Sulfoxide-elimination reaction

This sulfoxide elimination reaction was also used for conversion of jasmolactone... 

O-isopropylidene derivative (57) must exist in pyridine solution in a conformation which favors anhydro-ring formation rather than elimination. Considerable degradation occurred when the 5-iodo derivative (63) was treated with silver fluoride in pyridine (36). The products, which were isolated in small yield, were identified as thymine and l-[2-(5-methylfuryl)]-thymine (65). This same compound (65) was formed in high yield when the 5 -mesylate 64 was treated with potassium tert-hx Xy -ate in dimethyl sulfoxide (16). The formation of 65 from 63 or 64 clearly involves the rearrangement of an intermediate 2, 4 -diene. In a different approach to the problem of introducing terminal unsaturation into pento-furanoid nucleosides, Robins and co-workers (32,37) have employed mild base catalyzed E2 elimination reactions. Thus, treatment of the 5 -tosylate (59) with potassium tert-butylate in tert-butyl alcohol afforded a high yield of the 4 -ene (60) (37). This reaction may proceed via the 2,5 ... 

Early investigations have indicated that sulfinyl radicals apparently do not add, at least in the usual way, to olefmic double bonds24. However, some recent results by lino and Matsuda25 obtained by studying the thermal decomposition of benzhydryl p-tolyl and benzhydryl methyl sulfoxides in the presence of cis-/2-deuteriostyrene lead one to believe that sulfinyl radicals add reversibly to CH2 =CHPh. The molar ratio of trans to cis /3-deuteriostyrene that they observed at nearly 50% conversion was explained by addition-elimination reaction of sulfinyl radicals. 

Enantiomers (M)- and (P)-helicenebisquinones [32] 93 have been synthesized by high pressure Diels-Alder reaction of homochiral (+)-(2-p-tolylsulfo-nyl)-l,4-benzoquinone (94) in excess with dienes 95 and 96 prepared from the common precursor 97 (Scheme 5.9). The approach is based on the tandem [4 + 2] cycloaddition/pyrolitic sulfoxide elimination as a general one-pot strategy to enantiomerically enriched polycyclic dihydroquinones. Whereas the formation of (M)-helicene is explained by the endo approach of the arylethene toward the less encumbered face of the quinone, the formation of its enantiomeric (P)-form can be the result of an unfavourable interaction between the OMe group of approaching arylethene and the sulfinyl oxygen of 94. 

Sulfoxides also undergo thermal elimination reactions. The elimination tends to give (3, y-unsaturation from (3-hydroxysulfoxides and can be used to prepare allylic alcohols. 

Recently, Carreno, Urbano and coworkers were also able to synthesize almost enantiopure [7]helicene bisquinones 4-58 and 4-59 (96% ee) by reaction of the sulfoxide (S,S)-4-55 with the diene 4-56 in dichloromethane at -20 °C (Scheme 4.12) [19]. This six-step domino process includes a double Diels-Alder reaction, sulfoxide elimination, and aromatization of the rings B and F of the intermediate 4-57 to give 4-58, which could be oxidized to the fully aromatized 4-59. 

Such nucleophilic displacements are likely to be addition-elimination reactions, whether or not radical anions are also interposed as intermediates. The addition of methoxide ion to 2-nitrofuran in methanol or dimethyl sulfoxide affords a deep red salt of the anion 69 PMR shows the 5-proton has the greatest upfield shift, the 3- and 4-protons remaining vinylic in type.18 7 The similar additions in the thiophene series are less complete, presumably because oxygen is relatively electronegative and the furan aromaticity relatively low. Additional electronegative substituents increase the rate of addition and a second nitro group makes it necessary to use stopped flow techniques of rate measurement.141 In contrast, one acyl group (benzoyl or carboxy) does not stabilize an addition product and seldom promotes nucleophilic substitution by weaker nucleophiles such as ammonia. Whereas... 

An unusual one-pot intramolecular sulfoxide alkylation-elimination reaction was found by Gibson et al. <2001SL712>. These authors found that treatment of 459 with potassium bis-trimethylsilylamide resulted in a ring closure to 460 in acceptable yield. Furthermore, Batori and Messmer found an effective method for preparation of [l,2,3]triazolo[l,5- ]pyrimidinium salts <1994JHC1041> oxidative cyclization of hydrazones 461 by 2,4,4,6-tetrabromo-2,5-cyclohexadienone gave rise to the quaternary salts 462. Under certain reaction conditions, the formation of 6-bromo-salts 462 (R6 = Br) was also experienced. As neither the starting compound nor the quaternary triazolopyridinium salt underwent bromination in this position, the authors assumed that this bromination process occurred on one of the intermediates in the course of the above-mentioned cyclization reaction. 

Nozaki reported the reaction of trialkylboranes with styryl sulfoxides and sulfones. Alkyl radicals generated from trialkylboranes add at the -position of /3-styryl sulfoxides and sulfones (a- to the sulfur atom). The resulting radicals fragment and deliver the -styryl adducts [108]. Interestingly, the sulfoxides eliminate very rapidly leading to partially stereospecific substitution (Scheme 44). The radical nature of the process is demonstrated by the presence of a side product derived from the solvent (THF) by hydrogen atom abstraction. 

In a rather elegant approach towards colombiasin A (36) Flynn et al. [47] would access the tetracyclic carbon skeleton through an enantioselective intermolecular Diels-Alder sulfoxide elimination-intramolecular Diels-Alder (DA-E-IMDA) sequence between double-diene 166 and quinone 167 (Scheme 26). A key element of the proposed approach would be the chiral sulfoxy group in 167 which controls both the regio and facial selectivity of the intermolecular Diels-Alder reaction and eliminates generation of the dienophile for the IMDA reaction. 

Chloroallyl) thiocarbamate sulfoxides (. ., 5-2) un-.doubtedly rearrange in an analogous manner but in tbis case tbe sulfenate quickly undergoes an additional 1,2-elimination reaction (7 ). Tbe resulting products are tbe IJ, -dialkylcarbamoyl-sulfenyl chloride (M) and tbe carbonyl compound, aldehydes... 

This thermal rearrangement along with the 1,2-elimination reaction is analogous to a sequence previously reported for aryl 3-chloroallyl sulfoxides (15). 

Aldol reaction. The reagent (I) adds in a 1,4-fashion to an a,/J-unsaturated ketone lo give an aluminum enolate, which undergoes aldol condensation with an aldehyde. The adduct is converted into an a-substituted-a./l-unsaturated ketone on sulfoxide elimination.1... 

N-Acylated Cys derivatives 32 on treatment with silver(I) oxide or silver(I) carbonate/1061 mercury(II) oxide/1071 iron salts/1081 or DCC1 091 undergo a (3-elimination reaction to yield AAla derivatives 33. The various (3-leaving groups that have been reported include sulfoxide/1101 sulfone/1111 5,5-dimethylsulfonium [Me2+S]/1121 2,4-dinitrophenylsulfanyl11131 and 5-dimethylphosphinothionyl11141 (Scheme 12). 

Desulfurization or sulfoxide elimination of the adducts effects addition of the nitrogen nucleophile to an olefin or a substitution reaction with double-bond migration. 

Unsaturated 1,5-dicarbonyl compounds. The phenylthioalkylation of silyl enol ethers of carbonyl compounds (9, 521-522) can be extended to the synthesis of unsaturated 1,5-dicarbonyl compounds. In a typical reaction the enol silyl ether of a ketone is alkylated with the unsaturated chloride 1 under ZnBr2 catalysis to give a homoallyl sulfide. Ozonolysis of the methylene group is accompanied by oxidation of the phenylthio group sulfoxide elimination results in an unsaturated 1,5-aldehydo ketone (equation I). Alkylation with 2 results in a methyl ketone (equation II). 

Potassium /crt-butoxidc is a good base for bringing about elimination reactions of secondary alkyl halides suitable solvents include tert-butyl alcohol and dimethyl sulfoxide. 

Similarly, in vitro tests with CHO cells (with activation) caused an increased frequency of chromosome-damaged cells and SCEs and dose-related decreases in colony formations. In a large number of in vitro tests reviewed by Fishein (ref. 184a), diallate was the more active compound of the two. The ultimate mutagen postulated is 2-chlorocrolein formed via a series of sulfoxidation, rearrangement and 1, 2-elimination reactions ... 

Optically active vinyl sulfoxide was prepared by a combination of resolution and elimination reaction. Firstly, inclusion complexation of rac-2-chloroethyl m-tolyl- sulfoxide (118) and 14b in benzene gave, after two recrystallizations from benzene, a 1 1 complex of 14b and (+)-118 of 100% ee in 72% yield. Secondly, treatment of the complex with 10% NaOH gave optically pure (+)-m-tolyl vinyl sulfoxide (119) by HC1 elimination as colorless oil. Rapid polymerization of the (+)-119 proceeded by treatment with BuLi or BuMgBr at -78 °C to give optically active polymer (120). Oxidation of 120 with H2O2 gave optically active polysulfone (121).48... 

Claisen rearrangement of aUylic alcohols to ethyl dienoates. Claisen rearrangement of allylic alcohols with an orthoacetate is known to provide 2-carbon homologated y,8-unsaturated esters (6, 607-608). Reaction with the phenylsulfinylorthoacetate 1 is accompanied by an in situ sulfoxide elimination to provide 2-carbon homologated dienoate esters (equation I). This novel reagent was used to convert the... 

As a further stereoselective organic synthesis [40-47] using reactive sp2 carbon-centered radicals, eq. 10.23 shows the preparation of chiral 4-te/7-butylcyclohexene (49) from the optically pure o-bromophenyl sulfoxide (48) through 1,5-H shift by sp2 carbon-centered radical, followed by (3-elimination. This reaction looks like a thermal concerted intramolecular elimination reaction (Ei). 

The two metabolites identified in the rat, derived from the 3-lyase pathway, (2) and (3), have one and two sulfoxide groups respectively. These promote elimination reactions on hot surfaces in the GC/MS, as well as imparting higher polarity to the molecules. Reduction of the sulfoxide groups to sulfide with titanium trichloride (29) produces a single analyte... 

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