On improving the performance of nonphotochemical quenching in CP29 light-harvesting antenna complex

• Improvement of the efficiency of the charge-transfer nonphotochemical quenching in CP29.
• Strategy for restoring the NPQ efficiency when the environment changes.
• By changing of energy transfer rates to the sinks, one can significantly improve the performance of the NPQ.

We model and simulate the performance of charge-transfer in nonphotochemical quenching (NPQ) in the CP29 light-harvesting antenna-complex associated with photosystem II (PSII). The model consists of five discrete excitonic energy states and two sinks, responsible for the potentially damaging processes and charge-transfer channels, respectively. We demonstrate that by varying (i) the parameters of the chlorophyll-based dimer, (ii) the resonant properties of the protein-solvent environment interaction, and (iii) the energy transfer rates to the sinks, one can significantly improve the performance of the NPQ. Our analysis suggests strategies for improving the performance of the NPQ in response to environmental changes, and may stimulate experimental verification.