Enolates tandem vicinal difunctionalization

Usually, after an enolate ion is generated from an ocP-unsaturated ketone, it is converted to the P-alkylated product as shown above. But it is often possible to have the enolate react with some other electrophile (tandem vicinal difunctionalization), in some cases at the O and in other cases at the C. For example, if an alkyl halide R X is present (R = primary alkyl or allylic), and the solvent is 1,2-dime-thoxyethane, the enolate (66) can be alkylated directly. Thus, by this method, both the a and p positions of a ketone are alkylated in one synthetic operation (see also 15-23). 

The synthetic implications of this discovery were slow to be exploited. Base-initiated dimerizations of 2-cycloalkenones, known to give crystalline solids,3233 remained puzzling for some time before conjugate additions were suggested to account for some of the possible products 34 indeed, the product of base-catalyzed dimerization of 4,4-dimethyl-2-cyclopentenone, which proceeds via a double Michael addition sequence, was not identified until 1969 (Scheme 2).35 An unanticipated cyclopropanation reaction of acrylaldehyde36 37 using ethyl bromomalonate and proceeding by means of a similar Michael addi-tion-Sw enolate alkylation represents an early synthetic use of tandem vicinal difunctionalization. 

The two distinct bond-forming steps in tandem vicinal difunctionalization have been studied extensively. The first step consists of a nucleophilic addition to a ir-system the nucleophile is almost invariably an organometal. 1,4-Addition to an a, -unsaturated carbonyl substrate concomitantly generates a new cr-bond at the (3-carbon and an enolate ion. The second step constitutes C-functionalization of the enolate intermediate, forming a new o -bond between the nucleophilic a-carbon of the enolate and an electrophilic reagent. 

Enoate 3-substitution and 3-disubstitution cause a decrease in the rate of the initial conjugate addition step of the reaction sequence that is directly related to the steric bulk of the substituent.103,105 Equation (24) provides a representative case in the a-alkylation of enoates by means of conjugate amination-enol-ate alkylation followed by dehydroamination.106 When 3-substitution results in stereoisomeric ( )- and (Z)-alkenoate substrates, tandem difunctionalization typically proceeds with greater facility for ( )-isomers.64103 Obviously, when the double bond of the ester is part of a medium-sized ring, an ( )-alke-noate geometry is mandated in such cases, tandem vicinal difunctionalization proceeds with uniformly excellent results (equation 25).25... 

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