Optimization of nonequilibrium free energy harvesting illustrated on bacteriorhodopsin

Citació

  • Piñero J, Solé R, Kolchinsky A. Optimization of nonequilibrium free energy harvesting illustrated on bacteriorhodopsin. Phys Rev Research. 2024;6:013275. DOI: 10.1103/PhysRevResearch.6.013275

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Descripció

  • Resum

    Harvesting free energy from the environment is essential for the operation of many biological and artificial systems. We use techniques from stochastic thermodynamics to investigate the maximum rate of harvesting achievable by optimizing a set of reactions in a Markovian system, possibly under various kinds of topological, kinetic, and thermodynamic constraints. This question is relevant for the optimal design of new harvesting devices as well as for quantifying the efficiency of existing systems. We first demonstrate that the maximum harvesting rate can be expressed as a constrained convex optimization problem. We illustrate it on bacteriorhodopsin, a light-driven proton pump from Archaea, which we find is close to optimal under realistic conditions. In our second result, we solve the optimization problem in closed-form in three physically meaningful limiting regimes. These closed-form solutions are illustrated on two idealized models of unicyclic harvesting systems.
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