Sulfenic acid esters sulfoxides

Alkoxysulfonium salts Sulfenic acid esters Sulfoxides Sulfoxonium salts... 

The addition of an allyl alcohol to racemic allenyl sulfoxides results in vinyl ethers with the sulfinyl moiety at C-1 that undergo sigmatropic rearrangements upon distillation to produce 2,4-dienones after ehmination of sulfenic acid. In one example, an isomeric vinyl ether was obtained with a sulfinyl methyl substituent at C-2 that gave rise to a sulfinyl enone upon rearrangement [138]. In related work, the addition-elimination of an allyl alkoxide to a functionalized vinyl sulfoxide results in a sulfinyl enol ether that rearranges with loss of sulfenic acid to the unsaturated ester [139-141] (Scheme 21). 

A mercury-free route to allyl vinyl ethers that relies on the Michael addition of allyl alcohols to unsubstituted alkenyl sulfoxides, followed by thermal loss of sulfenic acid and concurrent Claisen rearrangement has been described [145]. This methodology has been applied to the synthesis of isocar-bacyclin [146]. Posner reported an acid-catalyzed protocol that produces conjugated dienoate esters from allylic alcohols and a sulfinyl orthoester [147]. Additionally, the use of propargyl alcoholates and a chloro alkenyl sulfox-... 

The 2-sulfonyloxaziridine (57) is a more selective oxidant than peracids. The reagent has been employed in the oxidation of sulfides to sulfoxides, disulfides to thiolsulfinates, selenides to selenoxides, thiols to sulfenic acids, organometallic reagents to alcohols and phenols, ketone and ester enolates to a-hydroxycarbonyl compounds (equation 31)41. The oxidation of chiral amide enolates gives optically active a-hydroxy carboxylic acids with 93-99% enantiomeric excess42. 

Pyrolysis of sulfoxides provides a convenient method for introducing unsaturation at the position a- to carbonyl compounds. Formation of the enolate and reaction with dimethyl (or diphenyl) disulfide gives the a-methylthio (or phenylthio) derivative. Oxidation with a suitable oxidant, such as mCPBA or NaI04, gives the sulfoxide, which eliminates sulfenic acid on heating to give the a,(3-unsaturated carbonyl compound. For example, the methyl ester of a pheromone of queen honey bees was synthesized from methyl 9-oxodecanoate after initial protection of the ketone as the acetal (2.24). The -isomer usually predominates in reactions... 

The suggestion has been made that the entire system is a reversible one up to the point of Hg mercaptide formation. The equilibrium would be very far on the left for the first reaction, being drawn over by the two succeeding ones. The first reaction is at least formally a hydrolysis followed by a dismutation of the extremely unstable and as yet totally unknown aliphatic sulfenic acid or sulfenate ion. It is perhaps of interest to note that from Table I it is possible to estimate that the dialkyl sulfoxide, which is isomeric with an alkyl sulfenyl ester, is unstable to the dismutation reaction by about 30 Kcal. 

Reaction of the sulfoxide ester (47) (via the sulfenic acid) with trimethylsilyl succinimide, however, gave rise to the sulfenamide (48) in... 

The trapping of the penicillin sulfenic acid with dihydropyran has been previously discussed (Cooper and Spry, 1972). Further examples of trapping with vinyl ethers have also been disclosed (Ager et al., 1972 1973). The sulfoxide (106) reacted with isobutyl vinyl ether resulting predominantly in unstable vinyl ether (139). On treatment with a catalytic amount of p-toluenesulfonic acid in benzene, 139 afforded the dihydrothiazine (140). The reaction of 139 with methanolic hydrogen chloride resulted in a smooth transformation to the acetal (141). When 1,1-diethoxyethy-lene was used, the corresponding vinyl ether was not observed. Instead, the preferred course of the reaction was an in situ hydrolysis to the ester (142). 

Types of compounds are arranged according to the following system hydrocarbons and basic heterocycles hydroxy compounds and their ethers mercapto compounds, sulfides, disulfides, sulfoxides and sulfones, sulfenic, sulfinic and sulfonic acids and their derivatives amines, hydroxylamines, hydrazines, hydrazo and azo compounds carbonyl compounds and their functional derivatives carboxylic acids and their functional derivatives and organometallics. In each chapter, halogen, nitroso, nitro, diazo and azido compounds follow the parent compounds as their substitution derivatives. More detail is indicated in the table of contents. In polyfunctional derivatives reduction of a particular function is mentioned in the place of the highest functionality. Reduction of acrylic acid, for example, is described in the chapter on acids rather than functionalized ethylene, and reduction of ethyl acetoacetate is discussed in the chapter on esters rather than in the chapter on ketones. 

Nucleophiles with two sites that could react with electrophiles are called ambident nucleophiles. The Hard and Soft Acids and Bases (HSAB) principle applies because a hard electrophile reacts at the harder nucleophilic site and a soft electrophile at the softer nucleophilic site. For instance, the sulfenate ion 70 is an ambident nucleophile, because it reacts (a) with methyl fluorosulfonate, a hard electrophile, at the oxygen atom, where most of the negative charge is concentrated, to give the sulfenate ester 71 and (b) with methyl iodide, a soft electrophile, to give the sulfoxide 72. Sulfur atom is the softer of the two nucleophilic sites available in the sulfenate ion and, furthermore, it is rendered more nucleophilic by the a-effect arising from the adjacent oxygen atom. 

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