Question:

Intracellular concentrations of ATP, ADP, and inorganic phosphate in four cell types are given below. Which one of these cell types has the most negative $\Delta G$ for ATP hydrolysis?
Cell type ATP (mM) ADP (mM) Inorganic phosphate (mM)
L 3.0 1.8 5.0
K 3.9 1.3 3.0
B 2.7 0.7 2.7
M 7.2 0.9 8.0

Cell type	ATP (mM)	ADP (mM)	Inorganic phosphate (mM)
L	3.0	1.8	5.0
K	3.9	1.3	3.0
B	2.7	0.7	2.7
M	7.2	0.9	8.0

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When comparing $\Delta G$ of ATP hydrolysis across conditions, always calculate the ratio $\dfrac{[ATP]}{[ADP][P_i]}$. A larger ratio means ATP hydrolysis is more favorable (more negative $\Delta G$).

Updated On: Sep 3, 2025

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The Correct Option is C

Solution and Explanation

Step 1: Free energy relation for ATP hydrolysis
The free energy change is given by:

ΔG = ΔG°' + RT ln(([ADP][Pi])/[ATP])

- More negative ΔG occurs when the ratio [ATP]/([ADP][Pi]) is higher.
Step 2: Calculate the ratio for each cell type
- For L: [ATP]/([ADP][Pi]) = 3.0 / (1.8 × 5.0) = 3.0 / 9.0 = 0.33
- For K: [ATP]/([ADP][Pi]) = 3.9 / (1.3 × 3.0) = 3.9 / 3.9 = 1.0
- For B: [ATP]/([ADP][Pi]) = 2.7 / (0.7 × 2.7) = 2.7 / 1.89 ≈ 1.43
- For M: [ATP]/([ADP][Pi]) = 7.2 / (0.9 × 8.0) = 7.2 / 7.2 = 1.0

Step 3: Compare the values
- Higher ratio [ATP]/([ADP][Pi]) ⇒ more negative ΔG.
- The highest ratio is for cell type B (≈ 1.43).
Final Answer: The most negative ΔG for ATP hydrolysis is in cell type B.

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