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

Covalent modification of the enzyme

Allosteric control of the enzyme activity

Genetic control of the enzyme concentration

Diffusional coupling between adjacent active sites

Covalent modification of the enzyme

Allosteric control of the enzyme activity

Genetic control of the enzyme concentration

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Glycolysis
In the glycogen synthase reaction, the precursor to glycogen is

UDP-glucose

glucose-6-P

UTP-glucose

glucose-1-P

UDP-glucose

glucose-6-P

UTP-glucose

glucose-1-P

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Glycolysis
Glycogen has

α-1,4 and β-1,6 linkage

α-1,6 linkages

α-1,4 and α-1,6 linkages

α-1,4 linkage

α-1,4 and β-1,6 linkage

α-1,6 linkages

α-1,4 and α-1,6 linkages

α-1,4 linkage

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Glycolysis
Phosphofructokinase, the major flux-controlling enzyme of glycolysis is allosterically inhibited and activated respectively by

AMP and Pi

Citrate and ATP

ATP and PEP

ATP and ADP

AMP and Pi

Citrate and ATP

ATP and PEP

ATP and ADP

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

in all living organisms

only in eukaryotes

primarily in animals excluding particles

only in yeast

in all living organisms

only in eukaryotes

primarily in animals excluding particles

only in yeast

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Glycolysis
In glycolysis, ATP is formed by the transfer of a high-energy phosphate from 1,3-bisphosphoglycerate to ADR No such high-energy phosphate donor has ever been isolated in mitochondria because

the techniques for isolating the phosphate donor are not refined enough

the high-energy phosphate donor is very short-lived and difficult to isolate

no such phosphate donor exists

None of these

the techniques for isolating the phosphate donor are not refined enough

the high-energy phosphate donor is very short-lived and difficult to isolate

no such phosphate donor exists

None of these

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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 In the glycogen synthase reaction, the precursor to glycogen is

Glycolysis Glycogen has

Glycolysis Phosphofructokinase, the major flux-controlling enzyme of glycolysis is allosterically inhibited and activated respectively by

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

Glycolysis In glycolysis, ATP is formed by the transfer of a high-energy phosphate from 1,3-bisphosphoglycerate to ADR No such high-energy phosphate donor has ever been isolated in mitochondria because

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

Glycolysis
In the glycogen synthase reaction, the precursor to glycogen is

Glycolysis
Glycogen has

Glycolysis
Phosphofructokinase, the major flux-controlling enzyme of glycolysis is allosterically inhibited and activated respectively by

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

Glycolysis
In glycolysis, ATP is formed by the transfer of a high-energy phosphate from 1,3-bisphosphoglycerate to ADR No such high-energy phosphate donor has ever been isolated in mitochondria because