Cinchona asymmetric Henry reaction

Scheme 6.146 Representative adducts obtained from the asymmetric Henry reaction between nitromethane and (hetero)aromatic aldehydes under bifunctional catalysis of C6 -thiourea-functionalized cinchona alkaloid 131.

Functionalization of the cinchona structure with a thiourea at the C6 position of the quinolone ring was demonstrated shortly after development of the C9 derivatives [69]. The transformation of the C6 methoxy group into a thiourea bearing a 3,5-di(trifluoromethyl)phenyl group, without affecting the stereochemistry at C9, resulted in a highly effective organocatalyst for the asymmetric Henry reaction of nitromethane with aromatic aldehydes (Scheme 6.28). 

Table 29.2 Asymmetric Henry reaction of ketones catalyzed by cinchona-derived catalysts.

Aza-Henry reaction is rendered asymmetric by quaternary salts of Cinchona alkaloids. Addition reactions. Changing the 9-hydroxy group of Cinchona alkaloids to a 9-epiamino group not only is synthetically expedient, such products often show excellent catalytic activities in many asymmetric reactions. Those derived from dihydrocinchona alkaloids mediate Michael reactions to good results, including addition of indole to enones, and carbonyl compounds to nitroalkenes. Salt 4 has also been successfully employed in the alkenylation of t-butyl a-aryl-a-cyanoacetate. ... 

Catalytic asymmetric nitroaldol (Henry) reactions of ketones lead to synthetically versatile chiral tertiary nitroaldols. Enantioselective nitroaldol reactions of a-keto esters have been achieved using chiral Cu and Mg complexes, and cinchona alkaloids [140]. However, there are no reports on the asymmetric synthesis of tertiary nitroaldols derived from simple ketones. Even for a racemic version, only a few methodologies with limited substrate scope are available. The difficulty arises from the attenuated reactivity of ketones and their strong tendency toward a retro-nitroaldol reaction under basic conditions. (S)-LLB catalyst was found suitable to promote retro-nitroaldol reaction and a kinetic resolution of racemic tert-nitroaldols was realized. (S)-LLB preferentially converted the matched (R)-enantiomer into ketone and nitromethane, whereas the mismatched (S)-enantiomer remained unchanged and was recovered in an enantiomerically... 

A dihydroquinidine-derived chiral thiourea (DHQD-30), which demonstrated significantly better stereocontrol than other cinchona alkaloids, was utilized in the aza-Henry reaction with nitroalkanes and aldimines by Schaus and coworkers (Scheme 13.8) [26]. The utility of the nitroethane pronucleophile conveniently offers a tertiary stereogenic center in the P-nitroamine product 32. The methodology is also conveniently applicable to novel a,P-unsaturated aliphatic imines 29, which are difficult substrates in asymmetric conjugate addition reactions. Similar reaction conditions can be appHed towards to the use of dimethyl malonates as pronucleophiles that generate adducts in high enantioselectivity, which then convert smoothly into P-amino esters under the Nef conditions. 

Fluorinated amino acids and amino alcohols have shown extensive biological activity [18]. In 2008, the Bandini and Umani-Ronchi group developed an efficient Henry reaction between nitromethane and fluoromethyl ketones catalyzed by cinchona alkaloids [19]. They showed that benzoylcupreines bearing electron-withdrawing substituents at the C9 position of the catalyst structure are essential for good results (Table 29.2,14 versus 15). Remarkably, comparable levels of asymmetric induction could be obtained with both aromatic and aliphatic ketones. 

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