AI Article Synopsis
- The study focuses on sustainable and efficient organic synthesis, specifically the production of Knoevenagel adducts using triethylamine as a catalyst under microwave irradiation, achieving high yields in just 30 minutes.
- The synthesized adducts were then bioreduced using the marine fungus Cladosporium sp. CBMAI 1237, leading to 2-cyano-3-phenylpropanamide derivatives with good yields in mild conditions over 8 hours.
- The research highlights the importance of optimizing experimental conditions to maximize yields while demonstrating the benefits of combining microwave irradiation and biocatalysis as environmentally friendly approaches in organic synthesis.
Article Abstract
The organic synthesis has been driven by the need of sustainable processes, which also requires efficiency and cost-effectiveness. In this work, we described the synthesis of nine Knoevenagel adducts between cyanoacetamide and aromatic aldehydes ((E)-2-cyano-3-(phenyl)acrylamide derivatives), employing triethylamine as catalyst under microwave irradiation in 30 min with excellent yields (93-99% yield). Then, these adducts were employed in the C-C double bond bioreduction by the marine-derived fungus Cladosporium sp. CBMAI 1237 for obtention of 2-cyano-3-phenylpropanamide derivatives in mild conditions and short reaction time for a whole-cells reduction (phosphate buffer pH 7.0, 32 °C, 130 rpm, 8 h) with good yields (48-90%). It is important to emphasize that the experimental conditions, especially the reaction time, should be carefully evaluated for the obtention of high yields. Since a biodegradation process consumed the obtained product in extended periods, probably due to the use of the substrate as carbon and nitrogen source. This approach showed that the use of coupled and greener catalysis methods such as microwave irradiation and biocatalytic reduction, which employs unique biocatalysts like marine-derived fungi, can be an interesting tool for the obtention of organic molecules.
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| http://dx.doi.org/10.1007/s10126-020-09953-8 | DOI Listing |
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