N-heteroatom substitution effect in 3-aza-cope rearrangements

Background The nature of the heteroatom substitution in the nitrogen of a 3-aza-Cope system is explored. Results While N-propargyl isoxazolin-5-ones suffer 3-aza-Cope rearrangements at 60°C, the corresponding N-propargyl pyrazol-5-ones need a higher temperature of 180°C for the equivalent reaction....

Full description

Saved in:
Bibliographic Details
Published in:Chemistry Central journal 2013-05, Vol.7 (1), p.94-94, Article 94
Main Authors: Gomes, Mário JS, Pinto, Luis FV, Glória, Paulo MC, Rzepa, Henry S, Prabhakar, Sundaresan, Lobo, Ana M
Format: Article
Language:English
Subjects:
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Cleavage
Density
Equivalence
Free energy
Mathematical analysis
Organic and Medicinal Chemistry
Pathways
Propargyl groups
Research Article
Ring opening
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Background The nature of the heteroatom substitution in the nitrogen of a 3-aza-Cope system is explored. Results While N-propargyl isoxazolin-5-ones suffer 3-aza-Cope rearrangements at 60°C, the corresponding N-propargyl pyrazol-5-ones need a higher temperature of 180°C for the equivalent reaction. When the propargyl group is substituted by an allyl group, the temperature of the rearrangement for both type of compounds is less affected by the nature of the heteroatom present. Treatment with a base, such as ethoxide, facilitates the rearrangement, and in the case of isoxazol-5- ones other ring opening reactions take precedence, involving N–O ring cleavage of the 5-membered ring. However when base-catalysed decomposition is prevented by substituents, products arising from a room temperature aza-Cope rearrangement are isolated. A possible mechanistic pathway based on free energies derived from density functional calculations involving cyclic intermediates is proposed. Conclusions The nature of the heteroatom substitution in the nitrogen of a 3-aza-Cope system leads to a remarkable difference in the energy of activation of the reaction.
ISSN:1752-153X
1752-153X
DOI:10.1186/1752-153X-7-94