Enantioselectivity conjugation

Copper-catalyzed Enantioselective Conjugate Addition Reactions of Organozinc Reagents... 

The reaction of butyllithium with 1-naphthaldehyde cyclohexylimine in the presence of (/C )-l,2-diphenylethane-1,2-diol dimethyl ether in toluene at —78 °C, followed by treatment with acetate buffer, gave 2-butyl-1,2-dihydronaphthalene-l-carbaldehyde, which was then reduced with sodium borohydride in methanol to afford (1 R,2.S)-2-butyl-1 -hydroxymcthyl-1,2-dihydronaphthalene in 80% overall yield with 91 % ee83. Similarly, the enantioselective conjugate addition of organolithium reagents to several a,/J-unsaturated aldimines took place in the presence of C2-symmetric chiral diethers, such as (/, / )-1,2-butanediol dimethyl ether and (/, / )- ,2-diphenylethane-1,2-diol dimethyl ether. 

Combination of nickel bromide (or nickel acetylacetonate) and A. A -dibutylnorephcdrinc catalyzed the enantioselective conjugate addition of dialkylzincs to a./Tunsaturated ketones to afford optically active //-substituted ketones in up to ca. 50% ee53. Use of the nickel(II) bipyridyl-chiral ligand complex in acetonitrile/toluenc as an in situ prepared catalyst system afforded the //-substituted ketones 2, from aryl-substituted enones 1, in up to 90% ee54. 

Ferrocen-l,l -diylbismetallacycles are conceptually attractive for the development of bimetal-catalyzed processes for one particular reason the distance between the reactive centers in a coordinated electrophile and a coordinated nucleophile is self-adjustable for specific tasks, because the activation energy for Cp ligand rotation is very low. In 2008, Peters and Jautze reported the application of the bis-palladacycle complex 56a to the enantioselective conjugate addition of a-cyanoacetates to enones (Fig. 31) [74—76] based on the idea that a soft bimetallic complex capable of simultaneously activating both Michael donor and acceptor would not only lead to superior catalytic activity, but also to an enhanced level of stereocontrol due to a highly organized transition state [77]. An a-cyanoacetate should be activated by enolization promoted by coordination of the nitrile moiety to one Pd(II)-center, while the enone should be activated as an electrophile by coordination of the olefinic double bond to the carbophilic Lewis acid [78],... 

A series of chiral p-hydroxysulfoximine ligands have been synthesised by Bolm et al. and further investigated for the enantioselective conjugate addition of ZnEt2 to various chalcone derivatives. The most eiScient sulfoximine, depicted in Scheme 2.33, has allowed an enantioselectivity of up to 72% ee to be obtained. These authors assumed a nonmonomeric nature of the active species in solution, as suggested by the asymmetric amplification in the catalysis with a sulfoximine of a low optical purity. 

A number of other chiral catalysts can promote enantioselective conjugate additions of silyl enol ethers, silyl ketene acetals, and related compounds. For example, an oxazaborolidinone derived from allothreonine achieves high enantioselectivity in additions of silyl thioketene acetals.323 The optimal conditions for this reaction also include a hindered phenol and an ether additive. 

Scheme 8.7. Catalytic Enantioselective Conjugate Addition to Cyclohexenone...

Seebach and coworkers have developed enantioselective conjugate additions of primary dialkylzinc reagents to 2-aryl- and 2-heteroaryl-nitroalkenes mediated by titanium-TADDO-Lates (Eq. 4.90). x a TADDOLs and their derivatives are excellent chiral auxiliaries.9611... 

More recently, Maruoka and co-workers have reported several new phase-transfer catalysts one of which incorporates a morpholine ring as part of an azoniaspirocyclic core 161 <2007TL4675>. These were employed in the catalytic enantioselective conjugate addition of a-benzylcyanoacetate to acetylenic methyl ketone under phase transfer conditions. 

Table 1 Enantioselective conjugate addition to acyclic enones...

The enantioselective conjugate addition of dialkylzinc to nitroalkenes using other phosphoramidite,79,79a 83a sulfonamide,84 and binaphthol-based thioether ligands65 has also been studied in the past few years. Particularly noteworthy are the efficient chiral monodentate phosphoramidite ligands (S,R,R)-29 and (A,A)-55 developed by Feringa et al. and Alexakis et al., respectively, for this reaction. (S,R,R)-29 provided excellent enantioselectivities (up to 98% ee) for acyclic nitroalkenes (Scheme 25).80 It also worked well for other nitroolefin substrates such as 3-nitrocoumarin 7068 and methyl 3-nitropropenoate 7185. 

Ojima and co-workers found that chiral monodentate phosphoramidite (S,R,R)-35 was highly effective for the enantioselective conjugate addition of diethylzinc to acyclic nitroalkenes (up to 99% ee).86... 

Feringa, B. L. Naasz, R. Imbos, R. Arnold, L. A. Copper-catalyzed Enantioselective Conjugate Addition Reactions of Organozinc Reagents. In Modem Organocopper Chemistry Krause, N. Ed. Wiley-VCH GmbH Weinheim, 2002 Chapter 7, pp 224—258. 

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... 

Enantioselective conjugate addition of cuprates. This enantioselective reaction has been demonstrated using the amino alcohol 1, prepared by reaction of (2-chloroethyl)dimethylamine with(lR,2S)-(-)ephedrine, as a ligand.1 The cuprates obtained from 1 by deprotonation (RLi), reaction with CuI-S(CH,)2, and... 

Scheme 35 Fluxional template for radical enantioselective conjugate additions...

A recent application of enantioselective conjugate radical additions was seen in the synthesis of (+)-ricciocarpins A and B [95]. The key step in the synthesis was an asymmetric addition of a functionalized radical precursor 141 to afford intermediate 142 (Scheme 37). A chiral catalyst screening revealed that Mgt and bisoxazoline ligand 19 was optimal for achieving... 

Scheme 37 Application of enantioselective conjugate radical addition total synthesis of Ricciocarpin A and B...

Scheme 39 Acetate aldols by enantioselective conjugate radical additions... 

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