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Carbohydrates chiral auxiliaries from

Carbohydrates have found widespread use as chiral auxiliaries in asymmetric Diels-Al-der reactions156. A recent example is a study conducted by Ferreira and colleagues157 who used carbohydrate based chiral auxiliaries in the Lewis acid catalyzed Diels-Alder reactions of their acrylate esters 235 with cyclopentadiene (equation 66). Some representative results of their findings, including the ratios of products 236 and 237, have been summarized in Table 9. The formation of 236 as the main product when diethylaluminum chloride was used in dichloromethane (entry 3) was considered to be the result of an equilibrium between a bidentate and monodentate catalyst-dienophile complex. The bidentate complex would, upon attack by the diene, lead to 236, whereas the monodentate complex would afford 236 and 237 in approximately equal amounts. The reversal of selectivity on changing the solvent from dichloromethane to toluene (entry 2 vs 3) remained unexplained by the authors. [Pg.384]

Cycloaddition of enantiomerically pure a-chloro nitroso compounds derived from steroids and carbohydrates (e.g. 158, equation 102) proceeds with considerable stereoselectivity. Final removal of the chiral auxiliary results in Af-unsubstituted cyclic hydroxylamines of high ee. [Pg.150]

Carbohydrates are configurationally stable, easily available in enantiopure forms from the chiral pool, and they show a high density of chiral information per molecular unit. Their polyfunctionality and structural diversity fadhtate their tailor-made modification, derivatization, and structural optimization for a broad spectrum of synthetic applications. While derivatives of various saccharides have already been utilized as versatile starting materials and building blocks for chiral auxiliaries, ligands, and reagents [330] their obvious role as precursors for the... [Pg.315]

The most widely applicable method of optical resolution utilizes a chiral auxiliary, which is taken from either the chiral pool 14 (carbohydrates, terpenes, amino acids etc.) or obtained by previous optical resolution. The auxiliary A, in an optically pure form, combines with the racemic substrate S to form two diastereomers p and n, respectively. [Pg.81]

General Three Carbon Chiral Synthons from Carbohydrates Chiral Pool and Chiral Auxiliary Approaches... [Pg.85]

Carbohydrate-derived auxiliaries exhibit an efficient stereoselective potential in a number of nucleophilic addition reactions on prochiral imines. a-Amino acids, P amino acids and their derivatives can be synthesized in few synthetic steps, and with high enantiomeric purity. A variety of chiral heterocycles can readily be obtained from glycosyl imines by stereoselective transformations, providing evidence that carbohydrates have now been established as useful auxiliaries in stereoselective syntheses of various interesting classes of chiral compounds. [Pg.127]

Considerable work was done to induce chirality via chiral auxiliaries. Reac tions with aromatic a-ketoesters like phenylglyoxylates 21 and electron-rich al kenes like dioxoles 22 and furan 23 were particularly efficient (Scheme 6). Yield up to 99% and diastereoselectivities higher than 96% have been observed whet 8-phenylmenthol 21a or 2-r-butylcyclohexanol 21b were used as chiral auxiliarie [14-18]. It should be noted that only the exoisomers 24 and 25 were obtained from the reaction of dioxoles 22. Furthermore, the reaction with furan 23 wa regioselective. 24 were suitable intermediates in the synthesis of rare carbohydrate derivatives like branched chain sugars [16], Other heterocyclic compounds liki oxazole 28 [19] and imidazole 29 [20] derivatives as well as acyclic alkenes 3fl 31, and 32 [14,15,21,22] were used as olefinic partners. Numerous cyclohexane derived alcohols [18,21-24] and carbohydrate derivatives [25] were used as chiri... [Pg.184]

Enholm [12] has also prepared an enantiomerically pure soluble polymer support 82 by couphng xylose-derived chiral auxiliary 81 with 77 (Scheme 18). The chiral support was then treated with bromopropionic acid 83 to give substrate 84. Eree radical allyl transfer from allyltributyltin imder thermal conditions provided 85 in 93% yield, and basic cleavage from the resin gave (R)-(-)-2-methylpent-4-enoic acid 86 in 80% yield and 97% ee, with a 92% yield of recovered 82. Previous studies of the same process in solution had found the addition of Lewis acids to be crucial for high selectivities to be obtained. Interestingly, the addition of Lewis acids to the reaction on polymer support led to cleavage of the carbohydrate from the polymer backbone. En-... [Pg.105]

Bicyclic oxazolidinones derived from carbohydrates have been used as chiral auxiliaries in conjugate addition reactions [147]. After deprotonation with MeMgBr, the D-galacto-oxazolidin-2-one 178 and the D-g/wc6>-oxazolidin-2-one 179 (Figure 10.17) were A-acylated with... [Pg.474]

A diastereoselective cyclization of a 5-hexenyl radical linked to a carbohydrate scaffold was reported by Enholm et al. [171]. The authors used (+ )-isosorbit and ( —)-D-xylose as the chiral auxiliaries. The a,p-unsaturated bromo ester 262 derived from (-h )-isosorbit was reacted with tributyltinhydride and Lewis acids. The influence of the reaction temperature and of the solvent on the yield and stereoselectivity of the cyclization were also examined. Best results were obtained when ZnCl2 was used as Lewis acid at — 78°C (Scheme 10.85). The cyclization furnished the ester... [Pg.490]

The examples outlined in this chapter show that carbohydrates are efficient stereodifferentiating auxiliaries, which offer possibilities for stereochemical discrimination in a wide variety of chemical reactions. Interesting chiral products are accessible, including chiral carbo- and heterocycles, a- and 3-amino acid derivatives, 3-lactams, branched carbonyl compounds and amines. Owing to the immense material published since the time of the earlier review articles on carbohydrates in asymmetric synthesis [9,10], the examples discussed in this chapter necessarily focused on the use of carbohydrates as auxiliaries covalently linked to and cleavable from the substrate. Given the scope of this chapter, a discussion of other interesting asymmetric reactions has not been permitted — for example, reactions in which carbohydrate-derived Lewis acids, such as cyclopentadienyl titanium carbohydrate complexes, exhibit stereocontrol in aldol reactions [180]. Similarly, processes in which in situ glycosylation induces reactivity and stereodifferentiation — for example, in Mannich reactions of imines [181] — have also been excluded from this discussion. [Pg.494]

Most aldehyde-based chiral auxiliaries come from carbohydrates [248]. For example, aldehyde 1.97 is transformed into a-aminoester imines 1.98, which undergo stereoselective alkylations in basic media. After acidic hydrolysis, the dural... [Pg.67]


See other pages where Carbohydrates chiral auxiliaries from is mentioned: [Pg.318]    [Pg.502]    [Pg.442]    [Pg.232]    [Pg.126]    [Pg.1072]    [Pg.875]    [Pg.596]    [Pg.60]    [Pg.340]    [Pg.126]    [Pg.429]    [Pg.8]    [Pg.484]    [Pg.305]    [Pg.280]    [Pg.83]    [Pg.15]    [Pg.470]    [Pg.889]    [Pg.280]    [Pg.246]    [Pg.358]    [Pg.588]    [Pg.755]    [Pg.437]    [Pg.807]   
See also in sourсe #XX -- [ Pg.11 , Pg.502 ]




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