Can an endergonic reaction with a ΔG of 12 kcal/mol be driven by ATP hydrolysis?

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Can an endergonic reaction with a ΔG of 12 kcal/mol be driven by ATP hydrolysis?

Thermodynamics of coupled reactions: the overall ΔG must be negative for the process to proceed. The energy released by ATP hydrolysis is finite—roughly −7 kcal/mol per ATP under cellular conditions. If the endergonic step has ΔG of +12 kcal/mol, coupling it to the hydrolysis of one ATP gives +12 + (−7) ≈ +5 kcal/mol, still unfavorable. So a single ATP hydrolysis cannot drive this reaction. In principle, energy from two ATPs (about −14 kcal/mol) could make the total ≈ −2 kcal/mol, allowing the reaction to proceed, but that requires using more than one ATP. Enzymes can arrange the coupling, but they don’t change the total energetics; the sum of ΔG values determines feasibility.

Can an endergonic reaction with a ΔG of 12 kcal/mol be driven by ATP hydrolysis?

Prepare for your upcoming Biology exam including topics on Energy, Enzymes, Cellular Respiration, and Photosynthesis. Engage with multiple choice questions, detailed explanations, and practical insights to excel in your assessment.

Can an endergonic reaction with a ΔG of 12 kcal/mol be driven by ATP hydrolysis?

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