A-Silyl vinyl sulfides

Under strictly anhydrous conditions which minimize competing protiodesilylation, (Z)-a-silyl vinyl sulfides with an co-carbonyl moiety attached to the S atom undergo a fluoride-promoted intramolecular cyclization which yields 2-alkenyltetrahydropyran-3-ols. The substrates are derived from (Z)-a-silyl enethiols by alkylation with co-halocarbo-nyl compounds (Scheme 157) <2000EJ02391>. 

C. Synthesis of Open-Chain a-Silyl Vinyl Sulfides... 

The presence of a substituent in the p-position of the a-silyl vinyl sulfides introduces the problem of geometry in the resulting olefins. As yet, relatively few synthetic methods for -substituted a-silyl vinyl sulfides are known and some of them afford the olefins as a mixture of E- and Z-isomers. For example, the Peterson olefination of bis(trimethylsilyl)alkylthiomethyllithium 47 with aldehydes55 and the treatment of the sulfoxides 48 with LDA and trimethylchlorosilane56 gave... 

A large variety of Z-a-silyl vinyl sulfides 55 were prepared starting from Z-a-silyl enethiols 4a-d with two different procedures46,47 (Scheme 36). According to path a (Scheme 36), products 55 were stereoselectively obtained by reacting 4 with halides in acetone in the presence of dry K2C03 at room temperature. The... 

Z-a-Silyl vinyl sulfides are intriguing species since the silyl and the thioether functions exert an opposing polarization on the olefinic bond (Scheme 38). 

This study was complemented by a selective synthesis of the tautomeric enethiols [77]. Aliphatic thioketones were deprotonated by LDA, silylated, and the resulting silyl vinyl sulfides were smoothly converted to enethiols by simple addition of methanol. These are stable compounds which do not equilibrate with thioketones, this behaviour probably related to the extremely mild conditions of the (easy) cleavage of the silicon-sulfur bond. 

Perhaps the most useful type of alkene substrates for these reactions are enol ethers, enol esters and vinyl sulfides. Silyl enol ethers have excellent electron-donor properties, with an ionization potential of about 8 eV and an oxidation potential in various solvents of approximately 1.0-1.5 V vs SCE161. These compounds are easily synthesized by reaction of an enolate with a chlorosilane. (A very recent report synthesized a variety of silyl enol ethers with extremely high stereochemical yield, using the electrogenerated amidate of 2-pyrolidinone as the base.)162 An interesting point is that the use of oxidative or reductive cyclization reactions allows carbonyl functionalities to be ambivalent, either oxidizable or reducible (Scheme 65)163. 

Carbolithiation reactions of ketone a,-dianions, generated by the above amine-free method with several alkenes, such as styrenyl derivatives, vinyl sulfides and vinylsilanes, can lead to the generation of ketone a,5-dianions (Scheme 15)14. For example, when one equivalents of triphenylvinylsilane was treated with a ketone a,-dianion, in THF, at 0 C for 1 h and the resulting reaction mixture was quenched by 2.2 mol equivalents of trimethylchlorosilane, the corresponding bis-silylated enol silyl ether was obtained. Substituted styrenyl derivatives, such as 1,1-diphenylethylene and cinnamyl alcohol, also underwent a smooth carbolithiation to give the corresponding ketone a,5-dianions. Similar addition reactions of ketone a,f)-dianions to vinyl phenyl sulfide took place smoothly to give a,5-dianions with a sulfur attached in the 5-position. 

In addition to enol silyl ethers, an optically active boryl enolate underwent the highly anri-stereoselective aldol reaction with a wide variety of aldehydes in the presence of TiCU (Eq. 34) [120]. The vinyl sulfides shown in Eq. (35) reacted with a,fi-unsaturated ketones via the 1,4-addition pathway in the presence of a titanium salt, but the reaction was followed by the cleavage of a carbon-carbon bond in the cycloalkane to give open chain products in a stereoselective manner [121]. The 1,2-type addition was observed, if the olefinie acetal was used instead of the corresponding carbonyl compound, as shown in Eq. (36) [121], The successive scission of the carbon-carbon bond took place analogously to give the same type of products as shown in Eq. (35). 

In the presence of 10 mol % Sc(OTf)3, A-benzylideneaniline reacts with 2-trans-l-methoxy-3-trimethylsiloxy-l, 3-butadiene (Danishefsky s diene) [23] to afford the corresponding aza Diels-Alder adduct, a tetrahydropyridine derivative, quantitatively (Eq. 7) [24]. In the reaction of A -benzylideneaniline with cyclopentadiene under the same conditions, on the other hand, the reaction course ehanged and a tetrahydroqui-noline derivative was obtained (Eq. 8). In this reaction, the imine aeted as an azadiene toward one of the double bonds of cyclopentadiene as a dienophile [25]. In the reaction with 2,3-dimethylbutadiene a mixture of tetrahydropyridine and tetrahydroqui-noline derivatives was obtained. A vinyl sulfide, a vinyl ether, and a silyl enol ether worked well as dienophiles to afford the tetrahydroquinoline derivatives in high yields [26,27]. 

Narasaka found that optically enriched oxabicydic substrate 277 bearing a vinyl sulfide moiety reacts with a silyl enol ether or ketene silyl acetal in the presence of a Lewis acid to afford the protected cyclohexenols 278a and 278b, Eq. 175 [18]. The reaction was proposed to occur via a ring-opening and alkylation sequence which is equivalent to overall nucleophilic substitution with retention of configuration. Presumably, the nucleophile attacked the carbocationic intermediate from the exo face, because the methylene-OTIPS substituent was blocking the endo side. 

Highly stereoselective intramolecular reactions of a silyl enol ether (BFa-OEt ) and a vinyl sulfide (HgCl , CSA) with N-acyliminium ions have recently been accomplished. 

Other examples and effects of Ln(OTf)3 are shown in Tables 20 and 21, respectively [61]. A vinyl sulfide, a vinyl ether, and a silyl enol ether worked well as dienophiles to afford tetrahydroquinoline derivatives in high yields [62,63]. As for the Ln(OTf)3, heavy lanthanides such as Er, Tm, and Yb gave better results. 

Stereoselectivity of radical addition is not limited to sulfonyl radicals. The (rani-addition has also been observed for tin, bromine, chlorine, and silyl radicals. Varying degrees of selectivity has been observed for addition of carbon-centered radicals, depending on the substituents size and effect on the inversion barrier. Because the importance of negative hyperconjugation decreases for radicals in comparison to the anions, the barriers for inversion decrease in parallel. As a result, the selectivity can erode under conditions when trapping of the radical is slower than the equilibration, e.g. in the thiol-yne click reaction, which often provide a mixture of E and Z-vinyl sulfides. ... 

Normally, the A-arylimine is obtained by reaction of aldehyde and aniline in acidic condition. Either tetrahydroquinoline or its corresponding substituted quinoline can be generated in the Povarov reaction, depending on the reaction conditions. For instance, DDQ-promoted dehydrogenation, vacuum distillation under acidic condition, oxidation by air or Mn(OAc)3, and Pd/C-catalyzed aromatization of tetrahydroquinoline, provides the corresponding substituted quinolines in good to excellent yield. Since some tetrahydroquinolines are unstable under the reaction conditions, the corresponding substituted quinolines could be isolated as the sole products. Electron-rich olefin, such as vinyl enol ethers, vinyl sulfides, and silyl enol ethers, are widely used as dienophiles in the cycloaddition of A-aryl aldimines to obtain substituted tetrahydroquinolines. To access natural... 

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