Cyclohexanone stereoselectivity

Synthetically useful stereoselective reductions have been possible with cyclic carbonyl compounds of rigid conformation. Reduction of substituted cyclohexanone and cyclopentan-one rings by hydrides of moderate activity, e.g. NaBH (J.-L. Luche, 1978), leads to alcohols via hydride addition to the less hindered side of the carbonyl group. Hydrides with bulky substituents 3IQ especially useful for such regio- and stereoselective reductions, e.g. lithium hydrotri-t-butoxyaluminate (C.H. Kuo, 1968) and lithium or potassium tri-sec-butylhydro-borates or hydrotri-sec-isoamylborates (=L-, K-, LS- and KS-Selectrides ) (H.C. Brown, 1972 B C.A. Brown, 1973 S. Krishnamurthy, 1976). 

The stereoselective reactions in Scheme 2.10 include one example that is completely stereoselective (entry 3), one that is highly stereoselective (entry 6), and others in which the stereoselectivity is modest to low (entries 1,2,4, 5, and 7). The addition of formic acid to norbomene (entry 3) produces only the exo ester. Reduction of 4-r-butylcyclohexanone (entry 6) is typical of the reduction of unhindered cyclohexanones in that the major diastereomer produced has an equatorial hydroxyl group. Certain other reducing agents, particularly sterically bulky ones, exhibit the opposite stereoselectivity and favor the formation of the diastereomer having an axial hydroxyl groi. The alkylation of 4-t-butylpiperidine with benzyl chloride (entry 7) provides only a slight excess of one diastereomer over the other. 

Cyanoallene, when treated with the morpholine enamine of cyclohexanone, undergoes a 1,3-cycloaddition reaction to form 72 (89). The reaction between cyanoallene and diendiamine 73a produces di-1,2-cycloaddition adduct 73 (i 9). The 4a-azonioanthracene ion (73b) readily undergoes a 1,4-cycloaddition reaction with nucleophilic dienophiles such as enamines (89a). The cycloaddition is stereoselective so that the a- and... 

When an enolate is forced to take the E configuration, e.g, the enolate derived from cyclohexanone, predominant formation of the anti-aldol might be expected. Surprisingly, early experiments gave more or less stereorandom results in that the reaction with benzaldehyde gave a ratio of. vvtt/ant/ -aldols of 48 521B 23, Contrarily, recent investigations24 reveal a substantial anti selectivity (16 84), which is lowered in a dramatic manner (50 50) by the presence of lithium salts. Thus, the low stereoselectivity in the early experiments may be attributed to impurities of lithium salts or lithium hydroxide. 

Substituted 1-hydroxy cyclohexane-1-carboxyhc acids, which could be prepared from the corresponding cyanohydrins by acid hydrolysis as described above, are important as pharmaceuticals and plant-protective agents. Although the compounds derived from 2- and 3-cyclohexanones have two stereogenic centers, stereoselective syntheses of these interesting products have been published only very recently. " Completely unexpected are the results of HNL-catalyzed additions to 4-substituted cyclohexanones, which do not possess a prochiral center. The (R)-PaHNL-catalyzed addition affords almost exclusively fran -isomers, whereas with (5 )-MeHNL cA-addition is favored (Table 4). ... 

Stereoselective oxygen transfer to the sulphur atom of alkyl aryl sulphides catalyzed by 2-flavoenzyme monooxygenases afforded optically active sulphoxides in high optical yields . For instance, with ethyl p-tolyl sulphide as substrate cyclohexanone monooxygenase from Actinetobacter produces predominantly (— )-(S)-sulphoxide with 64% e.e. In contrast, FAD-containing dimethylaniline monooxygenase purified from hog liver microsomes affords (+ )-(i )-enantiomer of this sulphoxide with 90% optical purity . ... 

The enolates derived from cyclic ketones are necessarily /(-isomers. The enolate of cyclohexanone reacts with benzaldehyde to give both possible stereoisomeric products. The stereoselectivity is about 5 1 in favor of the anti isomer under optimum... 

A DFT study found a corresponding TS to be the lowest energy.167 This study also points to the importance of the solvent, DMSO, in stabilizing the charge buildup that occurs. A further computational study analyzed the stereoselectivity of the proline-catalyzed aldol addition reactions of cyclohexanone with acetaldehyde, isobu-tyraldehyde, and benzaldehyde on the basis of a similar TS.168 Another study, which explored the role of proline in intramolecular aldol reactions, is discussed in the next section.169... 

Another difference between dimethylsulfonium methylide and dimethylsulfoxonium methylide concerns the stereoselectivity in formation of epoxides from cyclohexanones. Dimethylsulfonium methylide usually adds from the axial direction whereas dimethylsulfoxonium methylide favors the equatorial direction. This result may also be due to reversibility of addition in the case of the sulfoxonium methylide.92 The product from the sulfonium ylide is the result the kinetic preference for axial addition by small nucleophiles (see Part A, Section 2.4.1.2). In the case of reversible addition of the sulfoxonium ylide, product structure is determined by the rate of displacement and this may be faster for the more stable epoxide. 

With less hindered hydride donors, particularly NaBH4 and LiAlH4, confor-mationally biased cyclohexanones give predominantly the equatorial alcohol, which is normally the more stable of the two isomers. However, hydride reductions are exothermic reactions with low activation energies. The TS should resemble starting ketone, so product stability should not control the stereoselectivity. A major factor in the preference for the equatorial isomer is the torsional strain that develops in the formation of the axial alcohol.117... 

Wittig-type olefination has been reported. The reaction is thought to involve the salt (47) and shows little stereoselectivity. 2.2.2 Ketones.- The stereochemistry of olefination of 2,3-epoxy- and protected 2-hydroxy cyclohexanones with ethylidenetriphenyl-... 

The stereoselective intramolecular Henry reactions have been reported by Seebach. The Michael addition of doubly deprotonated acetyl acetaldehyde to l-methylenedioxyphenyl-2-nitroethene followed by subsequent intramolecular nitro-aldol cyclization leads to the diastereomerically pure cyclohexanone derivative, where the nitro and OH groups are cis as shown in Eq. 3.73.114 This reaction is applied to the synthesis of l-desoxy-2-lycorinone as shown in Eq. 3.74.115... 

The two-phase reduction of cyclohexanones by sodium dithionite in the presence of a stoichiometric amount of Adogen gave higher yields of the cyclohexanols than those obtained by the standard procedure using sodium dithionite in a water dioxane system (Table 11.9). A marked improvement in yield was also observed with the reduction of sterically hindered 2,6-dimethylcyclohexanone and there was a greater degree of stereoselectivity, which was comparable to that noted for the corresponding reduction with the borohydride ion [4]. 

The interplay between solvent polarity and boron ligand structure in the enhancement of aldol stereoselection has been examined in several systems (6). The representative trends that have been noted for the boryl enolates derived from both cyclohexanone and tert-butyl thiopropionate (eqs. [49] and [50]) are summarized in Table 21. 

Stereoselective Synthesis of )0-Hydroxy Sulfoxides Catalyzed by Cyclohexanone Monooxygenase... 

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