Andrew R. Pape scite author profile

We describe in full the first synthesis of the potent insect antifeedant azadirachtin through a highly convergent approach. An O-alkylation reaction is used to unite decalin ketone and propargylic mesylate fragments, after which a Claisen rearrangement constructs the central C8-C14 bond in a stereoselective fashion. The allene which results from this sequence then enables a second critical carbon-carbon bond forming event whereby the [3.2.1] bicyclic system, present in the natural product, is generated via a 5-exo-radical cyclisation process. Finally, using knowledge gained through our early studies into the reactivity of the natural product, a series of carefully designed steps completes the synthesis of this challenging molecule.

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N-Amino-N-methylmorpholinium Salts: Highly Active Aziridination Reagents for Chalcones

Armstrong¹,

Carbery²,

Lamont³

et al. 2006

Synlett

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A highly effective aziridination reagent, based on Nmethylmorpholine, is reported which effects rapid conversion of chalcones to N-unfunctionalised aziridines at room temperature.Aziridines are highly attractive synthetic intermediates, 2 largely because they can undergo ring opening with a variety of nucleophiles to give functionalised amine products. 3,4 However, alkene aziridination, particularly asymmetric aziridination, is far less well developed than the closely related epoxidation. 5-8 We were attracted by the report of Xu in 2002 that enones can be aziridinated by hydrazinium salt 1 in the presence of NaH (Scheme 1). 9 By analogy with an earlier study, 10 this chemistry was assumed to proceed by deprotonation of 1 to give an N-N ylid (aminimine), which then undergoes Michael addition to the enone followed by ring closure to give the aziridine. An advantage of the method is that it affords N-unsubstituted aziridines which allows flexibility in further functionalising the nitrogen with a choice of activating group. We reasoned that this process had potential for asymmetric aziridination if chiral hydrazinium salts were employed. However, the strong base and carcinogenic solvent employed in this work were unattractive, as were the relatively long reaction times. Therefore, we undertook a study of alternative reaction conditions and report here the discovery of two new base systems as well as a more reactive hydrazinium salt that is particularly convenient to prepare. Scheme 1We began by testing the Xu nitrate salt 1 (2 equiv) for aziridination of chalcone with alternative bases and solvents. Early studies showed that it was possible to use NaOH in MeCN, but the yield of aziridine was low (17% after 18 h). Therefore we prepared alternative hydrazinium nitrate salts by amination of several cyclic amines. While the hydrazinium salts derived from N-methylpyrrolidine and N-methylpiperidine gave comparable or lower yields of aziridine, we were delighted to find that the N-methylmorpholinium nitrate salt 2a (Scheme 2), prepared by amination of N-methylmorpholine (Scheme 2), effected aziridination of chalcone in 95% yield after only three hours under the NaOH/MeCN conditions (Scheme 3). While this result was encouraging, particularly in identifying the reactivity of the morpholine framework, we felt that the procedure used to prepare the hydrazinium nitrate salt 2a from N-methylmorpholine was inconvenient since it required reaction with hydroxylamine-O-sulfonic acid (HOSA) and Ba(NO 3 ) 2 over extended time periods at raised temperatures. Therefore, we were pleased to find that the corresponding iodide salt could be more readily prepared simply by treatment of commercially available N-aminomorpholine 3 with one equivalent of iodomethane in THF at 0°C. The hydrazinium iodide salt 2b was isolated after filtration as a white solid in 77% yield and can be further purified by recrystallisation from EtOH. Under the same NaOH/MeCN conditions, the iodide 2b afforded a slightly lower yield of aziridine than nitrate 2a (Schem...

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Hydantoin based inhibitors of MMP13—Discovery of AZD6605

Savi¹,

Waterson²,

Pape³

et al. 2013

Bioorganic & Medicinal Chemistry Letters

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Orally active achiral N-hydroxyformamide inhibitors of ADAM-TS4 (aggrecanase-1) and ADAM-TS5 (aggrecanase-2) for the treatment of osteoarthritis

Savi

Pape

Sawyer

et al. 2011

Bioorganic & Medicinal Chemistry Letters

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Andrew R. Pape

Transition-Metal-Mediated Dearomatization Reactions

The Synthesis of Azadirachtin: A Potent Insect Antifeedant

N-Amino-N-methylmorpholinium Salts: Highly Active Aziridination Reagents for Chalcones

Hydantoin based inhibitors of MMP13—Discovery of AZD6605

Orally active achiral N-hydroxyformamide inhibitors of ADAM-TS4 (aggrecanase-1) and ADAM-TS5 (aggrecanase-2) for the treatment of osteoarthritis

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