Litcius/Paper detail

Proton-coupled electron transfer of macrocyclic ring hydrogenation: The chlorinphlorin

Rui Sun, Mengran Liu, Shao‐Liang Zheng, Dilek K. Dogutan, Cyrille Costentin, Daniel G. Nocera

2022Proceedings of the National Academy of Sciences17 citationsDOIOpen Access PDF

Abstract

Significance The chemical reduction of unsaturated bonds occurs by hydrogenation with H 2 as the reductant. Conversely, in biology, the unavailability of H 2 engenders the typical reduction of unsaturated bonds with electrons and protons from different cofactors, requiring olefin hydrogenation to occur by proton-coupled electron transfer (PCET). Moreover, the redox noninnocence of tetrapyrrole macrocycles furnishes unusual PCET intermediates, including the phlorin, which is an intermediate in tetrapyrrole ring reductions. Whereas the phlorin of a porphyrin is well established, the phlorin of a chlorin is enigmatic. By controlling the PCET reactivity of a chlorin, including the use of a hangman functionality to manage the proton transfer, the formation of a chlorinphlorin by PCET is realized, and the mechanism for its formation is defined.

Topics & Concepts

Proton-coupled electron transferTetrapyrrolePhotochemistryChemistryElectron transferPorphyrinRedoxProtonChlorinRing (chemistry)Reactivity (psychology)Organic chemistryQuantum mechanicsEnzymeAlternative medicinePhysicsMedicinePathologyPorphyrin and Phthalocyanine ChemistryMetalloenzymes and iron-sulfur proteinsMetal-Catalyzed Oxygenation Mechanisms