Structure elucidation and spectroscopic analysis of chromophores produced by oxidative psilocin dimerization.

Lenz C, Dörner S, Sherwood A, Hoffmeister D (2021) Structure elucidation and spectroscopic analysis of chromophores produced by oxidative psilocin dimerization. Chemistry 27(47), 12166-12171.

Abstract

Psilocin (1) is the dephosphorylated and psychotropic metabolite of the mushroom natural product psilocybin. Oxidation of the phenolic hydroxy group at the C-4 position of 1 results in formation of oligomeric indoloquinoid chromophores responsible for the iconic blueing of bruised psilocybin-producing mushrooms. Based on previous NMR experiments, the hypothesis included that the 5,5'-coupled quinone dimer of 1 was the primary product responsible for the blue color. To test this hypothesis, ring-methylated 1 derivatives were synthesized to provide stable analogs of 1 dimers that could be completely characterized. The chemically oxidized derivatives were spectroscopically analyzed and compared to computationally derived absorbance spectra. Experimental evidence did not support the original hypothesis. Rather, the blue color was shown to stem from the quinoid 7,7'-coupled dimer of 1.

Leibniz-HKI-Autor*innen

Sebastian Dörner
Dirk Hoffmeister
Claudius Lenz

Identifier

doi: 10.1002/chem.202101382

PMID: 34062028