Enol ethers acylation

The reaction of tnfluoromethyl-substituted A -acyl umnes toward nucleophiles in many aspects parallels that of the parent polyfluoro ketones Heteronucleophiles and carbon nucleophiles, such as enarmnes [37, 38], enol ethers [38, 39, 40], hydrogen cyanide [34], tnmethylsilylcarbomlnle [2,47], alkynes [42], electron-nch heterocycles [43], 1,3-dicarbonyl compounds [44], organolithium compounds [45, 46, 47, 48], and Gngnard compounds [49,50], readily undergo hydroxyalkylation with hexafluoroace-tone and amidoalkylation with acyl imines denved from hexafluoroacetone... 

Alkylation of enamines with epoxides or acetoxybromoalkanes provided intermediates for cyclic enol ethers (668) and branched chain sugars were obtained by enamine alkylation (669). Sodium enolates of vinylogous amides underwent carbon and nitrogen methylation (570), while vicinal endiamines formed bis-quaternary amonium salts (647). Reactions of enamines with a cyclopropenyl cation gave alkylated imonium products (57/), and 2-benzylidene-3-methylbenzothiazoline was shown to undergo enamine alkylation and acylation (572). A cyclic enamine was alkylated with methylbromoacetate and the product reduced with sodium borohydride to the key intermediate in a synthesis of the quebrachamine skeleton (57i). 

The chiral BOX-copper(ll) complexes, (S)-21a and (l )-21b (X=OTf, SbFg), were found by Evans et al. to catalyze the enantioselective cycloaddition reactions of the a,/ -unsaturated acyl phosphonates 49 with ethyl vinyl ether 46a and the cyclic enol ethers 50 giving the cycloaddition products 51 and 52, respectively, in very high yields and ee as outlined in Scheme 4.33 [38b]. It is notable that the acyclic and cyclic enol ethers react highly stereoselectively and that the same enantiomer is formed using (S)-21a and (J )-21b as the catalyst. It is, furthermore, of practical importance that the cycloaddition reaction can proceed in the presence of only 0.2 mol% (J )-21a (X=SbF6) with minimal reduction in the yield of the cycloaddition product and no loss of enantioselectivity (93% ee). 

More recently, further developments have shown that the reaction outlined in Scheme 4.33 can also proceed for other alkenes, such as silyl-enol ethers of acetophenone [48 b], which gives the endo diastereomer in up to 99% ee. It was also shown that / -ethyl-/ -methyl-substituted acyl phosphonate also can undergo a dia-stereo- and enantioselective cycloaddition reaction with ethyl vinyl ether catalyzed by the chiral Ph-BOX-copper(ll) catalyst. The preparative use of the cycloaddition reaction was demonstrated by performing reactions on the gram scale and showing that no special measures are required for the reaction and that the dihydro-pyrans can be obtained in high yield and with very high diastereo- and enantioselective excess. 

Amidoalkylation of silyl enol ethers with /V-acyliiiiiiiium ions containing camphanoyl-derived acyl functions (see Appendix) as the chiral auxiliary leads to optically active 2-substituted piperidine derivatives with moderate to high diastereoselectivity, depending on the chiral auxiliary and the cnol ether82 99. The auxiliary is removed by hydrolysis with base or acid. 

As in the Japp-Klingemann reaction, when Z is an acyl or carboxyl group (in the case of R2CH—Z), it can be cleaved. Since oximes and nitroso compounds can be reduced to primary amines, this reaction often provides a route to amino acids. As in the case of 12-4, the silyl enol ether of a ketone can be used instead of the ketone itself. Good yields of a-oximinoketones (20) can be obtained by treating ketones with fert-butyl thionitrate. ... 

Conditions for arylation of enolate equivalents have also been developed. In the presence of ZnF2, silyl enol ethers, silyl ketene acetals, and similar compounds react. For example, the TMS derivatives of /V-acyl oxazolidinones can be arylated. 

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. 

Nitration of ketones or enol ethers provides a useful method for the preparation of a-nitro ketones. Direct nitration of ketones with HN03 suffers from the formation of a variety of oxidative by-products. Alternatively, the conversion of ketones into their enolates, enol acetates, or enol ethers, followed by nitration with conventional nitrating agents such as acyl nitrates, gives a-nitro ketones (see Ref. 79, a 1980 review). The nitration of enol acetates of alkylated cyclohexanones with concentrated nitric acid in acetic anhydride at 15-22 °C leads to mixtures of cis- and rrans-substituted 2-nitrocyclohexanones in 75-92% yield. 4-Monoalkylated acetoxy-cyclohexanes give mainly m-compounds, and 3-monoalkylated ones yield fra/w-compounds (Eq. 2.40).80... 

Whereas metal-catalyzed decomposition of simple diazoketones in the presence of ketene acetals yields dihydrofurans 121,124,134), cyclopropanes usually result from reaction with enol ethers, enol acetates and silyl enol ethers, just as with unactivated alkenes 13). l-Acyl-2-alkoxycyclopropanes were thus obtained by copper-catalyzed reactions between diazoacetone and enol ethers 79 105,135), enol acetates 79,135 and... 

With a less reactive olefin such as isopropenyl acetate, diazoketone 86 gives only a low yield of cyclopropane 90 a-acyl enol ether 92, resulting from an intramolecular rearrangement of the ketocarbenoid, becomes the favored reaction product. If 91... 

Titanium-mediated intramolecular Friedel-Crafts acylation and alkylation are important methods for construction of fused-ring systems (Scheme 29).107 As well as aromatics, olefin units also react in the same way.108 Alkylation of electron-rich olefins such as enol ethers or silyl enol ethers proceeds effectively in the presence of TiCl4.109... 

The copper complex of these bis(oxazoline) compounds can also be used for hetero Diels-Alder reactions of acyl phosphonates with enol ethers.43 5 A favorable acyl phosphonate-catalyst association is achieved via complexation between the vicinal C=0 and P=0 functional groups. The acyl phosphonates are activated, leading to facile cycloaddition with electron-rich alkenes such as enol ethers. The product cyclic enol phosphonates can be used as building blocks in the asymmetric synthesis of complicated molecules. Scheme 5-36 shows the results of such reactions. 

Acylation of enol ethers. Reaction of 1 with ethyl vinyl ether in ether provides an intermediate that undergoes dehydrochlorination when heated to provide the trichloromethyl ketone 2, which is converted by base (haloform reaction) to the ester 3 in high yield. 

As an extension of the above-mentioned method, a successful rearrangement starting from silyl enol ethers as an electron-rich iV-allyl moiety has been published. Allylamide 88 was synthesized in two steps starting from (-i-)-phen-ethylamine and acrolein via a condensation-acylation sequence. The auxiliary-... 

For this reason unstable cyclopropanes or only rearrangement products are obtained when donor-substituted alkenes react with acceptor-substituted carbene complexes [1409-1416]. In reactions of acyl- and vinylcarbene complexes with enol ethers the most common types of rearrangement observed are those shown in Figure 4.23. 

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