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Silyl ketene acetals, chiral reaction with imines

Since then, efficient catalytic asymmetric methods have been developed for the addition of silyl enol ethers or silyl ketene acetals to imines with chiral metal catalysts [29-34], Recently, direct catalytic asymmetric Mannich reactions which do not require preformation of enolate equivalents have appeared. [Pg.114]

BLA 28 is very useful in the double stereodifferentiation of aldol-type reactions of chiral imines [41], Reaction of (5)-benzylidene-a-methylbenzylamine with trimethyl-silyl ketene acetal derived from tert-butyl acetate in the presence of (R)-28 at -78 °C for 12 h provides the corresponding aldol-type adduct in 94 % de (Eq. 78). Including phenol in the reaction mixture does not influence the reactivity or the diastereoselec-tivity. The aldol-type reaction using yellow crystals of (R)-28.(5)-benzylidene-a-methylbenzylamine PhOH proceeds with unprecedented (> 99.5 0.5) diastereoselec-tivity (Eq. 79). In general, 28 is a more efficient chiral Lewis acid promoter than 27. [Pg.183]

Asymmetric Mannich-type reactions provide useful routes for the synthesis of enantiomerically enriched P-amino ketones or esters [48a, 48b]. For the most part, these methods involve the use of chirally modified enolates or imines. Only a handful of examples has been reported on the reaction of imines with enolates of carboxylic acid derivatives or silyl ketene acetals in the presence of a stoichiometric amount of a chiral controller [49a, 49b, 49c]. Reports describing the use of a substoichiometric amount of the chiral agent are even more scarce. This section contains some of the most recent advances in the field of catalytic enantioselective additions of lithium enolates and silyl enol ethers of esters and ketones to imines. [Pg.904]

Table 7 Ratio of Diastereoisomers in the TiCU-mediated Reactions of Chiral Silyl Ketene Acetals with Imines... Table 7 Ratio of Diastereoisomers in the TiCU-mediated Reactions of Chiral Silyl Ketene Acetals with Imines...
Largely stimulated by the synthesis of 3-lactam antibiotics, there have been widespread investigations into the stereochemical aspects of imine condensations, mainly involving reactions of enolates of carboxylic acid derivatives or silyl ketene acetals. In analogy to the aldol condensation, stereoselectivity of imine condensations will be discussed in terms of two types in this chapter (i) simple dia-stereoselectivity or syn-anti selectivity, when the two reactants are each prochiral (equation 12) and (ii) diastereofacial selectivity, when a new chiral center is formed in the presence of a pre-existing chiral center in one of the reactants (e.g. equation 13). The term asymmetric induction may be used synonymously with diastereofacial selectivity when one of the chiral reactants is optically active. For a more explicit explanation of these terms, see Heathcock s review on the aldol condensation. ... [Pg.915]

Acylhydrazones, R CH=N-NHCOR , undergo stereoselective Mannich reactions with silyl ketene acetals to give j8-hydrazido esters, using activation by a chiral silicon Lewis acid. Alternatively, the use of silyl ketene imine gives a /3-hydrazido nitrile. Enantioselective (5)-l-amino-2-methoxymethylpyrrolidine (SAMP) hydrazone alkylation of aldehydes and ketones is the subject of a computational study, providing a useful screening method for possible new candidates. " ... [Pg.16]

As outlined in the previous paragraph, chiral Brpnsted base organocatalysts appear to be most effective when equipped with an additional Brpnsted acidic moiety, for example, hydrogen bond donors like (thio)urea. Apparently, both functionalities catalyze the asymmetric Mannich reaction in a cooperative fashion, that is, simultaneous activation of both the nucleophile and the electrophile. However, activation of the electrophile can also be accomplished with a single, enantiomerically pure Brpnsted acid. In this respect, readily available chiral phosphoric acids are most commonly applied [88-90]. In 2004, the groups of Akiyama and Terada independently from each other reported the first asymmetric Mannich reaction of silyl ketene acetals or acetyl acetone with imines utilizing chiral phosphoric acid catalysts, which... [Pg.404]

Asymmetric Mannich reactions provide useful routes for the synthesis of optically active p-amino ketones or esters, which are versatile chiral building blocks for the preparation of many nitrogen-containing biologically important compounds [1-6]. While several diastereoselective Mannich reactions with chiral auxiliaries have been reported, very little is known about enantioselective versions. In 1991, Corey et al. reported the first example of the enantioselective synthesis of p-amino acid esters using chiral boron enolates [7]. Yamamoto et al. disclosed enantioselective reactions of imines with ketene silyl acetals using a Bronsted acid-assisted chiral Lewis acid [8]. In all cases, however, stoichiometric amounts of chiral sources were needed. Asymmetric Mannich reactions using small amounts of chiral sources were not reported before 1997. This chapter presents an overview of catalytic asymmetric Mannich reactions. [Pg.143]

Yamamoto and co-workers found that 27 is an excellent chiral promoter not only for the aza Diels-Alder reaction of aldimines [40] but also for the stereoselective aldol-type reaction of aldimines with ketene silyl acetals [55]. The reaction of (5)-benzyli-dene a-methylbenzylamine with trimethylsilyl ketene acetal derived from terf-butyl acetate in the presence of (R)-27 produces the (R) adduct in > 92 % diastereomeric excess (de), whereas reaction with (5)-27 gives the adduct in 74 % de. In a similar way, (5)-butylidene a-methylbenzylamine, an aliphatic imine, can be converted to the (R)-)3-amino ester in 94 % de by use of (R)-27 (Eq. 73). [Pg.180]

The chiral-modified binaphthol complex (23) has been prepared (Eq. 10) and shown to be an efficient catalyst for enantioselective Memnich-type reactions [9]. The reaction of imine (24) with ketene silyl acetal in the presence of the catalyst 23 with NMI afforded /3-amino acid derivatives 25 and 26 in high enantioselectivity (Eq. 11). [Pg.869]

Another variation in the reaction of imines involves the titanium catalyzed condensation of a Schiff base with a ketene silyl acetal to give a p-lactam. The TiCU catalyzed reaction of 2.114 (derived from propanal and phenethylamine) and 2.775 led to 2.116. The reaction was mediated by a nitrogen-TiCla intermediate. Hydrolysis of the P-lactam and reduction of the N-benzylic group with hydrogen and palladium gave 2,2-dimethyl-3-aminopentanoic acid, 2.117. In this study, chiral... [Pg.82]

On the basis of these results, we have developed the first method for the enantiose-lective synthesis of chiral /3-amino acid esters from achiral imines and ketene silyl acetals using BLA 28. The enantioselectivity of the aldol-type reaction is dramatically increased by using sterically bulky A-substituents. Condensation of the imine derived from benzhydrylamine occurs with high enantioselectivity (90 % ee) (Eq. 80). Furthermore, the best result (96 % ee) is achieved by use of a 1 1 (v/v) mixture of toluene and dichloromethane as solvents. Thus, excellent enantioselectivity (95 % ee or better) has been achieved in reactions of aromatic aldehyde-derived imines... [Pg.183]

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... [Pg.113]

Lewis acid promoted reactions of silicon enolates, /.e., silyl enol ethers and ketene silyl acetals with various electrophiles have yielded a wealth of novel and selective synthetic methods. This combination of reagents has been used in the past to perform such reactions as aldol-condensations with aldehydes and acetals, imine-condensations, conjugate additions to a,P-enones, alkylations, electrophilic aminations, and Diels-Alder/cyclocondensations. Our own interest in this field has involved the use of titanium tetrachloride to promote the reaction of ketene silyl acetals with non-activated imines as an efficient route to P-lactams. This reaction has been applied to the asymmetric synthesis of P-lactams via a chiral imine-titanium tetrachloride template. We have also found that both ketene silyl acetals and vinylketene silyl acetals oxidativelly dimerize or cross-couple, in the presence of titanium tetrachloride to conveniently yield various diesters . Our present study concerns reactions of vinylketene silyl acetals with non-activated imines and vinylimines promoted by titanium and zirconium tetrachlorides. [Pg.37]


See other pages where Silyl ketene acetals, chiral reaction with imines is mentioned: [Pg.528]    [Pg.1353]    [Pg.471]    [Pg.457]    [Pg.933]    [Pg.933]    [Pg.53]    [Pg.244]    [Pg.933]    [Pg.822]    [Pg.1821]    [Pg.467]   


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Acetals chiral

Acetals reactions with

Acetates reactions with

Chiral Ketenes

Chiral acetate

Chiral imine

Chiral imine acetal

Imine reaction

Imines acetals

Imines chiral

Imines chiral silyl ketene acetals

Imines reaction with ketenes

Imines with ketene acetals

Imines with ketenes

Imines, reactions

Imines, reactions with silyl ketene acetals

Keten acetal

Ketene acetal

Ketene imines

Ketene reaction

Ketene-imine

Ketenes acetals

Ketenes imines

Ketenes reactions

Ketenes silyl acetals

Reaction with imines

Reaction with ketene

Reaction with ketene acetals

Reaction with ketenes

Reaction with silyl ketene acetals

Reactions chiral

Silyl acetate

Silyl imines

Silyl ketene acetals

Silyl ketene acetals, reaction

Silyl ketenes

Silyl ketenes, reactions

Silyl reactions with

Silylation reactions

Silyls reactions with

With imines

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