Dienols regioselectivity

Another preparative method for the enone 554 is the reaction of the enol acetate 553 with allyl methyl carbonate using a bimetallic catalyst of Pd and Tin methoxide[354,358]. The enone formation is competitive with the allylation reaction (see Section 2.4.1). MeCN as a solvent and a low Pd to ligand ratio favor enone formation. Two regioisomeric steroidal dienones, 558 and 559, are prepared regioselectively from the respective dienol acetates 556 and 557 formed from the steroidal a, /3-unsaturated ketone 555. Enone formation from both silyl enol ethers and enol acetates proceeds via 7r-allylpalladium enolates as common intermediates. 

The very good yields of especially the bridgehead alkoxy derivatives 231 and the excellent regioselectivity with which they can be transformed to other skeletons plus the fact that a spirocyclopropane moiety is a mimic of and can in fact be considered as a masked gem-dimethyl substituent [28, 112] makes these products versatile precursors of certain natural products. In fact, one may conceive new approaches to the total syntheses of taxol [113-115] and of mediter-raneol [116]. Both strategies rely on the MIMIRC reaction of lithium cycloalka-dienolates [117] with the a-chloro acrylate 1-Me to produce a tricyclic precursor to the appropriate bicyclo [n.2.1]alkanedione derivative, which are key structural units of several diterpenes and their metabolites. 

The regioselectivity of alkylations of silyl dienol ethers has been studied87,88. These reactions favor y-alkylation products. In contrast, alkylations of the corresponding lithium enolates mainly occur in the a-position. Substituents on the silyl diene unit, as well as the substituents at the silicon, strongly influence the regioselectivity of the reaction87 91,... 

TABLE 2. Regioselective preparation of trimethylsilyl dienol ethers... 

The first example was described in the mid-1980s independently by Jeffery, Hallberg, and others in their work on Heck coupling. The former demonstrated the beneficial role of silver salts in the formation of dienols from allylic alcohols and vinyl iodides, as well as the role of counterion or phase transfer conditions (Scheme 10.28).50 The latter found that silver salts accelerated the reaction between aryl iodide and allyl or vinyl silanes, reinforcing regioselectivity and avoiding desilylation (Scheme 10.29).51... 

The use of a relatively soluble base such as CS2CO3 allows good product yield. No products are formed via carbopalladation. Therefore the reaction is considered to occur on a dienolate anion generated from the enal to give an aryl(7r-allyl)palladium intermediate. The regioselectivity seems to be determined in the reductive elimination of the product. Treatment of aliphatic aldehydes with aryl bromides brings about aldol condensation followed by y-aryla-tion to afford 2 1 coupling products (Eq. 27). Note that y-arylation products are also produced in the arylation of a tin-masked dienolate [65,66]. 

Regioselective Peterson reaction. Aldehydes react with the anion of an (a-al-koxy)allyltrimethylsilane (1) at both a- and y-positions. Addition of HMPT favors reaction at the y-position, whereas addition of Ti(0-/-Pr)4 (1 equiv.) results in exclusive reaction at the a-position to give an (E)-l, 3-dienol ether (2). These products are readily hydrolyzed to vinyl ketones (3).4... 

The a-alkylation of carbonyl compounds by their conversion into nucleophilic enoiates or enolate equivalents and subsequent reaction with electrophilic alkylating agents provides one of the main avenues for regio- and stereo-selective formation of carbon-carbon a-bonds. " Classical approaches to a-alkylation typically involve the deprotonation of compounds containing doubly activated methylene or methine groups and having p/iTa values of 13 or below by sodium or potassium alkoxides in protic solvents. Since these conditions lead to monoenolates derived from deprotonation only at the a-site of the substrate, the question of the regioselectivity of C-alkylation does not arise (however, there is competition between C- and 0-alkylation in certain cases). In more recent years, dienolates of p-dicarbonyl compounds have been utilized in -alkylations with excellent success. 

Reaction with trimethylsiiyl ethers. Regioselective Mannich reactions are possible by reaction of dimethyl(methylene)ammonium iodide with trimethylsiiyl enolates and dienolates.2... 

Aromatic and heteroaromatic aldimines were effectively converted into vinylogous Mannich products 31 with complete y regioselectivity and with typically 80 90% ee. The reaction could easily be run in a three component fashion, starting directly from an aldehyde, para anisidine, and silyl dienolate 30 obviating the need to prepare the imine in a separate reaction. In contrast to most other protocols that required a salicyl imine moiety in the substrate for selectivity issues, here the amine component within the imine could just be a phenyl group or any para substituted phenyl group. 

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