Thiazolidine-2-thiones, 3-acyl-, chiral

Thiazolidine-2-thiones, 3-acyl-, chiral -, induction, asym. with - 43, 711... 

The stereoselective addition of the titanium enolate of A-acetyl-4-phenyl-l,3-thiazolidine-2-thione 153 to the cyclic A-acyl iminium ion 154 is utilized in the synthesis of (-)-stemoamide, a tricyclic alkaloid <06JOC3287>. The iminium ion addition product 155 undergoes magnesium bromide-catalyzed awtz-aldol reaction with cinnamaldehyde 156 to give adduct 157, which possesses the required stereochemistry of all chiral centers for the synthesis of (-)-stemoamide. 

This asymmetric alkylation of cyclic acylimines can provide optically active precursors to carbapenems.2 Thus reaction of the 4-acetoxy-2-azetidinone 5 with the chiral 3-acyl-(4S)-ethyl-l,3-thiazolidine-2-thione 6 provides the substituted aze-tidinone 7, an intermediate in a total synthesis of (- )-l-(3-methylcarbapenem. 

A chiral recognition was observed in aminolysis of 3-acyl-4(R)-methoxycarbonyl-l,3-thiazolidine-2-thione, a derivative of (R)-cysteine, by racemic amines to give an optically active amide [(S)-excess] and amine [(R)-excess]264). In the reaction of cyclic meso-1,3-diols with chiral N-protected phenylalanyl chlorides, Yamada et al.26S) observed the preferential formation of one of the two possible diastereomeric monoesters, which has been used for the synthesis of optically active steroids 266) and prostaglandins 267). 

Chiral induction. Earlier investigations have shown that 3-acyl derivatives of the parent l,3-thiazolidine-2-thione react with amines under mild conditions to form amides (equation I). Amides can also be prepared from amino, alcohols and aminophenols.2... 

Several other examples were summarized by Nagao et al. (82TL201). Thus a significant chiral recognition was realized in the aminolysis of 3-acyl-(4/ )-methoxycarbonyl-l,3-thiazolidine-2-thiones [4(/ )-AMCTT] (14) with racemic amines. In this reaction, (4/ )-AMCTT (14) showed a preferential reactivity to the (S)-amine. 

A new efficient methodology for the preparation of a chiral 2-azetidinone intermediate applicable to the total synthesis of (+)-thienamycin and l)S-substituted carbapenems has been developed (86JAa673). This is based on the highly diastereoselective aldol-type reaction employing C4-chiral 3-acyl-l,3-thiazolidine-2-thiones and 4-acetoxy-2-azetidinones. 

Similar chiral alkylations onto 91 and 92 using 3-acyl-(4/ )isopropyl-l,3-thiazolidine-2-thiones 94 and 95 were also carried out to give alkylated products 96-98 with high diastereoselectivities (> 96-99% de). The absolute stereochemistry of the major products 93a and d, 96, and 97 was established by their chemical conversions into known and related compounds. 

Thiazolidine-2-thione shows excellent selectivity for primary alcohols over secondary alcohols (>20 1)." A chiral version of this reagent gives moderate enantioselectivity in the acylation of racemic alcohols. 

Cationic copper(II) complex 37 derived from a chiral bis(imine) ligand has also been shown to be an effective catalyst for reactions between cyclopentadiene and acylated thiazolidine-2-thione dienophiles, albeit with slightly lower se-lectivities than for the bis(oxazoline) complex 31 (Scheme 30) [93]. The bis(2,6-dichlorophenylimine) was found to be optimal among a number of electron-rich and -poor aryl imines screened. The reaction exhibits a positive non-linear effect which suggests that the minor ligand enantiomer can be sequestered by the formation of a catalytically less active (l ,l )/(S,S)Cu(II) dimer. 

Acyl-1,3-thiazolidines-2-ones 1.123 (X = S, R = COOMe), obtained from cysteine methyl ether [261], have been introduced by Mukaiyama and coworkers for use in asymmetric aldol reactions [261, 433, 434, 435], In reactions of related //-acyl-1,3-oxazolidines-2-thiones 1.123 (X = O, R = COOMe), each enantiomer can be obtained either from L- or D-serine [434] and the auxiliaries can easily be recovered by methanolysis. Similarly, //-acyl derivatives of 1.121 (X = S) have been used in asymmetric aldol reactions [429, 436], and //-acyl- 1,3-thiazo-lidinethiones 1.123 (X = S, R = r -Pr) are useful in asymmetric acylation [437] and aldol and related reactions [437, 438], Cleavage of the chiral auxiliary is accomplished by aminolysis with O-benzylhydroxylamine or by reduction with LiAlH.,. ... 

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