Addition reactions diastereofacial selectivity

The addition of organometallic reagents to aldimines derived from chiral amines provides another option (unique to imines) for controlling reaction diastereofacial selectivity. Yamamoto et have... 

The Lewis acid-catalyzed addition of silyl kelene acetals occurred m high yield, and when the ketene acetal bore a substituent, the reactions occurred with modest diastereofacial selectivity [d] (equation 7) (Table 3)... 

In addition to the boron trifluoride-diethyl ether complex, chlorotrimcthylsilanc also shows a rate accelerating effect on cuprate addition reactions this effect emerges only if tetrahydrofuran is used as the reaction solvent. No significant difference in rate and diastereoselectivity is observed in diethyl ether as reaction solvent when addition of the cuprate, prepared from butyllithium and copper(I) bromide-dimethylsulfide complex, is performed in the presence or absence of chlorotrimethylsilane17. If, however, the reaction is performed in tetrahydrofuran, the reaction rate is accelerated in the presence of chlorotrimethylsilane and the diastereofacial selectivity increases to a ratio of 88 12 17. In contrast to the reaction in diethyl ether, the O-silylated product is predominantly formed in tetrahydrofuran. The alcohol product is only formed to a low extent and showed a diastereomeric ratio of 55 45, which is similar to the result obtained in the absence of chlorotrimethylsilane. This discrepancy indicates that the selective pathway leading to the O-silylated product is totally different and several times faster than the unselective pathway" which leads to the unsilylated alcohol adduct. A slight further increase in the Cram selectivity was achieved when 18-crown-6 was used in order to increase the steric bulk of the reagent. 

Nucleophilic addition reactions to A -monoprotected a-amino aldehydes 1 (Table 20) represent the beginning of the worldwide interest in peptide isosteres for the preparation of certain specific enzyme inhibitors (e.g., aspartylproteinase inhibition). Some examples of this reaction type show a relatively low diastereofacial selectivity, especially when the reactions are per-... 

In the course of investigations on the synthesis of ( + )-biotin (7) the addition of isothiocyana-toacetate enolates 8 to 1,3-thiazolines 9 has been studied16 17. The diastereofacial selectivity of these reactions is controlled by attack of the enolate on the imine face opposite the 5-pentyl group and correctly establishes the relative stereochemistry at C-l and C-2 of biotin. 

The Michael additions of chiral cycloalkanone imines or enamines, derived from (FV l-l-phcnyl-ethanamine or (5)-2-(methoxymethyl)pyrrolidine, are highly diastereofacially selective reactions providing excellent routes to 2-substituted cycloalkanones. This is illustrated by the addition of the enamine of (S)-2-(methoxymethyl)pyrrolidine and cyclohexanone to 2-(aryl-methylene)-l,3-propanedioates to give, after hydrolysis, the (2 5,a.S )-oxodicstcrs in 35-76% yield with d.r. (2 S,aS)/(2 S,a/ ) 94 6- > 97 3 and 80-95% ee214. 

Silica gel [11] or alumina [11a, 12] alone, or silica and alumina together modified by Lewis-acid treatment [13] and zeolites [14], have been widely used as catalysts in Diels-Alder reactions, and these solids have also been tested as catalysts in asymmetric Diels-Alder reactions [12,13b,14]. Activated silica gel and alumina at 140 °C were used [15] to catalyze the asymmetric cycloaddition of (-)-menthyl-N-acetyl-a, S-dehydroalaninate (3) (R = NHCOMe) with cyclopentadiene in the key step for synthesizing optically active cycloaliphatic a-amino acids. When the reactions were carried out in the absence of solvent, a higher conversion was obtained. Some results are reported in Table 4.5 and compared with those obtained by using silica and alumina modified by treatment with Lewis acids. Silica gel gives a reasonable percentage of conversion after 24 h with complete diastereofacial selectivity in exo addition. 

Several modifications have been made to organoaluminum-based catalysts. Methylaluminum bis(2,6-di-tert-butyl-4-alkylphenoxide) (MAD) shows high diastereofacial selectivity in carbonyl alkylation (Scheme 72).31 11 Aluminum tris(2,6-diphenylphenoxide) (ATPH) has been developed as a catalyst for conjugate addition reactions. Since a carbonyl group is stabilized by steric effect of ATPH, the 1,4-adduct is obtained selectively.312... 

Asymmetric reactions have also been developed. The reactions of allyltitaniums with chiral aldimines derived from optically active 1-phenylethylamine afford optically active homoallylic amines with excellent diastereofacial selectivities. Thus, the Cram syn addition products are obtained highly predominantly when using crotyltitanium reagent 33, as exemplified in Scheme 13.30 [61]. 

In most reported cases, the covalently bound chiral auxiliary has been attached to the dienophile via an acyl linkage, but there are also many examples known in which the auxiliary has been attached to the diene via an acyl, alkyl or heteroatom linkage, the first example of the latter being Trost s diene147. Lewis acids are often added to the reaction mixtures when the chiral auxiliary attached to the dienophile contains an additional Lewis basic site. This is not only to enhance the reaction rate, but especially to enhance the diastereofacial selectivity by complexing to the dienophile in a bidentate fashion. This makes the dienophile more conformationally rigid. 

Okamura and coworkers151 studied the base catalyzed Diels-Alder reactions between 3-hydroxy-2-pyrone (224) and chiral l,3-oxazolidin-2-one based acrylate derivatives. Catalysis of the reaction between 224 and 225 by triethylamine gave fair to good de values, somewhat dependent on the solvent system used (equation 63, Table 7). Addition of 5% of water to the solvent isopropanol, for example, increased the de of the endo adduct 226 substantially. When the amount of water was increased, however, the triethylamine catalyzed reaction became less endo and diastereofacially selective, a small amount of exo 227 being obtained. Replacing triethylamine by the chiral base cinchonidine also improved the de, but now independently of the solvent system used. 

Diastereofacial selection on addition of organocoppper reagents to chiral y-alkyl-substituted Michael acceptors has been investigated less extensively, due to the usually low selectivities generally observed for these systems [38, 39]. This is exemplified by the reaction of E and Z enoates 90 (Scheme 6.19). Thus, either syn-91 or anti-93 is formed upon conjugate addition with BF3-modified reagents, as a function of enoate geometry. The stereochemistry of the reaction is in accordance with the modified Felkin-Anh model [40]. 

The reaction pathways of conjugate addition of Me2CuLi and Me2CuLi LiCl have been studied for acrolein [79] and cydohexenone [80] with the aid of density functional methods, and fit favorably with the NMR properties of intermediates, kinetic isotope effects [81], and the diastereofacial selectivity. A similar mechanism also operates in this reaction, as summarized in Scheme 10.5. The rate-determining step of the reaction (TScc) is the C-C bond formation caused by reductive elimination from Cu " to give Cu. ... 

Systematic studies of organocuprate conjugate additions to three pairs of y-epimeric and geometrically isomeric y-chiral acyclic enones and enoates (159a,b) and (160a,b) have allowed one to generalize diastereofacial selectivity of these reactions (Scheme 20). 

The Diels-Alder reaction between a 2-fluoroacrylic acid derivative of 8-phenyl-menthol (83) and cyclopentadiene shows high exo- and jr-diastereofacial selectivity (Scheme 30). The C(2) of endocyclic cross-conjugated 2-(acylamino)-l,3-dienes exerts excellent diastereofacial control on the Diels-Alder addition with electron-deficient dienophiles to produce octahydroquinolines. ... 

The stereochemistry of 1,3-dipolar cycloadditions of azomethine ylides with alkenes is more complex. In this reaction, up to four new chiral centers can be formed and up to eight different diastereomers may be obtained (Scheme 12.4). There are three different types of diastereoselectivity to be considered, of which the two are connected. First, the relative geometry of the terminal substituents of the azomethine ylide determine whether the products have 2,5-cis or 2,5-trans conformation. Most frequently the azomethine ylide exists in one preferred configuration or it shifts between two different forms. The addition process can proceed in either an endo or an exo fashion, but the possible ( ,Z) interconversion of the azomethine ylide confuses these terms to some extent. The endo-isomers obtained from the ( , )-azomethine ylide are identical to the exo-isomers obtained from the (Z,Z)-isomer. Finally, the azomethine ylide can add to either face of the alkene, which is described as diastereofacial selectivity if one or both of the substrates are chiral or as enantioselectivity if the substrates are achiral. 

This procedure describes an example of the "aldehyde route". The addition of 2-(trimethylsilyl)thiazole (2-TST) to aldehydes occurs readily and does not require the presence of a fluoride ion source.10 The resulting secondary alcohol is as a rule isolated in very good yield. The sense of the diastereofacial selectivity of the addition reaction to chiral a-amino aldehydes can be controlled by differential protection of the... 

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