ATP loses a phosphate group to become which molecule?

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Multiple Choice

ATP loses a phosphate group to become which molecule?

Explanation:
Removing a phosphate group from ATP releases energy and converts it from a triphosphate to a diphosphate, yielding ADP (adenosine diphosphate) plus an inorganic phosphate. The molecule still has the adenine base and ribose, but now only two phosphates remain. This is the form cells use to store and transfer energy for work. NADH is a reduced carrier formed in redox reactions, not by simply losing a phosphate from ATP, and AMP would require removing two phosphates, not just one.

Removing a phosphate group from ATP releases energy and converts it from a triphosphate to a diphosphate, yielding ADP (adenosine diphosphate) plus an inorganic phosphate. The molecule still has the adenine base and ribose, but now only two phosphates remain. This is the form cells use to store and transfer energy for work. NADH is a reduced carrier formed in redox reactions, not by simply losing a phosphate from ATP, and AMP would require removing two phosphates, not just one.

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