Sulfonium ylides synthesis

The structures of these ylide polymers were determined and confirmed by IR and NMR spectra. These were the first stable sulfonium ylide polymers reported in the literature. They are very important for such industrial uses as ion-exchange resins, polymer supports, peptide synthesis, polymeric reagent, and polyelectrolytes. Also in 1977, Hass and Moreau [60] found that when poly(4-vinylpyridine) was quaternized with bromomalonamide, two polymeric quaternary salts resulted. These polyelectrolyte products were subjected to thermal decyana-tion at 7200°C to give isocyanic acid or its isomer, cyanic acid. The addition of base to the solution of polyelectro-lyte in water gave a yellow polymeric ylide. 

It is well known that aziridination with allylic ylides is difficult, due to the low reactivity of imines - relative to carbonyl compounds - towards ylide attack, although imines do react with highly reactive sulfur ylides such as Me2S+-CH2-. Dai and coworkers found aziridination with allylic ylides to be possible when the activated imines 22 were treated with allylic sulfonium salts 23 under phase-transfer conditions (Scheme 2.8) [15]. Although the stereoselectivities of the reaction were low, this was the first example of efficient preparation of vinylaziridines by an ylide route. Similar results were obtained with use of arsonium or telluronium salts [16]. The stereoselectivity of aziridination was improved by use of imines activated by a phosphinoyl group [17]. The same group also reported a catalytic sulfonium ylide-mediated aziridination to produce (2-phenylvinyl)aziridines, by treatment of arylsulfonylimines with cinnamyl bromide in the presence of solid K2C03 and catalytic dimethyl sulfide in MeCN [18]. Recently, the synthesis of 3-alkyl-2-vinyl-aziridines by extension of Dai s work was reported [19]. 

A novel synthesis of isothiazolidines involves sulfonium ylides, formed by the reaction of thietanes and nitrenes <06TL1109>. Exposure of A-(/ -tolylsulfonyl)imino)phenyliodinane 232 with excess of thietanes 231 (5 equiv) in the presence of a catalytic amount of Cu(II)... 

The availability of cyclopentenones from butanolides allows the lactone annulation to facilitate the synthesis of cyclopentyl natural and unnatural products. An example that highlights the latter is dodecahedrane (178) for which 179 constitutes a critical synthetic intermediate 136,137). Lateral fusion of cyclopentenones as present in 179 can arise by acid induced reorganization and dehydration of 180. While a variety of routes can be envisioned to convert a ketone such as 182 into 180, none worked satisfactorily137 On the other hand, the cyclobutanone spiro-annulation approach via 181 proceeds in 64 % overall yield. Thus, the total carbon cource of dodecahedrane derives from two building blocks — cyclopentadiene and the cyclopropyl sulfonium ylide. 

Finally, it should be noted that in contrast to optically labile sulfonium ylides, the oxosulfonium yUdes derived from chiral sulfoximides and related compounds are configurationally stable. Johnson and co-workers (184) have obtained a large number of chiral oxosulfonium ylides having the general structures 161 and 162 and have used them as nucleophilic alkylidene transfer agents for asymmetric synthesis. These results are discussed in the last part of this chapter. 

Miscellaneous Iminium Catalyzed Transformations The enantioselective construction of three-membered hetero- or carbocyclic ring systems is an important objective for practitioners of chemical synthesis in academic and industrial settings. To date, important advances have been made in the iminium activation realm, which enable asymmetric entry to a-formyl cyclopropanes and epoxides. In terms of cyclopropane synthesis, a new class of iminium catalyst has been introduced, providing the enantioselective stepwise [2 + 1] union of sulfonium ylides and ot,p-unsaturated aldehydes.As shown in Scheme 11.6a, the zwitterionic hydro-indoline-derived catalyst (19) enables both iminium geometry control and directed electrostatic activation of sulfonium ylides in proximity to the incipient iminium reaction partner. This combination of geometric and stereoelectronic effects has been proposed as being essential for enantio- and diastereocontrol in forming two of the three cyclopropyl bonds. 

Shift of sulfonium ylide has been applied in organic synthesis as a useful methodology for carbene insertion into a G-S bond. This reaction has been particularly applied in the synthesis of cyclic thioethers, as shown in Equation (19)." " ... 

Ammonium ylides undergo [l,2]-shift in a manner similar to oxonium and sulfonium ylides. A preferentially migrating group is usually a benzyl group. A sequence of intramolecular formation of ammonium ylide and subsequent rearrangement was extensively explored by West and co-workers in the synthesis of cyclic amines. ... 

Ring synthesis from non-heterocycles by closure y to the heteroatom are reported. Sulfonium ylides (135) with active methylene compounds such as malononitrile give a C-phenacyl product (136) however, when reacted with /3-diketones and /3-ketonic esters they produce furans quantitatively (74CL101). In these cases O-phenacylation takes place followed by cyclization to give the 3-hydroxydihydrofuran (137), which is dehydrated to the furan (138) (Scheme 30). These furans differ from those formed by the reaction of the diketone or ketonic esters with phenacyl halides. The latter reaction takes place by C-phenacylation, yielding the isomeric furans (139). 

Sulfonium ylides in synthesis of optically active epoxides 93PS(74)215. Syntheses and reactions of chiral acetylenic oxiranes 92BSB415. Syntheses of nonracemic glycidol and related 2,3-epoxy alcohols 91 CRV437. 

At about the same time, a synthesis of leukotriene-A, also termed SRS-A ( slow reacting substance of anaphylaxis ), which made use of the Wittig olefmation was described77). The ylide of 100 is reacted with ethyl 5-formyl-2,4-pentadienoate 101 to give the ( , , Z, Z)- tetraenoic ester 102. Reduction and mesylation of 102, subsequent conversion into the sulfonium salt, and treatment of the latter with a base yields a sulfonium ylide which is reacted with methyl 4-formylbutanoate 69 to the epoxy-tetraenoic ester 103. After separation of the cis-epoxide by HPLC, 103 was treated with the S-trimethylsilyl derivative of glutathione dimethyl ester N-trifluoroacet-amide. The diastereomeric products thus obtained were separated by means of HPLC and hydrolyzed to 104 77) (Scheme 18). 

C—N—C—O + C. An oxazole synthesis, in which C(5) is introduced in the form of an anion, is the reaction of aroyl isocyanates with stabilized sulfonium ylides. The initial adducts eliminate dimethyl sulfide on heating to give hydroxyoxazole ketones or esters (equation 116). 

An efficient synthesis of isothiazolidines 551, via sulfonium ylides formed by the reaction of thietanes 549 and the nitrene generated from 550, has been reported (Equation 9) <2006TL1109>. 

An efficient stereoselective synthesis of 3-monosubstituted or 3,5-disubstituted isothiazolidines of type 551 via sulfonium ylides has been reported. The substitution on the isothiazolidines depends on the availability of the thietane starting material (see Section 4.05.10.1). 

C. Reaction with Sulfonium Ylides. Corey Synthesis... 

Sulfonium ylides permit the incorporation not only of the methylene group, but of other alkyl groups. The synthesis of oxaspiropentanes has been achieved as shown in Eq. 91. 

The formation of desaurins from ketones, carbon disulfide, and base 1275,1281,1282,1285-1290 believed to involve nucleophilic attack on a thioketene by the dianion of a 1,1-dimercaptoalkene, as shown for the synthesis of 572. Related syntheses involve the use of thiophosgene instead of carbon disulfide and the use of diazoalkanes or phosphonium and sulfonium ylides instead of a ketone and base. Treatment of perfluoroiso-butylene with fluoride ion and elemental sulfur in a dipolar, aprotic solvent ° °° or with sources of anionic sulfur (potassium sulfide, sodium hydrosulfide,potassium thiocyanate,sodium thiosulfate, dithiocarbamate salts, dithiophosphate salts ) give the dimer (573) of bis(trifIuoromethyl)-thioketene. Similarly, other 2,4-bis(methylene)-l,4-dithietanes are obtained by treating 2,2-dichlorovinyl ketones with anionic sulfur re-... 

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