Thermolysis of 3,4-cis ring-fused 5-spirocyclopropane isoxazolidines 16, 18-21, 33, 34, 38a, and 61, in the presence of a protic acid at 70-110 °C, yielded 3,4-cis ring-fused azetidin-2-ones 22-26, 41, 42, 46, and 62 with concomitant extrusion of ethylene, in good yields. So far, the collected evidences strongly support a mechanism started by a homolytic cleavage of the protonated N-O bond for the rearrangement of 5-spirocyclopropane isoxazolidines to â-lactams. Some different competitive pathways can then follow depending on the stability or the stereoelectronic properties of cationic diradical intermediates. The two-step process, intramolecular 1,3-dipolar cycloaddition/ thermal rearrangement under acidic conditions, represents a general synthesis of a new class of 3,4-cis-fused bicyclic azetidin-2-ones starting from easily available compounds such as amino acids, hydroxy acids, and dicarbonyl or amino alcohol derivatives.
Selective Ring Contraction of 5-Spirocyclopropane Isoxazolidines Mediated by Acids / F. M. Cordero; F. Pisaneschi; M. Salvati; V. Paschetta; J. Ollivier; J. Salaun; A. Brandi. - In: JOURNAL OF ORGANIC CHEMISTRY. - ISSN 0022-3263. - STAMPA. - 68:(2003), pp. 3271-3280. [10.1021/jo034003g]
Selective Ring Contraction of 5-Spirocyclopropane Isoxazolidines Mediated by Acids
CORDERO, FRANCA MARIA;PISANESCHI, FEDERICA;SALVATI, MARIA;BRANDI, ALBERTO
2003
Abstract
Thermolysis of 3,4-cis ring-fused 5-spirocyclopropane isoxazolidines 16, 18-21, 33, 34, 38a, and 61, in the presence of a protic acid at 70-110 °C, yielded 3,4-cis ring-fused azetidin-2-ones 22-26, 41, 42, 46, and 62 with concomitant extrusion of ethylene, in good yields. So far, the collected evidences strongly support a mechanism started by a homolytic cleavage of the protonated N-O bond for the rearrangement of 5-spirocyclopropane isoxazolidines to â-lactams. Some different competitive pathways can then follow depending on the stability or the stereoelectronic properties of cationic diradical intermediates. The two-step process, intramolecular 1,3-dipolar cycloaddition/ thermal rearrangement under acidic conditions, represents a general synthesis of a new class of 3,4-cis-fused bicyclic azetidin-2-ones starting from easily available compounds such as amino acids, hydroxy acids, and dicarbonyl or amino alcohol derivatives.
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