Symmetry-Driven Total Synthesis of Myrioneurinol

Anion-Relay Double Aza-Michael-Michael Cascades to Enone-Tethered Cyclohexadienones: Access to an Intricate Bridged Ring System

An anion-relay double aza-Michael-Michael addition strategy has been reported for the synthesis of intricate scaffolds from enone-tethered cyclohexadienones and primary amines. This method discloses the base-catalyzed synthesis of highly valued bridged aza-tricyclic frameworks with a high level of product selectivity and stereoselectivity. Gram scale synthesis and synthetic transformation were shown to afford structurally diverse bridged aza-polycyclic amines. Control experiments and the kinetic profile were studied to determine a plausible reaction mechanism.

A Unified Synthetic Approach to the Pleurotin Natural Products

The asymmetric total syntheses of four pleurotin natural products, namely, (-)-pleurotin, (+)-leucopleurotin, (+)-leucopleurotinic acid, and (+)-dihydropleurotinic acid, were described in a concise manner. Key transformations feature a Johnson-Claisen rearrangement, a diastereo-controlled sequential hydroboration-oxidation, a SOMO/photoredox activated aldehyde α-alkylation, and oxidative cyclizations.

Synthetic Studies toward the Myrioneuron Alkaloids

The Myrioneuron alkaloids are a relatively small family of plant-derived alkaloids that present an intriguing array of structural intricacy and biological properties. As such, these natural products have drawn interest from the synthetic community, resulting in creative total syntheses of several family members. This review showcases recent synthetic efforts towards these polycyclic alkaloids.

Scalemic myrionsumamide A, tetracyclic skeleton alkaloids from Myrioneuron effusum

Investigation of the alkaloids from Myrioneuron effusum leads to the isolation of myrionsumamide A (1), a pair of enantiomeric alkaloids with an unprecedented tetracyclic system skeleton. These two alkaloids were separated by chiral HPLC with a ratio of 3 : 5 from the scalemic mixture. Their structures including absolute configurations were determined by NMR spectroscopy, X-ray diffraction data and ECD calculations. Both (+)-1 and (-)-1 showed antibacterial activity against Staphylococcus aureus with MIC at 7.81 μg ml^-1.