ChemBioChem
August 24, 2023
Eike Schäfer, Stefan Bartram, Felix Trottmann et al.
7 citations
Psilocybe 'magic mushrooms' are well known for their psychotropic tryptamines, but the diversity of other specialized metabolites, especially terpenoids, has remained unclear. CubA, the single clade II sesquiterpene synthase from Psilocybe cubensis, was produced in Escherichia coli and characterized in vitro, with additional in vivo assays in Aspergillus niger. GC-MS analyses showed CubA functions as a multi-product synthase, producing cubebol, β-copaene, δ-cadinene, and germacrene D as major products depending on reaction conditions. Analysis of mature P. cubensis mushrooms detected β-copaene and δ-cadinene. Closely related enzymes are encoded in genomes of various Psilocybe species, providing insight into the metabolic capacity of the entire genus.
ChemBioChem
May 3, 2025
Nick Zschoche, Markus Gressler, Stefan Bartram et al.
1 citation
Psilocybe cubensis mushrooms, famous for producing the psychedelic compound psilocybin, also possess enzymes that synthesize a variety of other small, potentially bioactive molecules. Four newly identified sesquiterpene synthases, CubB through CubE, are expressed differently in the mushroom's fruiting bodies versus its vegetative mycelium. CubB produces a single compound, nerolidol, while CubC generates multiple sesquiterpenes including β-caryophyllene and α-humulene. CubD and CubE nearly exclusively produce sterpurene. The presence of nerolidol was confirmed in young fruiting bodies and vegetative mycelium. These findings expand understanding of the secondary metabolome of Psilocybe species.
ChemBioChem
April 1, 2026
Sebastian Schober, Lisa Dorfmann, Karl Walther et al.
Psilocybe cubensis magic mushrooms produce not only the psychedelic psilocybin but also a range of sesquiterpenes, natural products that can modulate biological receptors. Five sesquiterpene synthases were characterized: CubF makes α-muurolol, CubG1 and CubG2 produce mainly epi-isozizaene and β-duprezianene, CubH yields dauca-4(11),8-diene, and CubI forms β-barbatene. Gas chromatography revealed that vegetative mycelium and fruiting bodies have different sesquiterpene profiles, with sterpurene prominent in mycelium and dauca-4(11),8-diene in fruiting bodies. This knowledge may help separate the pharmacological effects of whole magic mushrooms from those of pure psilocybin.