Downey, Carol A (1993) Metallic acetate oxidations of substituted hydrazones of acetoacetanilides and their conversion to b-lactams. PhD thesis, Dublin City University.
Abstract
In recent years, the ability to prepare 4-substituted (3-lactams (2-azetidinones) has become a major synthetic objective. Monocyclic p-lactams bearing a heteroatom at C4 are of particular interest, especially as potential precursors of novel bicyclic p-lactams. The introduction of 4-alkyl groups into monobactams results in an increase in activity against Gramnegative bacteria and enhanced p-lactamase stability.
Among a variety of methods for construction of the p-lactam ring, formation of the N-C4 bond is known to be a biomimetic process. Chemical syntheses of the 2-azetidinone ring by NC4 lactamisation mostly involve nucleophilic attack by N at C4, with displacement of a good leaving group, or intramolecular dehydration of p-hydroxy amide derivatives by application of the Mitsunobu reaction. Base-induced N-C4 cyclisation of azoacetates derived from pnitrophenylhydrazones of acetoacetanilides was envisaged as a potential route to novel 4-azo- 4-methyl-p-lactams.
Lead (IV) acetate oxidation of acetoacetanilide p-nitrophenylhydrazones gave, in most cases, the expected azoacetates. With a-unsubstituted substrates, the usual intramolecular acétoxylation was not observed using acetic acid as solvent, and Z-azoalkenes were formed exclusively. a-Methyl derivatives afforded diastereomeric azoacetates in a stereoselective manner consistent with a Cram-type mechanism, as determined by X-ray crystallographic analysis.
Mercury (II) acetate oxidation of a-unsubstituted acetoacetanilide p-nitrophenylhydrazones furnished the corresponding azoalkenes as mixtures of E- and Z-isomers. The configuration of each olefin was established through 1H NMR studies.
Metallic acetate oxidation of toluene-p-sulfonylhydrazones derived from acetoacetanilides was perceived as a possible new synthesis of 4-methyl-2-azetidinones involving N-C4 cyclisation of a carbenic intermediate. Mercury (II) acetate oxidation of aunsubstituted substrates resulted in the unexpected formation of acetylenic amides.
A system of model compounds was examined in order to gain insight into the reactivity of the acetoacetanilide-derived azoacetates and the conditions which might be employed to induce N-C4 dehydroacetoxylation. 1H NMR was used to determine the stereochemistry of model 3,4-dimethyl-2-azetidinones, where the trans-p-lactam was formed in preference to the cis-isomer.
A variety of bases were identified which enable the conversion of acetoacetanilidederived azoacetates to novel 4-azo-4-methyl-2-azetidinones, The transformation is believed to involve an unstable Intermediate azoalcohol in some cases. The monocyclic 3-lactams prepared are important since they possess both an alkyl group and a heteroatom substituent in the 4-position.
Metadata
Item Type: | Thesis (PhD) |
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Date of Award: | 1993 |
Refereed: | No |
Supervisor(s): | James, Paraic |
Uncontrolled Keywords: | Antibiotics; Monocyclic B-lactams; Gram-negative bacteria |
Subjects: | Biological Sciences > Biotechnology Humanities > Biological Sciences > Biotechnology Biological Sciences > Biology Humanities > Biological Sciences > Biology Physical Sciences > Chemistry |
DCU Faculties and Centres: | DCU Faculties and Schools > Faculty of Science and Health > School of Chemical Sciences |
Use License: | This item is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 License. View License |
ID Code: | 18528 |
Deposited On: | 24 Jul 2013 13:05 by Celine Campbell . Last Modified 24 Jul 2013 13:05 |
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