positive

the gibbs free energy will be negative

both (b) and (c)

more products will be formed

the gibbs free energy will be positive

the gibbs free energy will be negative

both (b) and (c)

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Glycolysis
Which of the following could act as an uncoupler of electron transport and ATP synthesis?

Both (a) and (b)

Dinitrophenol

neither (a) nor (b)

The Fo base-piece of ATP synthase (without the Fl subunit)

Both (a) and (b)

Dinitrophenol

neither (a) nor (b)

The Fo base-piece of ATP synthase (without the Fl subunit)

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Glycolysis
Which of the following is not true of glycolysis?

The pathway oxidizes two moles of NADH to NAD+ for each mole of glucose that enters

The pathway does not require oxygen

The pathway requires two moles of ATP to get started catabo-lizing each mole of glucose

ADP is phosphorylated to ATP via substrate level phosphorylation

The pathway oxidizes two moles of NADH to NAD+ for each mole of glucose that enters

The pathway does not require oxygen

The pathway requires two moles of ATP to get started catabo-lizing each mole of glucose

ADP is phosphorylated to ATP via substrate level phosphorylation

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Glycolysis
The glycolytic pathway (glucose → 2 pyruvate) is found

primarily in animals excluding particles

only in yeast

in all living organisms

only in eukaryotes

primarily in animals excluding particles

only in yeast

in all living organisms

only in eukaryotes

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Glycolysis
The released energy obtained by oxidation of glucose is stored as

ATP

NAD+

a concentration gradient across a membrane

ADP

ATP

NAD+

a concentration gradient across a membrane

ADP

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Glycolysis

Glycolysis Which of the following is not a mechanism for altering the flux of metabolites through the rate-determining step of a pathway?

Glycolysis When concentration of the reactants is higher than the equilibrium concentration then

Glycolysis Which of the following could act as an uncoupler of electron transport and ATP synthesis?

Glycolysis Which of the following is not true of glycolysis?

Glycolysis The glycolytic pathway (glucose → 2 pyruvate) is found

Glycolysis The released energy obtained by oxidation of glucose is stored as

Glycolysis
Which of the following is not a mechanism for altering the flux of metabolites through the rate-determining step of a pathway?

Glycolysis
When concentration of the reactants is higher than the equilibrium concentration then

Glycolysis
Which of the following could act as an uncoupler of electron transport and ATP synthesis?

Glycolysis
Which of the following is not true of glycolysis?

Glycolysis
The glycolytic pathway (glucose → 2 pyruvate) is found

Glycolysis
The released energy obtained by oxidation of glucose is stored as