Henry reaction retro

The retro-Henry reaction of 2-nitrocycloalkanols gives co-nitro ketones, as shown in Eq. 5.23.38... 

Retro-Henry reaction. Cyclic p-nitro alcohols undergo fragmentation when heated Aith CuSOySiO in benzene to give nitroalkyl ketones. A suitable intermediate for the -ynthesis of phoracantholide-I is thus available. 

A cascade, including Michael addition, hemiketalization, and retro-Henry reaction, has been reported as a result of the reaction of a-nitroketones R COCH2N02 and the... 

The Henry (nitroaldol) reaction was reported under very mild reaction conditions, in aqueous media using a stoichiometric amount of a nitroalkane and an aldehyde, in NaOH 0.025 M and in the presence of cetyltrimethylammonium chloride (CTAC1) as cationic surfactant (Eq. 8.94) 240 Good to excellent yields of (i-nitroalkanol are obtained. Under these conditions several functionalities are preserved, and side-reactions such as retro-aldol reaction or dehydration of 2-nitroalcohols are avoided. 

Enzyme Catalyzed. The enzyme aldolases are the most important catalysts for catalyzing carbon-carbon bond formations in nature.248 A multienzyme system has also been developed for forming C-C bonds.249 Recently, an antibody was developed by Schultz and co-workers that can catalyze the retro-aldol reaction and Henry-type reactions.250 These results demonstrate that antibodies can stabilize the aldol transition state but point to the need for improved strategies for enolate formation under aqueous conditions. 

Scheme 5.64. Phosphinate transition-state analogue hapten. Henry type-retro-aldol reaction catalyzed by catalytic antibody.

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... 

Oxo-hept-5-enals undergo an organocatalytic one-pot reaction with nitromethane to give trisubstituted cyclohexanols with three contiguous chiral centres de of >98% is reported and ee up to 96%. The process is a tandem Henry-Michael, followed by a 0 tandem retro-Henry-Henry. Consistent with this sequence is the finding that the use of 0 the racemic Henry product as substrate gives similar final results. 

The domino Henry-Michael reaction of CH3NO2 with 7-oxo-hept-5-en-l-als RC0CH=CH(CH2)3CH=0, catalysed by the quinine-derived thiourea (288b) (<96% ee), followed by the tetramethyl guanidine (TMG)-catalysed retro-Henry-Henry reaction of the initially formed disubstituted cyclohexanols, led to a refinement of diastereoselectivity (to >99 1 dr) ... 

Scheme 2.34 Tandem Henry-Michael-retro-Heniy reaction catalysed by a chiral cinchona alkaloid thiourea and 1,1,3,3-tetramethyl guanidine.

Organocatalytic Henry reactions with synthetically useful levels of yields and enantioselectivities came a decade later with the independent work of Nagasawa and Hiemstra. Nagasawa used guanidinium salt/thiourea brfimctional catalyst 2 for the reaction of nitromethane or nitroethane with aliphatic aldehydes (no reaction was observed when aromatic aldehydes were used) [7]. The reaction works under PTC with the assistance of KOH, and to overcome the retro-nitroaldol reaction K1 as an additive was required (Scheme 29.2). Two years later, the same group extended this reaction to nitroalkanes other than nitromethane, a process that yields the corresponding xyn-nitroalcohols preferentially. 

The enantioselective Henry reaction with ketones is challenging, owing to the attenuated reactivity of the ketone carbonyl group compared to the aldehyde carbonyl moiety and the high tendency of tertiary nitro-aldol adducts to undergo a retro-addition reaction under basic conditions [15], Stereoselective construction of... 

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