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Protein-Driven Electron-Transfer Process in a Fatty Acid Photodecarboxylase

Giacomo Londi, Giacomo Salvadori, Patrizia Mazzeo, Lorenzo Cupellini, Benedetta Mennucci

2024JACS Au13 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Naturally occurring photoenzymes are rare in nature, but among them, fatty acid photodecarboxylases derived from Chlorella variabilis ( Cv FAPs) have emerged as promising photobiocatalysts capable of performing the redox-neutral, light-induced decarboxylation of free fatty acids (FAs) into C1-shortened n- alka(e)nes. Using a hybrid QM/MM approach combined with a polarizable embedding scheme, we identify the structural changes of the active site and determine the energetic landscape of the forward electron transfer (fET) from the FA substrate to the excited flavin adenine dinucleotide. We obtain a charge-transfer diradical structure where a water molecule rearranges spontaneously to form a H-bond interaction with the excited flavin, while the FA’s carboxylate group twists and migrates away from it. Together, these structural modifications provide the driving force necessary for the fET to proceed in a downhill direction. Moreover, by examining the R451K mutant where the FA substrate is farther from the flavin core, we show that the marked reduction of the electronic coupling is counterbalanced by an increased driving force, resulting in a fET lifetime similar to the WT, thereby suggesting a resilience of the process to this mutation. Finally, through QM/MM molecular dynamic simulations, we reveal that, following fET, the decarboxylation of the FA radical occurs within tens of picoseconds, overcoming an energy barrier of ∼0.1 eV. Overall, by providing an atomistic characterization of the photoactivation of Cv FAP, this work can be used for future protein engineering.

Topics & Concepts

Flavin groupDecarboxylationChemistryElectron transferSubstrate (aquarium)Excited statePhotochemistryRedoxChemical physicsBiochemistryOrganic chemistryEnzymeCatalysisPhysicsOceanographyGeologyNuclear physicsPhotosynthetic Processes and MechanismsPhotoreceptor and optogenetics researchPhotochemistry and Electron Transfer Studies