Radiosynthesis of 3‐(3‐[¹⁸F]fluoropropoxy)‐4‐(benzyloxy)‐N‐[(1‐dimethylaminocyclopentyl)methyl]‐5‐methoxybenzamide, a potential PET radiotracer for the glycine transporter GlyT‐2

Abstract: The recently described selective and potent GlyT2 antagonist, 4‐benzyloxy‐3,5‐dimethoxy‐N‐[(1‐dimethylaminocyclopentyl) methyl]benzamide (IC50=16 nM) provided an important additional tool to further characterize GlyT2 pharmacology. In order to identify an effective PET radioligand for in vivo assessment of the GlyT‐2 transporter, 3‐(3‐[18F]fluoropropoxy)‐4‐(benzyloxy)‐N‐((1‐dimethylaminocyclopentyl) methyl)‐5‐methoxybenzamide ([18F]3), a novel analog of 4‐benzyloxy‐3,5‐dimethoxy‐N‐[(1‐dimethylaminocyclopentyl)… Show more

“…As shown in Scheme 4, methyl gallate (6) was initially transformed into 16, 16 which was partially hydrolyzed to produce phenol 17. The Ullmann condensation between 17 and 8 generated the ether bond, and the left acetyl group was cleaved by hydrolysis.…”

Initial Synthesis of Valoneic and Woodfordinic Acid Dilactones

“…As shown in Scheme 4, methyl gallate (6) was initially transformed into 16, 16 which was partially hydrolyzed to produce phenol 17. The Ullmann condensation between 17 and 8 generated the ether bond, and the left acetyl group was cleaved by hydrolysis.…”

Initial Synthesis of Valoneic and Woodfordinic Acid Dilactones

A new substrate to measure laccase activities in complex environments: Application to litters

Flavonoid metabolism: the synthesis of phenolic glucuronides and sulfates as candidate metabolites for bioactivity studies of dietary flavonoids