Enol ethers, silyl from ketones

In a related contribution O Brien described the AA on styrenes and converted the amino alcohols into enantiopure diamines by using a reaction strategy similar to Janda s [83], Further synthetic applications of the AA include a new access to Evans chiral oxazolidinones [84], the enantioselective synthesis of a-amino ketones from silyl enol ethers [85], the stereoselective synthesis of cyclohexyl norstatine [86], and a route towards amino cyclitols by aminohydroxy-lation of dienylsilanes [87]. 

Butane-1,4-diones and y,8-unsaturated ketones from silyl enol ethers upon reaction with IOB/ HBF4 and a carbon nucleophile... 

Z-Boron enolates can also be obtained from silyl enol ethers by reaction with the bromoborane derived from 9-BBN (9-borabicyclo[3.3.1]nonane). This method is necessary for ketones such as 2,2-dimethyl-3-pentanone, which give E-boron enolates by other methods. The Z-stereoisomer is formed from either the Z- or E-silyl enol ether.20... 

Ketone Enolates Derived from Silyl Enol Ethers as Nucleophiles... 

Scheme 9.15 Alkylations with ketone enolates derived from silyl enol ethers as nucleophiles.

The use of /i-ketocstcrs and malonic ester enolates has largely been supplanted by the development of the newer procedures based on selective enolate formation that permit direct alkylation of ketone and ester enolates and avoid the hydrolysis and decarboxylation of ketoesters intermediates. Most enolate alkylations are carried out by deprotonating the ketone under conditions that are appropriate for kinetic or thermodynamic control. Enolates can also be prepared from silyl enol ethers and by reduction of enones (see Section 1.3). Alkylation also can be carried out using silyl enol ethers by reaction with fluoride ion.31 Tetraalkylammonium fluoride salts in anhydrous solvents are normally the... 

Michael adducts can also be obtained with this catalyst from the reaction of a,fi-unsuturaied ketones with silyl enol ethers. 

Bicyclic ketones, also, have been prepared intramolecularly from silyl enol ethers. Six-membered rings are formed more easily in these reactions than in the reactions forming monocyclic products, described earlier.38... 

Carbonyl Addition Diethylzinc has been added to benzaldehyde at room temperature in the presence of an ephedra-derived chiral quat (8) to give optically active secondary alcohols, a case in which the chiral catalyst affords a much higher enantioselectivity in the solid state than in solution (47 to 48, Scheme 10.6) [30]. Asymmetric trifluoromethylation of aldehydes and ketones (49 to 50, Scheme 10.6 [31]) is accomplished with trifluoromethyl-trimethylsilane, catalyzed by a quaternary ammonium fluoride (3d). Catalyst 3d was first used by the Shioiri group for catalytic asymmetric aldol reactions from silyl enol ethers 51 or 54 (Scheme 10.6) [32]. Various other 1,2-carbonyl additions [33] and aldol reactions [34] have been reported. 

C-Carboxylation of enolates.1 Carboxylation of potassium enolates generated from silyl enol ethers is not regioselective because of extensive enolate equilibration. Regiospecific C-carboxylation of lithium enolates is possible with carbonyl sulfide in place of carbon dioxide. The product is isolated as the thiol methyl ester. If simple esters are desired, transesterification can be effected with Hg(OAc)2 (8, 444). Carboxylation of ketones in this way in the presence of NaH and DMSO is not satisfactory because of competing alkylation of the enolate.2 Example ... 

A catalytic route using a manganese (III) complex has been developed for a-hydroxylation of ketones avoiding the use of water or a protic solvent mixtures of a-hydroxyketones and their silyl derivatives were formed in excellent yield. By using a chiral pyrrolidine-based manganese (III) complex as catalyst, asymmetric oxidation was effected, with enantiomeric excess varying from 14 to 62% [30], Another kind of a-functionalized ketones resulted from silyl enol ethers which after the addition of IOB.BF3 were treated with triethyl phosphite a-ketophosphonates were obtained in this way [31] ... 

Another analogue of HTI which was used with either ketones or silyl enol ethers was [hydroxy(mesyloxy)iodo]benzene, PhI(OH)OS02Me [25]. A related reagent formed in situ from iodosylbenzene and trimethylsilyl triflate, probably PhI(OSiMe3)OTf, reacted similarly with silyl enol ethers to afford a-ketotriflates (see Table 5.3). /1-Diketones and /1-ketoesters underwent tosyloxylation by HTI the reaction was very effective in substrates with a perfluoroalkyl moiety and gave their hydrates [26] ... 

The use of silyl enol ethers can be illustrated in a synthesis of manicone, a conjugated enone that ants use to leave a trail to a food source. It can be made by an aldol reaction between the pentan-3-one (as the enol component) and 2-methylbutanal (as the electrophile). Both partners are enolizable so we shall need to form a specific enol equivalent from the ketone. The silyl enol ether works well. 

Trimethylsiloxycyclopropanes, readily available from silyl enol ethers and carbene or carbenoid species, constitute, now, very useful synthetic intermediates . Thus, they undergo acid-, base-inducedor thermal ring-opening into a-methylated aldehydes and ketones in very good yields. The reaction is highly regiospecific in the case of an unsymmetrical ketone, monomethylation can be oriented either to the a- or a -position (equation 58) °°. This sequence has been applied to ethylenic ketones and in the steroid field . ... 

Alkylation or acylation of ketones, sulfides, and amines. This reagent generally reacts with alcohols or carboxylic acids to form 2,2,2-trifluoroethyl ethers or esters in satisfactory yields, except in the case of alcohols prone to dehydration. The reaction of these ethers provides a simple synthesis of unsymmetrical sulfides (equation I). A similar reaction can be used for preparation of secondary amines or amides (equation II). Enolate anions (generated from silyl enol ethers with KF) can be alkylated or acylated with a or b (equation III). Use of Grignard reagents in this type of coupling results in mediocre yields. 

Boron-mediated aldol reactions of -oxygenated methyl ketones are normally unselective, and chiral ligands are needed to achieve useful levels of control. However, as shown in Scheme 9-6, a Mukaiyama aldol reaction can be used where induction from silyl enol ether 13 is high, favouring adduct 14 [7, 8]. 

Gallium enolate and ethynylgallium, generated, respectively, from silyl enol ether and silylethyne by treatment with gallium trichloride, undergo carbogalla-tion, giving a-ethenylated ketones after work-up with aqueous acid (Scheme 7.28)... 

Naked enolates without any complexation can be made from silyl enol ethers using fluoride ion, a very selective nucleophile for silicon 49, and a non-metallic cation, usually a tetra-alkylammonium ion. The commonest reagent is TBAF (TetraButylAmmonium Fluoride Bu4N+ F ). In this way the naked enolate 50 was made. It proved to be acylated with acetic anhydride exclusively at oxygen to give the enol acetate 53 and alkylated with Mel at carbon to give the ketone 51 in 84% isolated yield.18... 

Dihydropyran-2-ones are formed in high yield from silyl enol ethers and a,p-unsaturated ketones through sequential Michael reaction and intramolecular O-acylation <97SL551>. 

Enantiomerically pure boron-based Lewis acids have also been used successfully in catalytic aldol reactions. Corey s catalyst (7.10a) provides good enantioselectivity with ketone-derived silyl enol ethers, including compound (7.11). Other oxazaborolidine complexes (7.13) derived from a,a-disubstituted a-amino acids give particularly high enantioselectivity, especially with the disubstituted ketene... 

Dicarbonyl compounds are formed from the reaction of silyl enol ethers with methyl vinyl ketones in the presence of BF3 OEt2 and an alcohol (eq 9). a-Methoxy ketones are formed from a-diazo ketones with BF3-OEt2 and methanol, or directly from silyl enol ethers using iodobenzene/BF3-OEt2 in methanol. ... 

Oxidative Coupling. Both intermolecular and intramolecular oxidative coupling reactions can be effected using Cu(OTf)2. Examples of dimerization include one-pot syntheses of 1,4-diketones from ketone enolates or from silyl enol ethers (eqs 1 and 2), and coupling of allylstannanes with TMS-enol ethers... 

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