Aldol reactions of imines

Amberlyst 15 DRY, a sulfonic cation exchange resin with a large surface area, was found to catalyze the imino aldol reaction of imines with ketene silyl acetals to provide racemic y9-amino esters in yields up to 99% [104]. 

Their 3,3 -substituents are utilized not only for their steric bulk, but also for the coordination to metals. Yamamoto and coworkers employed a boron complex of 3,3 -bis(2-hydroxyphenyl) BINOL in the asymmetric Diels-Alder reaction of cyclopentadiene and acrylaldehyde (equation 70) . The ligand possesses two additional hydroxy groups and forms a helical structure on coordination. The catalyst is considered to function as a chiral Brpnsted acid and a Lewis acid. The complex was also used in the Diels-Alder reactions and aldol reactions of imines. Although addition of diethylzinc to aldehydes gives low ee using BINOL itself or its 3,3 -diphenyl derivative, the selectivity can be increased when coordinating groups are introduced at the 3,3 -positions. Katsuki and... 

Another approach to the synthesis of p hydroxy-a-amino acids is by aldol reaction of imines derived from amino adds. The benzophenone imine of glycine (7.102) undergoes highly enantioselective aldol addition with a range of aliphatic aldehydes, including (7.71) xmder phase-transfer conditions in the presence of the bromide salt of phase-transfer catalyst (7.103). A similar transformation is catalysed, in low to moderate ee, by the bimetallic catalysts developed by Shibasaki and CO workers. ... 

As predicted, l,2,3,4-13C-labeled acetone dicarboxylate (15) provided an intact three-carbon chain into lycopodine. It also helped to explain why two molecules of pelletierine (12) were not incorporated (Scheme 6.3) [12]. As before, lysine (6) is converted to piperideine (8) via a decarboxylation. Then a Mannich reaction of labeled 15 with 8 provides pelletierine 12. The other half of the molecule to be incorporated must be pelletierine-like (12-CC>2Na), still containing one of the carboxylates. An aldol reaction of the two pelletierine fragments and a series of transformations leads to phlegmarine 9. Oxidation of 9 involving imine formation between N-C5, isomerization to the enamine and then cyclization onto an imine (at N-C13), provides lycopodine 10. Phlegmarine 9 and lycopodine 10 are proposed as... 

The reactions proceeded efficiently under mild conditions in short time. The silyl enol ethers reacted with the activated acetals or aldehydes at -78 °C to give predominant erythro- or threo-products [136, 137] respectively. In the same manner, the aldol reaction of thioacetals, catalyzed by an equimolar amount of catalyst, resulted in <-ketosulfides [139] with high diastereoselectivity. In the course of this investigation, the interaction of silyl enol ethers with a,]3-unsaturated ketones, promoted by the trityl perchlorate, was shown to proceed regioselec-tively through 1,2- [141] or 1,4-addition [138]. The application of the trityl salt as a Lewis acid catalyst was spread to the synthesis of ]3-aminoesters [142] from the ketene silyl acetals and imines resulting in high stereoselective outcome. 

Fluoral hydrate and hemiacetals are industrial products. They are stable liquids that are easy to handle, and they react as fluoral itself in many reactions. Thus, in the presence of Lewis acids, they react in Friedel-Crafts reactions. They also react very well with organometallics (indium and zinc derivatives) and with silyl enol ethers.Proline-catalyzed direct asymmetric aldol reaction of fluoral ethyl hemiac-etal with ketones produced jS-hydroxy-jS-trifluoromethylated ketones with good to excellent diastereo- (up to 96% de) and enantioselectivities. With imine reagents, the reaction proceeds without Lewis acid activation. The use of chiral imines affords the corresponding 8-hydroxy ketones with a 60-80% de (Figure 2.49). ° ... 

The aldol reaction of an enolate or enolate equivalent with an imine is referred to as the Mannich-type reaction. Asymmetric Mannich-type reactions provide useful routes for the synthesis of enantiomerically enriched p-amino acid derivatives, which are versatile chiral building blocks for the synthesis of nitrogen-containing biologically important compounds [23]. Despite the enormous progress made in asymmetric aldol reactions [24], the corresponding asymmet-... 

German, C. Vulpetti, A. Pain, G. Highly enantio- and diastereoselective boron aldol reactions of a-heterosubstituted fhioacetates with aldehydes and silyl imines. Tetrahedron 1997, 53, 5909-5924. 

Aldol reactions of various silyl enol ethers or ketone silyl acetals with aldehydes and imines proceed smoothly in the presence of catalytic amount of 516 or 519 (Equations (242) and (243)).1034-1037 B(G6F5)3 516 catalyzed the... 

Table 3. Aldol reactions of ketene silyl acetals with imines and their derivatives.

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. 

Aldol-type reactions. The highest anti selectivity is observed with BINAP complex of Pd(OTf)j in the aldol reaction of tin enolate of cyclohexanone. The condensation of silyl enol ethers with imines provides y-keto a-amino esters. ... 

The benzyl imine 260 of aldehyde 250 is an excellent building block for the synthesis of enantiomerically pure trifluoromethylated isoleucine 264 and valine 265 (see Scheme 9.56). The In-mediated alkylation of imine 260 with 4,4,4-trifluorocrotyl bromide in DMF proceeds with excellent diastereoselectivity (>95% de), affording 261. In contrast, poor diastereoselectivity (20% de) is obtained in the same In-mediated aldol reaction of aldehyde 250. The transition state structure 263 is proposed to explain the exclusive stereocontrol [84]. 

For benzoic acid acceleration in Yb(OTf)3-catalyzed allylation of aldehydes in acetonitrile, (a) As-pinall, H.C. Greeves, N. Mclver, E. G. Tetrahedron Lett. 1998, 39, 9283. For acetic acid acceleration in Yb(fod)3-catalyzed ene reaction of aldehydes with alkyl vinyl ethers, ene reaction of aldehydes with alkyl vinyl ethers, (b) Deaton, M. V. Ciufolini, M.A. Tetrahedron Lett. 1993, 34, 2409. Yamamoto et al. reported Brpnsted acid-assisted chiral Lewis acids and Lewis acid-assisted Brpnsted acids which were used for catalytic asymmetric Diels-Alder reactions and protonations and stoichiometric asymmetric aza Diels-Alder reactions, aldol-type reactions of imines, and an aldol reaction, (c) Ishihara, K. Yamamoto, H. J. Am. Chem. Soc. 1994, 116, 1561. (d) Ishihara, K. Kurihara, H. Yamamoto, H. J. Am. Chem. Soc. 1996, 118, 3049. (e) Ishihara, K. Nakamura, S. Kaneeda, M. Yamamoto, H. J. Am. Chem. Soc. 1996, 118, 12854. (f) Ishihara, K. Miyata, M. Hattori, K. Tada, T. Yamamoto, H. J. Am. Chem. Sc c. 1994, 116, 10520. (g) Yamamoto, H. J. Am. Chem. Soc 1994, 116, 10520. (h) ishihara, K. Kurihara, H. Matsumoto, M. Yamamoto Ishihara, K. Kurihara, H. Matsumoto, M. Yamamoto, H. J. Am. Chem. Soc 1998, 120, 6920. 

Cp 2Sm(THF)2 has been used as an efficient catalyst for the acylation of alcohols with vinyl esters to give the corresponding esters in moderate to good yields (Scheme 317). In addition, Sml2 was found to catalyze an aldol-type reaction of imines in the presence of a formiate to the corresponding a,/3-unsaturated imines in satisfactory yields.1109... 

In recent years, catalytic asymmetric Mukaiyama aldol reactions have emerged as one of the most important C—C bond-forming reactions [35]. Among the various types of chiral Lewis acid catalysts used for the Mukaiyama aldol reactions, chirally modified boron derived from N-sulfonyl-fS)-tryptophan was effective for the reaction between aldehyde and silyl enol ether [36, 37]. By using polymer-supported N-sulfonyl-fS)-tryptophan synthesized by polymerization of the chiral monomer, the polymeric version of Yamamoto s oxazaborohdinone catalyst was prepared by treatment with 3,5-bis(trifluoromethyl)phenyl boron dichloride ]38]. The polymeric chiral Lewis acid catalyst 55 worked well in the asymmetric aldol reaction of benzaldehyde with silyl enol ether derived from acetophenone to give [i-hydroxyketone with up to 95% ee, as shown in Scheme 3.16. In addition to the Mukaiyama aldol reaction, a Mannich-type reaction and an allylation reaction of imine 58 were also asymmetrically catalyzed by the same polymeric catalyst ]38]. 

Replacement of the aldehyde component of the aldol reactions with imines (either preformed or generated in situ) opened access to synthetically relevant P-amino- and syn-P-amino-a-hydroxyketones, which were obtained in moderate to good yields (up to 80%) and good to high diastereoselectivity and enantioselectivity (Scheme 8.11 Equation b ee-value up to 97%) [36]. As far as catalyst recycling is... 

The polymer-supported Zr catalyst (12) is useful for asymmetric aza-Diels-Alder cycloaddition of benzaldehyde imine to Danishefsky diene [9]. The 6-substituted BINOL-Zr(IV) catalyst is useful for the enantioselective anft -preferred aldol reaction of benzaldehyde with ketene silyl thioacetal (15) (Scheme 5.5) [ 10]. The calculated charge densities on the oxygen atoms of the BINOL derivatives revealed that there is a good correlation between the charge density and the reactivity of 6-substituted BINOL [ 10]. 

The reactions of imines with ester enolates provide a route to (3-lactams. Because of the importance of this class of antibiotics, much study has been devoted to this type of reaction [116a, 316a]. Recently published theoretical treatments [1283, 1284] suggest a mechanistic pathway different from that of the aldol reaction... 

The diastereoselectivity of the Baylis-Hillman reaction was investigated by attaching chiral auxiliaries to a,-unsaturated ketones [216]. The use of the 4-isopropyloxazoladinone chiral auxiliary in [EMIM][OTf] gave rise to very low di-astereomer ratios (45 55) (Scheme 5.2-88). The authors also describe a proline -catalyzed aldol reaction of acetone, butanone, hydroxyacetone and chloroacetone with a chiral imine and obtain up to 9 1 diastereomer ratios. 

Imino aldol reaction of ketene silyl acetals with the chiral imine derived from tartaric acid 83 in the presence of a cation-exchange resin provided the corresponding /i-amino esters 84 in a good yield and high diastereose-lectivity [68]. The esters 84, thus obtained, were subjected to the Grignard reagent which promoted S-lactam formation. After a sequence of reactions compound 84 was transformed into the ester 85 [68] which in the past was... 

A7-(Heteroarenesulfonyl)prolinatnides give up to 96% ee in aldol reactions of acetone with aryl trihalomethyl ketones (halo = F, Cl). An X-ray structure of the quinolinyl case (51) indicates it to be significantly pre-organized by hydrogen bonding. The reaction also works with NH imine derivatives of the aryl ketone in a Mannich-type... 

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