Synthesis of N-(2′S)-methylbutanoyl-2-methylbutylamide (Frianol), sex pheromone of sugarcane rhizome borer Migdolus fryanus, from renewable sources

[Display omitted] •The work targets a main problem of sugarcane plantations in tropical areas.•Excellent yield using inexpensive reactants, reducing total production cost.•Pheromone was produced using plant primary and secondary metabolites. Rhizome borer Migdolus fryanus is the most prevalent and h...

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Bibliographic Details
Published in:Results in Chemistry 2022-01, Vol.4, p.100368, Article 100368
Main Authors: Barbosa Bernardo, Vanderson, Raquel Ferreira Lima, Maria, Euzébio Goulart Santana, Antônio
Format: Article
Language:English
Subjects:
Chemical ecology
Frianol
Migdolus fryanus
Organic synthesis
Pheromone
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Summary:[Display omitted] •The work targets a main problem of sugarcane plantations in tropical areas.•Excellent yield using inexpensive reactants, reducing total production cost.•Pheromone was produced using plant primary and secondary metabolites. Rhizome borer Migdolus fryanus is the most prevalent and harmful beetle attacking sugarcane crops. The insect larvae feed on the plant roots and adults spend most of their lives also under the surface. Classical control methods are expensive and ineffective, pesticides, for instance, do not reach the beetles due to their underground habits. Using semiochemicals to control M. fryanus population is an outstanding alternative. The insect sex pheromone, N-(2′S)-methylbutanoyl-2-methylbutylamide, has already been successfully used in bated traps, but its synthesis is laborious and expensive. Therefore, we herein present a cost-effective and efficient method to prepare the pheromone, using renewable starting materials. The amide can be prepared in 3 steps, starting with the decarboxylation of isoleucine, leading to an imine intermediate. After an acidic hydrolysis, the ammonium salt formed reacts with 2-methylbutyric acid to give the pheromone as the only product in 87% overall yield.
ISSN:2211-7156
2211-7156
DOI:10.1016/j.rechem.2022.100368