Carbonyls asymmetric conjugate addition

In contrast to a, -ethylenic ketones or even a, -ethylenic sulfones, a, ) -ethylenic sulfoxides generally are not sufficiently electrophilic to undergo successful nucleophilic j8-addition . a-Carbonyl-a, j8-ethylenic sulfoxides, however, are potent, doubly activated alkenes which undergo rapid and complete -addition of various types of nucleophiles even at — 78 °C. A brief account summarizing this area is available . The stereochemical outcome of such asymmetric conjugate additions to enantiomerically pure 2-sulfmyl 2-cycloalkenones and 2-sulfinyl-2-alkenolides has been rationalized in terms of a metal-chelated intermediate in which a metal ion locks the -carbonyl sulfoxide into a rigid conformation (36 cf. 33). In this fixed conformation, one diastereoface of the cyclic n... 

Organolithium compounds are highly reactive and have been used in a variety of organic transformations. A major problem in the development of catalytic asymmetric conjugate additions of organolithium reagents to a,/3-unsaturated carbonyl compounds is that the high reactivity of RLi may cause both low chemoselectivity (1,2- vs. 1,4-addition) and low enantioselectivity. 

Silylketene acetals and enolsilanes can also undergo conjugate addition to a,/ -unsaturated carbonyl derivatives. This reaction is referred to as the Mukaiyama-Michael addition and can also be used as a mild and versatile method for C-C bond formation. As shown in Scheme 8-34, in the presence of C2-symmetric Cu(II) Lewis acid 94, asymmetric conjugate addition proceeds readily, giving product with high yield and enantioselectivity.75... 

Shibasaki s lanthanide-alkaline metal-BINOL system, discussed in Chapters 2 and 3, can also effect the asymmetric conjugate addition reaction. As shown in Scheme 8-35, enantioselective conjugate addition of thiols to a,/ -unsaturated carbonyl compounds proceeds smoothly, leading to the corresponding products with high yield and high ee.76... 

Although desirable, the recovery of a chiral auxiliary is not always crucial. Some techniques employ a, -unsaturated carbonyl compounds containing a disposable stereogenic center, which is removed after the (asymmetric) conjugate addition step has been performed. This concept appears to be useful only if the chiral substrate is easily accessible in high enantiomeric purity. 

The use of species 118 for the umpolung of a carbonyl group, the Stetter reaction, was demonstrated for the intramolecular asymmetric conjugate addition of a formyl group to the enoate moiety of 119 to give the cyclization product 120 in high ee and yield (Scheme 15) [64]. 

The anion of an aldehyde dithioacetal 5-oxide is well known to add to a,3-unsaturated carbonyl compounds. " Conjugate addition of formaldehyde di-p-tolyl dithioacetal 5-oxide (114) to open-chain and cyclic enones is achieved by using HMPA as a polar cosolvent in THF (-78 C)." The lithio derivative of (5)-(114) was found to add to 2-cyclopentenone with asymmetric induction. Transformation of the dithioacetal part into a formyl group gives 3-formylcyclopentanone in 39% enantiomeric excess (equation 28)." Interestingly, highly asymmetric induction is observed in the conjugate addition of the... 

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... 

Rigidified binuclear zinc chelates are formed, and their asymmetry promotes the facial diastereodifferentiation of the aldehyde carbonyl group in a highly enantiose-lective reaction ( 2.5.1,6.5.1). Chiral aminoalcohols and diamines are the most efficient ligands to promote asymmetric conjugate additions of lithio- or magne-siocuprates to a,p-unsaturated carbonyl compounds [112] ( 7.10.1). 

Asymmetric conjugate addition reactions of carbonyl compounds with a, -unsaturated systems are known. The simple amine a-methylbenzylamine 68 acts as both the activator (to give the imine and hence the enamine required for alkylation) and as the chiral auxiliary to effect neutral asymmetric conjugate-addition reactions. " Thus, condensation of (5)-a-methylbenzylamine 68 with 2-methylcyclohexanone, followed by addition of methyl acrylate (and hydrolysis of the product imine), gave the 2,2-disubstituted cyclohexanone 69 with high enantiomeric purity (1.78). 

The asymmetric conjugate addition of sulfur-based nucleophiles to Michael acceptors has been achieved using enantiomerically pure metal-based catalysts and organocatalysts. Sulfur nucleophiles are soft, and preferentially react by conjugate addition with a, p-unsaturated carbonyl compounds. Only catalytic amounts of the lithium thiolate (11.65) are required, since addition to the enone (11.66) generates the enolate (11.67). The enolate is then able to deprotonate thiol (11.68), regenerating thiolate (11.65) with formation of the product (11.69). 

Based on previously performed studies on p-turn peptides for asymmetric acylation reactions, the group of Miller expanded the application of such catalysts to the asymmetric conjugate addition of azides to a,p-unsaturated carbonyl compounds (Scheme 13.9a). A screening of several p-turn containing peptides disclosed catalyst 10 as the appropriate catalyst for the preparation of a series of p-azido-pyrrolidinone-derived imides in good yields and with enantioselectivities up to 85%. The obtained products can be further processed towards N-Boc-protected p-amino acids. Subsequent... 

Hanessian S, Gomtsyan A, Payne A, Herve Y, Beaudoin S (1993) Asymmetric Conjugate Additions of Chiral Allyl- and Crotylphosphonamide Anions to a,(3-Unsaturated Carbonyl Compounds Highly Stereocontrolled Access to Vicinally Substituted Carbon Centers and Chemically Asymmetrized Chirons. J Org Chtan 58 5032... 

Optically active sulfur containing compounds play a very important role in biochemistry as well as synthetic chemistry. The asymmetric conjugate addition of sulphur nucleophiles, or sulfa-Michael addition [379], provides a direct and versatile approach toward optically active sulfur compounds. This strategy is particularly valuable, since enantioselective nucleophilic additions to a C-S double bond, unlike those to carbonyls and imines, are not synthetically feasible. 

Michael additions [63] and is now established as a general strategy for the asymmetric conjugate addition of nucleophiles at the (3-position of a,(3-unsaturated carbonyl compounds. The standard catalytic cycle for a chiral pyrrolidine-catalyzed (3-functionalization of an a,(3-unsaturated carbonyl compound is shown in Scheme 2.12, and it begins with the acid-promoted condensation of the carbonyl with the amine to form an unsaturated iminium ion, more electrophilic than the starting unsaturated carbonyl. This reactive intermediate suffers then the addition of the nucleophile at the (3-position, leading to a (3-functionalized enamine in tautomeric equilibrium with an iminium ion. Hydrolysis of this intermediate releases both the product and the chiral ammonium salt, which can reenter the catalytic cycle. 

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