A molecule of ATP contains adenine, ribose, and three phosphate groups. The bond between the last two phosphates is easily broken, resulting in a molecule of ADP and one phosphate group. If the bond between the second and third phosphate groups were more stable, what would be the most likely consequence?

Answer

A. More energy would be required to break the bond, so the net energy produced would be less.

B. Once the bond between the phosphate groups is broken the net energy released would increase.

C. The bond between the first and second phosphates would have to be broken to produce energy.

Question

Sundance

Chemistry

10 March, 14:02

A molecule of ATP contains adenine, ribose, and three phosphate groups. The bond between the last two phosphates is easily broken, resulting in a molecule of ADP and one phosphate group. If the bond between the second and third phosphate groups were more stable, what would be the most likely consequence?

Answer

A. More energy would be required to break the bond, so the net energy produced would be less.

B. Once the bond between the phosphate groups is broken the net energy released would increase.

C. The bond between the first and second phosphates would have to be broken to produce energy.

+2

Answers (2)

Know the Answer?

Efrain Morris · Answer 1

I think the correct answer from the choices listed above is option A. Most likely, the consequence of this would be that more energy would be required to break the bond, so the net energy produced would be less. Hope this answers the question.

Ulises Rocha · Answer 2

I believe the best possible choice would be A. More energy would be required to break the bond, so the net energy produced would be less.