Michael addition of /?-dicarbonyls

In addition to an earher report by another group, " FeCla has now been foimd to catalyse Michael addition of ) -dicarbonyl compounds to highly reactive enones (CHj CHCOMe, PhCH CHCOMe, PhCH COPh). ... 

Squaramides offer yet another variant of the bis-NH proton donor with different geometry compared to thioureas and their congeners. Thus, the quinine-derived squaramide (238b) can catalyse Michael addition of -dicarbonyls to ArCH=CHN02. Here, brine has been found to provide remarkable rate acceleration and a higher level of stereoselectivity (>98% ee) over organic solvents, presumably because of the hydrophobic hydration effect. ... 

It is to be noted that Michael additions of dicarbonyl compounds and nitroalkanes to 2-cyclohexen-l-one occurred in water without phase transfer agents by careful control of the pH of the solution. ... 

The Michael additions of dicarbonyl compounds, nitroalkanes, and thiols to cyclo-hex-2-en-l-one can now be accomplished in water without phase-transfer agents. The reaction is extremely sensitive to the pH, with the optimum being specific for each particular nucleophile. ... 

A dramatic enhancement of stereoselectivity has been observed when using as a solvent for the Michael addition of / -dicarbonyls to nitroalkenes, catalysed by (325). Thus, in toluene, the reaction afforded the product with 5 1 dr and 46% ee, whereas in CsFg these figures were improved to 24 1 dr and 90% ee. DFT calculations were employed to rationalize the origin of this effeet. ... 

Strategy The overall result of an enamine reaction is the Michael addition of a ketone as donor to an cr,/3-unsaturated carbonyl compound as acceptor, yielding a 1,5-dicarbonyl product. The C—C bond made in the Michael addition step is the one between the a- carbon of the ketone donor and the /3 carbon of the unsaturated acceptor. 

Example The lactone (8>, needed for a natural product synthesis, might be made from (6) via epoxide (7) and so a synthesis for (6) was required. Wittlg disconnection reveals a 1,5-dicarbonyl compound (9), best made by Michael addition of a substituted malonate (11) to enone (10). The enone was made by the simple but reliable Grignard route rather than risking a Mannich reaction of unknown regloselectivity. 

In a similar way, lipases catalyze Michael addition of amines, thiols [110], and even 1,3-dicarbonyl derivatives [111, 112] to a,/ -unsaturated carbonyl compounds (Scheme 5.21). 

Ethyl ethylthiomethyl sulphoxide anion 325 has been found to give better yield of 1,4-adducts compared with its methyl analogue . This anion has been used by Schlessinger and coworkers as a key reagent in the synthesis of 1,4-dicarbonyl precursors of naturally occurring cyclopentenones, e.g. dihydrojasmone 379 (equation 219). Michael addition of the anion of optically active (-l-)-(S)-p-tolyl p-tolylthiomethyl sulphoxide 380 to the properly substituted cyclopentenone constitutes an important step in the asymmetric synthesis of optically active cyclopentenone 381, which is a precursor of 11-deoxy-ent-prostanoids (equation 220). The reaction proceeds with a high and y-asymmetric induction (92%), but with a poor a-stereoselection (52 48). 

It is assumed that the overall process is initiated by a Michael addition of the 1,3-dicarbonyl compound onto the ci,(5-uri saturated carbonyl derivative. There follows the formation of either an aminal and an iminium intermediate which is followed by the formation of two N.O-acetals. 

The asymmetric Michael addition of 1,3-dicarbonyl compounds to nitrostyrene is promoted by chiral alkaloid catalysts to give the addition products in good chemical yield, but the enantioselectivity is rather low (Eq. 4.47).62... 

The Michael addition of nitroalkanes to a,P-unsaturated ketones followed by the Nef reaction has been extensively used as a method for the conjugated addition of acyl anions to enones (see Section 6.1, Nef Reaction). This strategy is one of the best methods for the preparation of 1,4-dicarbonyl compounds.156a h Various natural products have been prepared via this route.157 For example, r/.v-jasmone is prepared from readily available materials, as shown in Scheme 4.19.156f... 

As depicted in the following scheme, in the presence of sodium iodate and pyridine, several 5,6-dihydroxylated benzofuran derivatives were synthesized via an oxidation-Michael addition of P-dicarbonyl compounds to catechols in a one-pot procedure <06TL2615 06JHC1673>. A novel additive Pummerer reaction of 2-benzo[fc]furan sulfilimines with carbon nucleophiles derived from P-dicarbonyl compounds was also employed to the synthesis of 2,3-disubstituted benzo[b]furans <06TL595>. 

Selective formation of 1,5-dicarbonyl compounds by 1,4-addition (Michael addition) of enolates to enones is facilitated by the use of enol silyl ethers as enolate equivalents [37]. The reaction is catalyzed by... 

During the coverage period of this chapter, reviews have appeared on the following topics reactions of electrophiles with polyfluorinated alkenes, the mechanisms of intramolecular hydroacylation and hydrosilylation, Prins reaction (reviewed and redefined), synthesis of esters of /3-amino acids by Michael addition of amines and metal amides to esters of a,/3-unsaturated carboxylic acids," the 1,4-addition of benzotriazole-stabilized carbanions to Michael acceptors, control of asymmetry in Michael additions via the use of nucleophiles bearing chiral centres, a-unsaturated systems with the chirality at the y-position, and the presence of chiral ligands or other chiral mediators, syntheses of carbo- and hetero-cyclic compounds via Michael addition of enolates and activated phenols, respectively, to o ,jS-unsaturated nitriles, and transition metal catalysis of the Michael addition of 1,3-dicarbonyl compounds. ... 

Dicarbonyl compounds are widely used in organic synthesis as activated nucleophiles. Because of the relatively high acidity of the methylenic C—H of 1,3-dicarbonyl compounds, most reactions involving 1,3-dicarbonyl compounds are considered to be nucleophilic additions or substitutions of enolates. However, some experimental evidence showed that 1,3-dicarbonyl compounds could react via C—H activations. Although this concept is still controversial, it opens a novel idea to consider the reactions of activated C H bonds. The chiral bifunctional Ru catalysts were used in enantioselective C C bonds formation by Michael addition of 1,3-dicarbonyl compounds with high yields and enantiomeric excesses. ... 

Scheme 5.20. Asymmetric Michael addition of 1,3-dicarbonyl compounds.

Interestingly enough, a closely related protocol was successfully proposed for the synthesis of spirooxindoles-containing tetrahydrochromene skeletons when aromatic aldehydes were switched for isatin derivatives. This high-yielded reaction was performed with dimedone, 4-hydroxycoumarin, or barbituric acids in water using triethylbenzylammonium chloride (TEBA) as catalyst (Scheme 36) [125]. A Knoevenagel condensation occurred first between isatin and malonitrile derivative, followed by Michael addition of 1,3-dicarbonyl substrates and cyclization to the cyano moiety. 

Michael additions. Conjugate addition of / -dicarbonyl compounds to various Michael acceptors is catalyzed efficiently by Ni(acac),. Yields arc usually higher than those obtained with traditional bases. 

The competition between Michael addition of a,(3-unsaturated ketones and Diels-Alder reactions involving furan and 2-methylfuran is affected by the catalyst used. Methyl vinyl ketone gives the alkylation product with furan and 2-methylfuran in the presence of silica gel (88TL175). Bis(alkylated) products have also been obtained in reactions of 2-methylene-1,3-dicarbonyl compounds (90H(31)1699). An intramolecular proton catalyzed alkylation reaction of an a,(3-unsaturated ketone provided a straightforward synthesis of norpinguisone (90TL4343) and in the example shown in Equation (4) the cyclization reaction involved an a,(3-y,8-dienone (94TL4887). 

Michael addition of 1,3-dicarbonyl compounds to conjugated prochiral nitroalkenes catalysed by (acac)2Ni and (acac)2Co has been reported to give up to 30% ee when carried out in the presence of cinchonidine.100... 

The axially chiral guanidine catalyst (155) (0.4-5 mol%) has been developed to facilitate the highly enantioselective Michael addition of 1,3-dicarbonyl compounds (g to a broad range of conjugated nitroalkenes (<98% ee).211... 

Triphenylphosphine and tributylphosphine proved to be excellent catalysts for the Michael addition of ft-dicarbonyl compounds to electron-poor alkenes, including ster-ically demanding partners.156... 

A hydroxyapatite-bound La complex (LaHAP), prepared by using a cation-exchange method, has been reported to function as an efficient heterogeneous catalyst for the Michael addition of 1,3-dicarbonyls to enones under aqueous or solvent-free conditions. Further application to an asymmetric version by a fluoroapatite-bound La complex catalyst modified with (R,R)-tartaric acid has also been described.171... 

A highly enantioselective Michael addition of 1,3-dicarbonyl compounds to nitroalkenes has been reported that employs a newly developed Ni(II)-(bis)diamine-based catalyst (174). The reaction scope includes substituted and unsubstituted malonates, /3-keto esters, and nitroalkenes bearing aromatic and aliphatic residues.202... 

The catalyst RuH2(PPh3)4 itself has no catalytic activity in the C-H activation of carbonyl compounds, and a more basic catalyst such as RuCpH(PPh3)2 and RuCp H(PPh3)2 is required for activation of 1,3-dicarbonyl compounds. The catalytic Michael addition of 3-methyl-2,4-pentanedione to methyl vinyl ketone gave the corresponding adduct in 79% yield [2]. 

The prerequisite 1,5-dicarbonyl compounds and their equivalents can be formed in situ by a Michael addition of activated methylene groups onto O Ji-unsaturated systems <1996CHEC-II>. In this manner, 5-alkylidene-2-thioxo-dihydropyrimidincM,6(l //,5//)-dione 84 reacts with ethyl 3-oxobutanoate under microwave irradiation to from the intermediate 1,5-dicarbonyl compound 85, which spontaneously cyclize to afford the corresponding 4//-pyrans in high yield (Scheme 28) <2003SC3747>. 

In a one-pot three-component reaction, aromatic aldehydes, malononitrile and 1,3-dicarbonyl compounds react to form 2-amino-5-carboxy-4-aryl-47/-pyran-3-carbonitriles 87. The reaction proceeds by an initial Knoevenagel condensation of malononitrile with the aromatic aldehyde to afford the 2-benzylidenemalononitrile intermediate 88. Michael addition of the activated methylene group forms the 1,5-dicarbonyl equivalent 89, which upon ring closure affords 477-pyrans (Scheme 29) <2004SL871, 1999H(51)1101 >. 

Oxazinanes 90 react with 1,3-cyclohexanediones, in acetic acid under reflux, to afford the alkylidene 1,3-diketone intermediate 91. Michael addition of a second equivalent of 1,3-cyclohexanedione then occurs to form the 1,5-dicarbonyl equivalent 92, which upon cyclodehydration furnishes tricyclic 4/7-pyrans (Scheme 30) <1996T14273>. 

Azole approach. 2-Amino-l,3,4-thiadiazoles react with appropriately substituted a,/3-unsaturated carbonyl compounds to form fused pyrimidines (729). The orientation of the substituents in the fusion products suggests that the reaction is initiated by Michael addition of the amino group. 1,3-Dicarbonyl compounds will condense in the same manner to yield the salt (729) from a /3-keto ester the 5-oxo derivative (730) is formed (73ABC1197). 

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