Computational study on formation of 15-membered azalactone by double reductive amination using molecular mechanics and density functional theory calculations

Computational study on formation of 15-membered azalactone by double reductive amination using molecular mechanics and density functional theory calculations

Formation of 15-membered azalactone by double reductive amination was analyzed using molecular mechanics and density functional theory calculations for simplified model compounds. As a result, the following aspects were clarified. When methylamine attacks a linear bis-aldehyde in the first step, the...

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Veröffentlicht in:Journal of antibiotics 2018-05, Vol.71 (5), p.549-556
Hauptverfasser: Gouda, Hiroaki, Nakayama, Naofumi, Miura, Tomoaki, Kanemoto, Kenichi, Ajito, Keiichi
Format: Artikel
Sprache:eng
Schlagworte:
631/326/22/1290
631/92/606
Aldehydes
Amination
Bacteriology
Biomedical and Life Sciences
Bioorganic Chemistry
Brief Communication
Computational Biology
Cyclization
Density Functional Theory
Hydrogen Bonding
Lactones - chemical synthesis
Life Sciences
Medicinal Chemistry
Microbiology
Models, Molecular
Organic Chemistry
Stereoisomerism
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Zusammenfassung:Formation of 15-membered azalactone by double reductive amination was analyzed using molecular mechanics and density functional theory calculations for simplified model compounds. As a result, the following aspects were clarified. When methylamine attacks a linear bis-aldehyde in the first step, there are possibilities that two regioisomers are formed. However, one of them exhibited remarkably stable energy level compared with the other. The stable isomer indicated a short distance between a methylamine moiety and an unreacted aldehyde. This short distance, about 2.3 Å, could be explained by hydrogen bonding, which implied relatively easy cyclization in the second step. Moreover, this cyclization process was supposed to be exothermic according to comparison of energy levels before and after cyclization.
ISSN:0021-8820
1881-1469
DOI:10.1038/s41429-018-0030-6