Enantioselective total syntheses of (S)-phosphonothrixin and unexpected cyclic derivative (S)-cyclic phosphonothrixin via enzymatic resolution

Abstract

ABSTRACT (S)-Phosphonothrixin is a phosphonate natural product produced by Saccharothrix sp. ST-888 that exhibits herbicidal activity. The previously reported asymmetric synthesis of (S)-phosphonothrixin is laborious and difficult to reproduce. In this study, we developed a scalable and concise enantioselective total synthesis of (S)-phosphonothrixin via two different synthetic routes by the enzymatic resolution of a known racemic epoxy alcohol. The second-generation synthesis was more efficient in terms of the overall yield (15%) and the number of steps (7) and afforded a unique cyclic phosphonate (phostone) as the product of the C–P bond formation reaction, which was converted to (S)-cyclic phosphonothrixin. Both (S)-phosphonothrixin and (S)-cyclic phosphonothrixin induced chlorosis in the plant Arabidopsis thaliana. However, (S)-cyclic phosphonothrixin exhibited lower activity than (S)-phosphonothrixin owing to its fixed conformation, as evidenced by a structure–activity relationship study. This study paves the way for the elucidation of the detailed mode of action of (S)-phosphonothrixin.