Acyloxy epoxides

Sulfonate esters and halides can also migrate in this reaction. a-Halo and a-acyloxy epoxides undergo ready rearrangement to a-halo and a-acyloxy ketones,... 

Petuniasterones with side chains bearing functionalities other than orthoesters also occur. The important PS-B and PS-C series (Figure 2) have epoxy groups at the 24,25-position and hydroxy or acyloxy groups at position-22. We have shown (12) that 22-acyloxy epoxides easily rearrange to the bicyclic orthoesters, and also that a 22-hydroxy epoxide yields the isomeric 5-membered cyclic ether as well as a mixture of side chain triols under mild acid treatment. 

Oxaziridines are generally formed by the action of a peracid on a combination of a carbonyl compound and an amine, either as a Schiff base (243) or a simple mixture. Yields are between 65 and 90%. Although oxygenation of Schiff bases is formally analogous to epoxidation of alkenes, the true mechanism is still under discussion. More favored than an epoxidation-type mechanism is formation of a condensation product (244), from which an acyloxy group is displaced with formation of an O—N bond. 

The silyl enol ethers of ketones are also oxidized to a-hydroxy ketones by m-chloroperoxybenzoic acid. If the reaction workup includes acylation, a-acyloxy ketones are obtained.250 These reactions proceed by initial epoxidation of the silyl enol ether, which then undergoes ring opening. Subsequent transfer of either the O-acyl or O- l MS substituent occurs, depending on the reaction conditions. 

S)-(-)-CITRONELLOL from geraniol. An asymmetrically catalyzed Diels-Alder reaction is used to prepare (1 R)-1,3,4-TRIMETHYL-3-C YCLOHEXENE-1 -CARBOXALDEHYDE with an (acyloxy)borane complex derived from L-(+)-tartaric acid as the catalyst. A high-yield procedure for the rearrangement of epoxides to carbonyl compounds catalyzed by METHYLALUMINUM BIS(4-BROMO-2,6-DI-tert-BUTYLPHENOXIDE) is demonstrated with a preparation of DIPHENYL-ACETALDEHYDE from stilbene oxide. A palladium/copper catalyst system is used to prepare (Z)-2-BROMO-5-(TRIMETHYLSILYL)-2-PENTEN-4-YNOIC ACID ETHYL ESTER. The coupling of vinyl and aryl halides with acetylenes is a powerful carbon-carbon bond-forming reaction, particularly valuable for the construction of such enyne systems. 

The method involves a highly enantioselective rearrangement of an epoxide and a subsequent Ireland-Claisen rearrangement (see Scheme 31). The enolate Claisen rearrangements of [4-7- /4-4-(l-acyloxy-2,4,6-octatrienyl)]tricarbonyl iron complexes... 

An efficient method for pentannulation using acyloxy-functionalized pyrans that evolve from readily available propargylic esters has been developed. Utilizing a range of epoxides, pentannulation is achieved using PtCl2 to obtain bicycles containing a... 

Cobalt complexes derived from Schiff bases 388 catalyzed the hydroxyacylation of electron-deficient alkenes (Fig. 90) [431, 432]. Thus, methyl acrylate 387 reacted with aliphatic aldehydes 386 in the presence of 5 mol% of the in situ generated catalyst, molecular oxygen, and acetic anhydride to 2-acyloxy-4-oxoesters 389 in 56-77% yield. When acetic anhydride was omitted, the yields of products were lower and mixtures of the free hydroxy compounds and acylated compounds resulting from Tishchenko reactions were obtained. Electron-rich alkenes did not undergo the transformation, since the addition of the acyl radical is much slower. The acylcobalt species inserts oxygen instead and acts as an epoxidation catalyst. 

The Passerini reaction is a useful method for the synthesis of substituted a-acyloxy carbocyclic acids. This is another reaction that one might assume an epoxide would not survive. Reaction of an epoxy aldehyde with benzoic and TosMIC provided the Passerini product in good yield as a mixture of diastereomers <07SL83>. 

Participation by neighbouring ester groups was observed in acid-catalysed opening of 3jS"acyloxy-4a,5a-epoxides 4) [39]> which are conformationally ideal for giving a 3, 4 -acylonium bridge (5) (c/ p. 58). The intermediacy of structure (5) results in migration of the acyloxy group from C(3) to C(4) (6), and has been confirmed by the isolation of a stable... 

Enantioselective isomerization. Epoxides of enol esters provide chiral oi-acyloxy ketones and chiral starting materials. 

Likewise, [bis(acyloxy)iodo]arenes can be used as the oxidants in organocatalytic, asymmetric epoxidation of a,p-unsaturated aldehydes using chiral imidazolidinone catalyst 207 [266]. In a specific example, the... 

This reaction involves the deprotonation of a-(acyloxy) acetate, and the resulting car-banion adds to the carbonyl moiety of the a-acyloxy group to form an epoxide, which... 

Disubstituted vinyl silanes are epoxidized in high ee s and enantiomerically enriched 1,1-disubstituted epoxides can be obtained via the desilylation of these epoxides e.g., 18). Allylic alcohols and conjugated dienes and enynes are effective substrates (e.g. 19 and 20). ° The epoxidations of enol ethers and enol esters were also studied. The resulting epoxides (e.g., 21) from enol esters can undergo stereoselective rearrangement to give optically active a-acyloxy ketones, (5)-22 or (i )-23, under different acidic conditions. 

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