Cyclohexanone Michael addition

The reaction of a cyclic ketone—e.g. cyclohexanone 1—with methyl vinyl ketone 2 resulting in a ring closure to yield a bicyclic a ,/3-unsaturated ketone 4, is called the Robinson annulation This reaction has found wide application in the synthesis of terpenes, and especially of steroids. Mechanistically the Robinson annulation consists of two consecutive reactions, a Michael addition followed by an Aldol reaction. Initially, upon treatment with a base, the cyclic ketone 1 is deprotonated to give an enolate, which undergoes a conjugate addition to the methyl vinyl ketone, i.e. a Michael addition, to give a 1,5-diketone 3 ... 

Fusion of an all cyclic ring onto the piperidine so as to form a perhydroisoquinoline is apparently consistent with analgesic activity. Synthesis of this agent, ciprefadol (68), starts with the Michael addition of the anion from cyclohexanone 56 onto acrylonitrile (57). Saponification of the nitrile to the corresponding acid ( ) followed by Curtius rearrangement leads to isocyanate Acid... 

Aldol condensation of the methoxymethyl ether of m-methoxybenzaldehyde (83) with cyclohexanone affords the conjugated ketone 84. Michael addition of dimethyl amine leads to the ami noketone Reduction of the ketone... 

A fully unsaturated tricyclic indole derivative serves as the aromatic moiety for a nonsteroid antiinflammatory agent. Preparation of this compound starts with the Michael addition of the anion from methyl diethylmalonate to cyclohexanone. The product (32) is then hydrolyzed and decarboxylated to give ketoester 33. Fischer condensation with p-chlorophenylhydrazine leads to the indole This is then esterified (35) and dehydrogenated to the carbazole 36. Saponification leads... 

The net effect of the Stork reaction is the Michael addition of a ketone to an cn/3-unsaturated carbonyl compound. For example, cyclohexanone reacts with the. cyclic amine pyrrolidine to yield an enamine further reaction with an enone such as 3-buten-2-one yields a Michael adduct and aqueous hydrolysis completes the sequence to provide a 1,5-diketone (Figure 23.8). 

Using 3-substituted cyclohexanones the /rans-diastereoselective synthesis of decalones and octahydro-1 //-indenones may be achieved 164 169. This method has been applied, for instance, in the synthesis of 19-norsteroids. In a related Michael addition the lithium enolate of (R)-5-trimethylsilyl-2-cyclohexenone reacts with methyl 2-propenoate selectively tram to the trimethylsilyl substituent. Subsequent intramolecular ring closure provides a single enantiomer of the bicyclo[2.2.2]octane170 (see also Section 1.5.2.4.4.). 

The Michael additions of chiral cycloalkanone imines or enamines, derived from (FV l-l-phcnyl-ethanamine or (5)-2-(methoxymethyl)pyrrolidine, are highly diastereofacially selective reactions providing excellent routes to 2-substituted cycloalkanones. This is illustrated by the addition of the enamine of (S)-2-(methoxymethyl)pyrrolidine and cyclohexanone to 2-(aryl-methylene)-l,3-propanedioates to give, after hydrolysis, the (2 5,a.S )-oxodicstcrs in 35-76% yield with d.r. (2 S,aS)/(2 S,a/ ) 94 6- > 97 3 and 80-95% ee214. 

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... 

Ono and coworkers have extended the radical elimination of v/c-dinitro compounds to P-nitro sulfones151 and P-nitro sulfides.138,152 As P-nitro sulfides are readily prepared by the Michael addition of thiols to nitroalkenes, radical elimination of P-nitrosulfides provides a useful method for olefin synthesis. For example, cyclohexanone is converted into allyl alcohol by the reaction shown in Eq. 7.110. Treatment of cyclohexanone with a mixture of nitromethane, PhSH, 35%-HCHO, TMG (0.1 equiv) in acetonitrile gives ahydroxymethylated-P-nitro sulfide in 68% yield, which is converted into the corresponding allyl alcohol in 86% yield by the reaction with Bu3SnH.138 Nitro-aldol and the Michael addition reactions take place sequentially to give the required P-nitro sulfides in one pot. 

The use of oxygen-containing dienophiles such as enol ethers, silyl enol ethers, or ketene acetals has received considerable attention. Yoshikoshi and coworkers have developed the simple addition of silyl enol ethers to nitroalkenes. Many Lewis acids are effective in promoting the reaction, and the products are converted into 1,4-dicarbonyl compounds after hydrolysis of the adducts (see Section 4.1.3 Michael addition).156 The trimethylsilyl enol ether of cyclohexanone reacts with nitrostyrenes in the presence of titanium dichloride diisopropoxide [Ti(Oi-Pr)2Cl2], as shown in Eq. 8.99.157 Endo approach (with respect to the carbocyclic ring) is favored in the presence of Ti(Oi-Pr)2Cl2. Titanium tetrachloride affords the nitronates nonselectively. 

Compound 197 has been treated with carbonyl-containing derivatives such as cyclohexanone and 3-methyl-l-phenylpyrazol-5-one, in refluxing ethanol containing some drops of piperidine as catalyst, in order to promote Michael additions leading to spiro derivatives 198 and 199, where an acetyl group has been eliminated during the process (Scheme 8) <2000FES641>. 

The regio- and diastereo-selectivity of the Michael addition of 2-phenylcyclo-hexanone with a,p-unsaturated ketones are dependent on the reaction conditions. Mixtures of all six diastereoisomers resulting from reaction at either the 2- or 6-position of the cyclohexanone ring can be obtained using solid potassium hydroxide with tetra-n-butylammonium or A-benzylephcdrinium bromide catalysts. At 20°C with tetra-n-butylammonium bromide, the ratio of the 2,2- and 2,6-disubstituted cyclohexanones is ca. 3 2, but at higher temperatures with solid potassium f-butoxide the kinetically formed 2,6-isomer predominates (ca. 5 1) with the (2S,6R, R )-stereoisomer dominant, whereas greater amounts of the thermodynamically preferred 2,2-(2S,lR )-isomer are obtained with the chiral catalyst [61]. 

Cathodic reduction of 1,3-diphenyl-propenone leads to l-hydroxy-2-benzoyl-3,4-diphenyl cyclopentanes with exclusive cis configuration of the two phenyl groups. With l-phenyl-l-pentene-3-one the cyclodimer 2-methyl-3,5-diphenyl-4-(l-propionyl)-cyclohexanone is formed with a 100% yield in an intramolecular Michael addition via an electrogenerated base. The substituents are all in the most stable equatorial position [277]. 

Michael addition of cyclohexanones to methyl vinyl ketone followed by intramolecular aldol condensation to afford six-membered a,(3-unsaturated ketones. 

The potential application of this catalytic system was illustrated by Takemoto in the application to a tandem conjugate addition towards the asymmetric synthesis of (-)-epibatidine, a biologically active natural product [100, 101], The authors designed an enantioselective double Michael addition of an unsaturated functionalized P-ketoester to a p-aryl nitro-olefm. The asymmetric synthesis of the 4-nitro-cyclohexanones was achieved in both high diastereoselectivity and enantioselectivity, with the natural product precursor synthesized in 90% yield and 87.5 12.5 er (Scheme 49). The target (-)-epibatidine was subsequently achieved in six steps. 

Application of this work to a domino process using 51 involves Michael addition of P-ketoesters [91], p-diketones or P-ketosulfones [92] to a,P-unsaturated ketones followed by an intramolecular aldol reaction provides highly functionalised cyclohexanone building blocks with up to four contiguous chiral centres. Gryko has also reported examples of this domino Michael/intramolecular aldol reaction in the coupling of 1,3-diketones and methyl vinyl ketone using L-proUne as catalyst [93],... 

Furthermore, to clarify the difference between task specific ionic hquids (or also called functionahzed ionic hquids) and chiral ionic hquids, one very successful example of a task specific ionic hquid 63 is presented in Scheme 65. This catalyst with a loading of 15 mol% under neat conditions gave up to 100% yield and 99% ee in the Michael addition of cyclohexanones to nitroolefms [179]. This catalyst belongs to the field of the prohne catalyzed reactions. 

Two new types of optically active 1,3-oxazines (41) were synthesized by Rassat and Rey (74T265, 74T3315). The epimeric 1,3-amino alcohols 40, prepared from (-l-)-pulegone 39 by Michael addition of ammonia and subsequent reduction, were cyclized with acetone, cyclohexanone, and 4-tert-... 

Mettler and colleagues reported an alternative synthesis of malonate 16 in the same paper (Griffiths et al., 1991) in which they condensed cyclohexanone with ethyl cyano-acetate instead of diethyl malonate in the Knoevenagel reaction to give ethyl cyano(cyclohexylidene)-acetate (18). In the presence of a catalytic amount of sodium cyanide, the Michael addition of HCN to cyanoacetate 18 proceeded in good yield at room temperature to generate the dicyanoester 19. Intermediate 19 was selectively converted to malonate 16 with pressurized HCI treatment in ethanol (Scheme 16.4). 

In related asymmetric Michael-additions of enamine (206) and 2-aryl- 1-nitro-ethylenes, only one of the four possible enantiomerically pure diastereomers was formed 204). Hydrolysis of the crude primary products furnished a-alkylated cyclohexanones of > 90 % enantiomeric excess 204). 

A fused tricyclic ring system based on an indole provides yet another NSAID. Michael addition of the anion from diethyl methylmalonate to cyclohexanone followed by acid hydrolysis of the product gives cyclohexanone (21-3), which incorporates the characteristic profen 2-substituted carboxylic side chain. Sequential reaction with para-chlorophenylhydrazine and a strong acid gives the fused indole... 

Problem 17.49 The Robinson annelation reaction for synthesizing fused rings uses Michael addition followed by intramolecular aldol condensation. Illustrate with cyclohexanone and methyl vinyl ketone, CHj=CHCOCH,. <... 

The above is an example of the Guareschi reaction. It is applicable to most dialkyl ketones and to alicyclic ketones (e.g., cyclohexanone, cyclopentanone, etc.). The condensation product (I) is probably formed by a simple Knoe-venagel reaction of the ketone and ethyl cyanoacetate to yield ethyl a-cyano-PP-dimethylacrylate (CH2)2C=C(CN)COOC2H6, followed by a Michael addition of a second molecule of ethyl cyanoacetate finally, the carbethoxyl groups are converted to the cyclic imide structure by the action of ammonia. 

The fused tetrahydropyran-2-one (566) is obtained from 2-methylcyclohexanone by Michael addition to methyl prop-2-enoate and reduction of the resulting keto ester (565 Scheme 216) (63JOC34). When the enamine derived from the cyclohexanone reacts with the unsaturated ester, a mixture of keto esters (565) and (567) is formed. The pyranone (568) is formed by reduction of the latter. 

Bicyclic keto esters can easily be prepared by a process called a,a -annulation.29 Thus, treatment of the enamine of cyclopentanone (64) with ethyl a-(bromomethyl)acrylate (98) affords, after work-up, the bicyclic keto ester (99) in 80% yield (equation IS).2911 The mechanism probably involves an initial Michael addition and elimination (or a simple Sn2 or Sn2 alkylation) followed by an intramolecular Michael addition of the less-substituted enamine on the acrylate unit. The use of the enamine of 4,4-bis(ethoxycarbonyl)cyclohexanone (100 equation 26) with (98) gives a 45% yield of the adaman-tanedione diester (101) (yield based on 100 70% when based on 98) via a,a -annulation followed by Dieckmann condensation.29 Enamines of heterocyclic ketones can also serve as the initial nucleophiles, e.g. (102) and (103) give (105) via (104), formed in situ, in 70% yield (Scheme 11 ).29>... 

Nitrones can be generated by Michael reaction of oximes with appropriate conjugated substrates.25 If a generated nitrone has a built-in dipolarophile, cyclization can ensue (Scheme 15). There are three synthetic variations on this theme.25a,b First, the oxime may contain the dipolarophile as in (56). Reaction of (56) with phenyl vinyl sulfone provided a quantitative yield of the tandem product as one stereoisomer. Alternatively, die dipolarophile can reside in the Michael substrate as in (57). Reaction of (57) with cyclohexanone oxime produced two isoxazolidines from competitive cyclization of the intermediate nitrone through six- and seven-membered carbocyclic transition states. It is also possible to carry out an intramolecular Michael addition followed by an intramolecular nitrone cyclization as in thermolysis of (58) to produce a tricyclic isoxazolidine. Very recently several examples of a tandem Diels-Alder, Michael addition, nitrone cyclization sequence have been reported.250... 

The initial Michael addition step is a modified and improved version of a procedure originally developed by Farmer and Ross.3 The second step involving acid-catalyzed dehydration of the cyclohexanone-3-acetic acid is adapted from earlier work developed for the desmethyl series.5... 

Kotsuki et al.909 have developed a method to effect the Michael addition of [3-ketoesters with ethyl acrylate in the presence of triflic acid under solvent-free conditions [Eq. (5.335)]. Nonactivated cyclohexanones as Michael donors and a,/3-unsaturated ketones as acceptors are also reactive. The use of menthyl acrylates did not result in any significant asymmetric induction. 

Asymmetric Michael addition to to-nitrostyrenes,2 The enamine (2) formed from cyclohexanone and this prolinol derivative reacts with 2-aryl-1-nitroethylenes (3) to form, after acid hydrolysis of the primary adduct, essentially only one (4) of the four possible y-nitro ketones. 

Michael addition.1 This ketene silyl acetal undergoes Michael addition to a,fl-enones in acetonitrile in the absence of a Lewis acid to afford the corresponding O-silylated Michael adduct in high yield. These O-silyl enolates undergo site-specific electrophilic substitution. This sequence was used for vicinal dialkylation of cyclohexanone (equation I) and of cyclopentanone. It is particularly useful for synthesis of methyl jasmonate and related compounds from cyclopentenone. 

A pyrrolidine-thiourea organocatalyst (69) facilitates Michael addition of cyclohexanone to both aryl and alkyl nitroalkenes with up to 98% de and ee 202 The bifunctional catalyst (69) can doubly hydrogen bond to the nitro group, leaving the chiral heterocycles positioned for cyclohexyl enamine formation over one face of the alkene. 

In another study Feringa et al. [20] reported a catalytic enantioselective three-component tandem conjugate addition-aldol reaction of dialkyl zincs. Here, zinc enolates were generated in situ via catalytic enantioselective Michael addition of dialkylzinc compounds to cydohexenone in the presence of a chiral Cu catalyst. Their diastereoselective reaction with an aldehyde then gave trans-2,3-disubstituted cyclohexanones in up to 92% yields and up to >99% ees (Scheme 9.11). 

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