Marion Thévenin scite author profile

The formation of methylenebis(chalcone)s has been discovered during deprotection with methoxymethyl groups from trihydroxychalcones. Studies on this methylenation reaction led to a mechanism hypothesis that was extended to other chalcones and to dihydrochalcone, acetophenone, benzophenone and flavone derivatives. This new method was applied to the rapid synthesis of natural product piperanduncin C. These original methylenebis compounds were also evaluated for their antiparasitic activity.

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First Total Synthesis of Original Chalcone–Flavone Dimers as Cissampeloflavone Analogues

Thévenin

Thoret

Dubois

2018

Eur J Org Chem

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The total synthesis of furoflavones closely related to the natural product cissampeloflavone was explored following different pathways. The involvement of a flavone as a key intermediate proved to be the most efficient way to form the 7‐phenyl‐5H‐furo[3,2‐g]chromen‐5‐one scaffold, and the first example of furoflavone formation was achieved in this way. For the synthesis of chalcone–flavone dimers, two different strategies were examined: either acylation at the very end of the synthesis, or introduction of the 3‐acyl group during furan‐ring formation. The final acylation was hardly achievable with hindered benzoyl chlorides, but a simpler 4‐methoxybenzoyl group was added to the furoflavone in modest yield. The alternative direct introduction of this acyl group during furan formation proved to be more efficient. Conjugate addition of an iodoflavone to an ynone followed by intramolecular Heck cyclization gave the best results, leading to the first synthetic chalcone–flavone dimer ever described.

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Marion Thévenin

Synthesis of polysubstituted benzofuran derivatives as novel inhibitors of parasitic growth

Facile Formation of Methylenebis(chalcone)s through Unprecedented Methylenation Reaction. Application to Antiparasitic and Natural Product Synthesis

First Total Synthesis of Original Chalcone–Flavone Dimers as Cissampeloflavone Analogues

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