Imides chiral 2-oxazolidones

It is significant to note that the sense of asymmetric induction noted for amide enolates 157 and 158 is the same as that found for the boryl enolates derived from the chiral oxazolidone imides 146 and 145, respectively (cf. Scheme 22). The arguments presented... 

Diastereofacial-selective intramolecular Diels-Alder reactions.4 Trienecarbox-imides derived from chiral oxazolidones undergo Lewis-acid-catalyzed intramolecular Diels-Alder reactions with high endo- and diastereofacial selectivity ([Pg.361]

Chiral oxazolidones are readily prepared from carbamates of a-amino esters by reduction with NaBHa-Lil in refluxing THF. Note that imides (A-acyloxazolidinones) are reduced to alcohols, therefore the reduction represents a method for recovery of both chiral products and auxiliaries. ... 

Due to these limitations Evans et al. focussed on the exploration of imide-derived enolates (165). They expected these systems to react stereoselective in carbon-carbon bond formation and that the derived imides might be readily hydrolized or reduced under the mild conditions required for the construction of complex products, One of the two chiral 2-oxazolidones (175) chosen for study by Evans et al.179) is derived from (S)-valine and was readily prepared from this inexpensive commercially available a-amino acid having an optical purity exceeding 99 %. The preparation of the related imide-derived enolate (165) is shown in the next scheme. Alkylation reactions employing (175) resulted in excellent diastereoface selection, as summarized in Table 4 179). 

Asymmetric aikyiation of imide etiolates.1 The sodium enolates of 3 and 7 are alkylated with marked but opposite diastereoselectivity by alkyl halides. The selectivity is improved by an increase in the size of the electrophile, with methylation being the least stereoselective process. The asymmetric induction results from formation of (Z)-enolates (chelation) with the diastereoselectivity determined by the chirality of the C4-substituent on the oxazolidone ring (equations I and II). The products can be hydrolyzed to the free carboxylic acids or reduced by LiAlH4 to the corresponding primary alcohols and the unreduced oxazolidone (1 or 2). 

Oxazolidones, chiral, (1) and (2). Evans et al. have prepared these two chiral 2-oxazolidones by reaction of phosgene with (S)-valinol and (IS, 2R)-norephedrine, respectively, and used them as recyclable chiral auxiliaries for carboxylic acids in cnantioselective reactions of the derived imides. 

In order to overcome the problems associated with acid hydrolysis of amides of prolinol, the Evans research group has investigated the diastereoselectivity of the alkylation of imides derived from chiral 2-oxazolidones. Imide enolates are somewhat less nucleophilic than amide enolates, but they have the advantage that their diastereomeric alkylation products are easily separated and the imide linkage is cleaved with a variety of reagents under mild conditions. As shown in Scheme 64, alkylation of the chelated (Z)-enolate of the propionimide derived from (S)-valinol (135) with benzyl bromide occurred in high chemical yield and with high si-face diastereoselectivity. In addition to oxazolidones, imidazoli-diones have proved to be useful chiral auxiliaries for diastereoselective enolate alkylations. ... 

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