Silyl enol ethers, conjugate addition

The scope of the conjugate addition reaction can be further expanded by use of Lewis acids in conjunction with enolate equivalents, especially silyl enol ethers and silyl ketene acetals. The adduct is stabilized by a new bond to the Lewis acid and products are formed from the adduct. 

Conditions for effecting conjugate addition of neutral enolate equivalents such as silyl enol ethers in the presence of Lewis acids have been developed and are called Mukaiyama-Michael reactions. Trimethylsilyl enol ethers can be caused to react with electrophilic alkenes by use of TiCl4. These reactions proceed rapidly even at -78° C.308... 

A number of other chiral catalysts can promote enantioselective conjugate additions of silyl enol ethers, silyl ketene acetals, and related compounds. For example, an oxazaborolidinone derived from allothreonine achieves high enantioselectivity in additions of silyl thioketene acetals.323 The optimal conditions for this reaction also include a hindered phenol and an ether additive. 

This reaction is extended to the intramolecular ring closure of the intermediate radical 224 with olefinic or trimethylsilylacetylenic side chains [121]. Cu(BF4)2 is also effective as an oxidant (Scheme 89) [122]. Conjugate addition of Grignard reagents to 2-eyclopenten-l-one followed by cyclopropanation of the resulting silyl enol ethers gives the substituted cyclopropyl silyl ethers, which are oxidized to 4-substituted-2-cyclohexen-l-ones according to the above-mentioned method [123]. (Scheme 88 and 89)... 

Conjugate reduction.1 This stable copper(I) hydride cluster can effect conjugate hydride addition to a,p-unsaturated carbonyl compounds, with apparent utilization of all six hydride equivalents per cluster. No 1,2-reduction of carbonyl groups or reduction of isolated double bonds is observed. Undesirable side reactions such as aldol condensation can be suppressed by addition of water. Reactions in the presence of chlorotrimethylsilane result in silyl enol ethers. The reduction is stereoselective, resulting in hydride delivery to the less-hindered face of the substrate. 

Use of TMSCl in combination with HMPA, DMAP, or TMEDA all favored 1,2-addition over 1,4-addition. Sequential a-alkoxyalkylcuprate conjugate addition, enolate trapping with TMSCl, and silyl enol ether alkylation provides a one-pot synthesis of tetrahydrofurans (Scheme 3.35) [129]. Cyclic enones afford as-fused tetrahydrofurans, while acyclic systems give complex mixtures of diastereomers. a-Alkoxyalkylcopper reagents also participate in allylic substitution reactions with ammonium salts [127]. 

MeOC6H4, respectively. The titanium enolates were converted into silyl enol ethers 54 by treatment with chlorotrimethylsilane and lithium isopropoxide. Additionally, cyclic enones lb and Ic, and linear enones Id and le, are also good substrates for the asymmetric conjugate addition of phenyltitanium triisopropoxide, giving the corresponding arylation products with over 97% enantioselectivity. 

Other Lewis acids can also effect conjugate addition of silyl enol ethers to electrophilic alkenes. For example, Mg(C104)2 catalyzes addition of ketene silyl acetals ... 

The conjugate addition of bis(iodozincio)methane to -unsaturated carbonyl compound gives y-zincio substituted enolate. As shown in equation 31, bis(iodozincio)methane reacts with. v-cis a,/3-unsaturated ketone in the presence of chlorotrimethylsilane to afford the silyl enol ether carrying a C—Zn bond. These zinc-substituted silyl enolates can be used for further coupling reactions (equation 32)54. 

Corriu and coworkers have reported an alternative procedure for the conjugate addition of ketones to a.P-unsaturated acceptors which employs CsF-(RO)4Si (Scheme 56) 126 this procedure affords adducts with a,3-enones, oc.fj-unsaturated esters and a,3-unsaturated amides. Mechanistically, silyl enol ether formation occurs initially, followed by fluoride ion catalyzed enolate formation. 

The combinations of chlorotrimethylsilane-hexamethylphosphoramide (HMPA) or chlorotrimethylsi-lane-4-(dimethylamino)pyridine (DMAP) are also powerful accelerants for copper(I)-catalyzed Grignard conjugate additions,33 and stoichiometric organocopper and homocuprate additions (Scheme 21 ).36 However, these reactions must be performed in tetrahydrofuran instead of ether.37 These procedures are noted for their high yields with stoichiometric quantities of Grignard reagents, excellent chemoselectivity and efficiency with a,3-unsaturated amides and esters and enals.58 Typically, additions to enals proceed via the S-trans conformers to afford stereo-defined silyl enol ethers for example, enals (122) and (124) give the ( )-silyl enol ether (123) and (Z)-silyl enol ether (125), respectively. 

Use of the preformed Z-silyl enol ether 18 results in quite substantial anti/syn selectivity (19 20 up to 20 1), with enantiomeric purity of the anti adducts reaching 99%. The chiral PT-catalyst 12 (Schemes 4.6 and 4.7) proved just as efficient in the conjugate addition of the N-benzhydrylidene glycine tert-butyl ester (22, Scheme 4.8) to acrylonitrile, affording the Michael adduct 23 in 85% yield and 91% ee [10]. This primary product was converted in three steps to L-ornithine [10]. The O-allylated cinchonidine derivative 21 was used in the conjugate addition of 22 to methyl acrylate, ethyl vinyl ketone, and cydohexenone (Scheme 4.8) [12]. The Michael-adducts 24-26 were obtained with high enantiomeric excess and, for cydohexenone as acceptor, with a remarkable (25 1) ratio of diastereomers (26, Scheme 4.8). In the last examples solid (base)-liquid (reactants) phase-transfer was applied. 

Elimination of the Pd enolate 253, formed by the transmetallation of 252, is a good synthetic method of the enones 254 [152], The silyl enol ether 255, prepared by trapping the conjugate addition product of cyclohexenone, is dehydrogenated with... 

However, the presence of an alkene exo to the chain 40 stops the reaction, presumably because the 120° angle holds the ends too far apart. The solution is conjugate addition of an amine 41 the acyloin then works well 42 and the synthesis of the flavouring compound corylone 43 is completed simply by a silica column.7 Hydrolysis of the silyl enol ethers leads to elimination of Me2NH under the slightly acidic conditions. 

Annelation-ring cleavage.1 A bifunctional reagent with an acetal and an allylsi-lane group can be used for annulation of silyl enol ethers to six- and seven-membered carbocycles (equation I).2 The reaction involves conjugate addition to give an adduct that undergoes intramolecular cyclization. 

Conjugate addition to an a,(3-unsaturated ketone followed by silylation may be used to generate a regiochemically-pure silyl enol ether (Equation Si3.2). 

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