Conjugate addition chiral imines

Asides from the application of imines on conjugate addition reactions, Deng [87, 88] reported the first asymmetric chiral thiourea catalyzed Friedel-Crafts reaction of indoles with iV-tosyl imines (Scheme 35). The reaction was receptive to various aromatic, heteroaromatic, and aliphatic imines in good yield and high enantioselec-tivity (Scheme 36). 

TABLE 9. Asymmetric conjugate addition of organolithium reagents to a,/ -unsaturated esters and imines in the presence of chiral diether hgand 28 or (—)-sparteine (29) ... 

This type of catalytic strategy has recently been extended to enantio-selective addition of alkyllithiums to certain prochiral imines (Scheme 18) (35). Relevantly, in the presence of a small amount of a chiral ether ligand, 1-naphthyllithium reacts with a sterically hindered imine of l-fluoro-2-naphthaldehyde (conjugate addition/elimination) to afford a binaphthyl compound in greater than 80% ee. 

A highly enantioselective synthesis of a-dehydroamino acids (186) with a stereogenic centre at the y -position has been developed, which employs a copper-catalysed asymmetric conjugate addition of diethylzinc to a,j3-unsaturated imines (185) with the TADDOL-derived phosphoramidite (187) as a chiral ligand.234... 

Michael-aldol reaction as an alternative to the Morita-Baylis-Hillman reaction 14 recent results in conjugate addition of nitroalkanes to electron-poor alkenes 15 asymmetric cyclopropanation of chiral (l-phosphoryl)vinyl sulfoxides 16 synthetic methodology using tertiary phosphines as nucleophilic catalysts in combination with allenoates or 2-alkynoates 17 recent advances in the transition metal-catalysed asymmetric hydrosilylation of ketones, imines, and electrophilic C=C bonds 18 Michael additions catalysed by transition metals and lanthanide species 19 recent progress in asymmetric organocatalysis, including the aldol reaction, Mannich reaction, Michael addition, cycloadditions, allylation, epoxidation, and phase-transfer catalysis 20 and nucleophilic phosphine organocatalysis.21... 

Although in some cases, copper catalysis has little effect on the stereochemistry, some asymmetric induction by chiral copper catalysts such as copper(i) complexes of aminotropone iminates (8) [79] or the chiral arylthiocopper compound (9) [80] has been achieved. Chiral zinc(n) complexes (8) also promote enantioselective conjugate addition [81]. 

The procedure given here stems from our synthetic effort toward (+)-jasplakinolide9 11 that contains the p-amino acid (R)-p-tyrosine.12 This protocol permits the introduction of the desired carbon substituted at the p-site in an enantioselective manner. This approach contrasts with previous methodologies, which develop the chiral center via conjugate addition of an amine to an a,p-unsaturated system,13 reduction of a C=C or C=N functionality,14 or C-C bond formation involving imines and enolate derivatives.15... 

Chiral Cuprate Reagents. This chiral amine has also found application in asymmetric conjugate addition of copper azaeno-lates to cyclic enones. Lithium azaenolates of optically active acetone imines have been used in the preparation of chiral cuprate reagents. However, the asymmetric induction is low (17-28% ee) when this amine is employed (eq 5). ... 

Another frequent use of (1) and its enantiomer is the stereospecific conjugate addition of carbonyl compounds to a,p-unsaturated systems. Most published examples contain chiral imine derivatives of cyclic ketones, which add to a,p-unsaturated esters and ketones in a highly stereoselective manner (eq 13 and eq 14). When the ketone is not symmetrically substituted, reaction usually occurs at the most substituted a-position, including those cases where the ketone is a-substituted by oxygen (eq 15). High stereoselectivity can also be achieved when the Michael acceptor is other than an unsaturated ketone or ester, such as a vinyl sulfone (eq 16). Intramolecular variations of this transformation have also been described (eq 17). ... 

Enantioselective Copjugate Additions. The use of chiral imines for the enantioselective conjugate addition of carbonyl compounds to a,p-unsaturated systems is well established, mostly with imines derived from a-methylbenzylamine. Recently, (1) has been used to effect the Michael addition of a 4-piperidone to acrylonitrile and methyl acrylate (eq 2) ... 

Reactions of chiral allylic boranes with carbonyl compounds Reactions of chiral allyl boranes with imines Asymmetric Addition of Carbon Nucleophiles to Ketones Addition of alkyl lithiums to ketones Asymmetric epoxidation with chiral sulfur ylids Asymmetric Nucleophilic Attack by Chiral Alcohols Deracemisation of arylpropionic acids Deracemisation of a-halo acids Asymmetric Conjugate Addition of Nitrogen Nucleophiles An asymmetric synthesis of thienamycin Asymmetric Protonation... 

The electrophile E+ can be an alkyl halide or sulfate, an aldehyde to give aldol products, or an a,P-unsatunited ester when conjugate addition is preferred. Examples from simple alkylation show that the alkyl halide can be primary alkyl, allylic 33, and even an a-bromoester or y-bromo-a,P-unsaturated ester 31. The original carbonyl compound that forms the chiral imine with SAMP or RAMP can be an aldehyde 27 or 29, a ketone (symmetrical 32 or blocked on one side 35), or an enone. Only the reagents and products are shown with oxidative [O] or hydrolytic [H20] workup. Notice that SAMP is used for the formation of either enantiomer of 28 by using different starting materials but that RAMP is used to enter the other enantiomeric series from 32. 

Tandem conjugate addition ofenolates and aldol reactions Tandem conjugate addition of chiral amines and aldol reactions Part III - Intermediate is an Unstable Imine or Enamine Intermediate Would Be Formed by Amide Condensation... 

The first prominent catalytic asymmetric addition of an organolithium reagent was realized in the reaction of 1-naphthyllithinmwith l-fluoro-2-naphthy-laldehyde imine in the presence of the chiral diether 1 to afford chiral binaphthyls in over 82% ee (Scheme 2). Merely a catalytic amount of 1 (5 mol %) is required to effect the reaction, in which an enantioselective conjugate addition-elimination mechanism is operative [18]. 

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