Diketones Michael addition

The Michael reaction is of central importance here. This reaction is a vinylogous aldol addition, and most facts, which have been discussed in section 1.10, also apply here the reaction is catalyzed by acids and by bases, and it may be made regioselective by the choice of appropriate enol derivatives. Stereoselectivity is also observed in reactions with cyclic educts. An important difference to the aldol addition is, that the Michael addition is usually less prone to sterical hindrance. This is evidenced by the two examples given below, in which cyclic 1,3-diketones add to o, -unsaturated carbonyl compounds (K. Hiroi, 1975 H, Smith, 1964). 

The decarboxylation of allyl /3-keto carboxylates generates 7r-allylpalladium enolates. Aldol condensation and Michael addition are typical reactions for metal enolates. Actually Pd enolates undergo intramolecular aldol condensation and Michael addition. When an aldehyde group is present in the allyl fi-keto ester 738, intramolecular aldol condensation takes place yielding the cyclic aldol 739 as a main product[463]. At the same time, the diketone 740 is formed as a minor product by /3-eIimination. This is Pd-catalyzed aldol condensation under neutral conditions. The reaction proceeds even in the presence of water, showing that the Pd enolate is not decomposed with water. The spiro-aldol 742 is obtained from 741. Allyl acetates with other EWGs such as allyl malonate, cyanoacetate 743, and sulfonylacetate undergo similar aldol-type cycliza-tions[464]. 

Acetoxy-l,7-octadiene (40) is converted into l,7-octadien-3-one (124) by hydrolysis and oxidation. The most useful application of this enone 124 is bisannulation to form two fused six-membered ketonesfl 13], The Michael addition of 2-methyl-1,3-cyclopentanedione (125) to 124 and asymmetric aldol condensation using (5)-phenylalanine afford the optically active diketone 126. The terminal alkene is oxidi2ed with PdCl2-CuCl2-02 to give the methyl ketone 127 in 77% yield. Finally, reduction of the double bond and aldol condensation produce the important intermediate 128 of steroid synthesis in optically pure form[114]. 

The method was applied to the synthesis of (-t-)-l9-nortestosterone by the following sequence of reactions. Michael addition of the bisannulation reagent 124 to the optically active keto ester 129 and decarboxylation afforded 130, and subsequent aldol condensation gave 131. Selective Pd-catalyzed oxidation of the terminal double bond afforded the diketone 132 in 78% yield. Reduction of the double bond and aldol condensation gave ( + )-19-nortestosterone (133)[114]. 

A synthetically useful reaction known as the Michael reaction, or Michael addition, involves nucleophilic addition of carbanions to a p unsaturated ketones The most common types of carbanions used are enolate 10ns derived from p diketones These enolates are weak bases (Section 18 6) and react with a p unsaturated ketones by conjugate addition... 

Stabilized anions exhibit a pronounced tendency to undergo conjugate addition to a p unsaturated carbonyl compounds This reaction called the Michael reaction has been described for anions derived from p diketones m Section 18 13 The enolates of ethyl acetoacetate and diethyl malonate also undergo Michael addition to the p carbon atom of a p unsaturated aldehydes ketones and esters For example... 

Krohnke observed that phenacylpyridinium betaines could be compared to 3-diketones based on their structure and reactivity, in particular, their ability to undergo Michael additions. Since 3-dicarbonyls are important components in the Hantzsch pyridine synthesis, application of these 3-dicarbonyl surrogates in a synthetic route to pyridine was investigated. Krohnke found that glacial acetic acid and ammonium acetate were the ideal conditions to promote the desired Michael addition. For example, N-phenacylpyridinium bromide 50 cleanly participates in a Michael addition with benzalacetophenone 51 to afford 2,4,6-triphenylpyridine 52 in 90% yield. 

Boron trifluoride etherate, is also a good catalyst for this hydride transfer to chalcone. Unlike triphenylmethyl perchlorate, however, chalcone is able to enter Michael additions with the 1,5-diketone followed by eliminations leading to unexpected products, e.g., 3-benzyl-2,4,6-triphenylpyrylium from 2-carbethoxy-l,3,5-tri-phenylpentane-l,5-dione and chalcone the benzyl group originates from chalcone, the elimination product being ethyl benzoylacetate. ... 

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 ... 

The best method to achieve a high regioselectivity is the use of preformed enolates. A double annulation reaction is possible if, for example, a diketone such as 11 is used as starting material. The product of the Michael addition 12 can undergo two subsequent aldol condensation reactions to yield the tricyclic dienone 13 ... 

The Michael addition of ct-nitro ketones to a,fi-unsaiurated ketones followed by radical denitration provides a useful strategy for the preparation of 1,4-diketones TPhenylheptane-1,5-dione, isolated from the decayed heart wood of aspens, is prepared by this strategy fEq... 

The Michael addition of nitro ilkanes to enones followed by reaction with TiCT provides an excellent route to 1,4-diketones and hence to cyclopentenones. For example, cii -jasmone is readily obtained," as shown in Eq. 6.18. 

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). 

Problem 23.22 How would you prepare the following compound using a Robinson annulation reaction between a jS-diketone and an, /3-unsaturated ketone Draw the structures of both reactants and the intermediate Michael addition product. 

Carbonyl condensation reactions are widely used in synthesis. One example of their versatility is the Robinson anuulation reaction, which leads to the formation of an substituted cyclohexenone. Treatment of a /3-diketone or /3-keto ester with an a,/3-unsaturated ketone leads first to a Michael addition, which is followed by intramolecular aldol cyclization. Condensation reactions are also used widely in nature for the biosynthesis of such molecules as fats and steroids. 

The Enders method has also been used as a key step in the synthesis of optically active Ar-heterocycles. The use of cyclic 1,3-diketones for the preparation of the SAMP or RAMP lithium azaenolates is shown by the synthesis of substituted 4,6,7,8-tetrahydro-2,5(l//,3//)-quinolinediones 2. Michael addition of 1 with, for example, benzylidene propanedioates followed by removal of the auxiliary and lactamization gives 2 with > 98% ee201. 

Yosikoshi reported the synthesis of furan derivatives by the reaction of 1,3-diketones with nitroalkenes, in which the Michael addition of the anions of 1,3-diketones and the subsequent intramolecular displacement of the nitro group by enolate oxygen are involved as key steps (Eq. 7.40).42... 

The Michael addition of lithium enolates to nitroalkenes followed by reaction with acetic anhydride gives acetic nitronic anhydrides, which are good precursors for 1,4-diketones, pyrroles, and pyrrolidines (Eq. 10.73).113... 

Annulation reaction of (benzotriazol-l-yl)acetone 531 with chalcones provides an efficient route to 3,5-diarylphenols 538. The reaction is catalyzed by NaOH in ethanol. In the first step, Michael addition of ketone 531 to the C=C bond of a chalcone gives diketone 532. In the second step, condensation between the carbonyl... 

There are only few examples of organic reactions catalysed effectively by Lewis acids which can be carried out in pure water without any organic co-solvent. While water can be used successfully for the uncatalysed Michael addition of 1,3-diketones (Table 4, entry D)22, the corresponding reaction of /i-kctocsters does not give satisfactory results. On the other hand, the Yb(OTf)3 catalysed Michael reaction of various /i-ketoesters (Table 21, entry A)257 and a-nitroesters (Table 21, entry B)258 takes place. 

The scope of Michael additions with catalysts containing cyclohexane-diamine scaffolds was broadened by Li and co-workers [95]. When screening for a catalyst for the addition of phenylthiol to a,p-nnsatnrated imides, the anthors fonnd that thiourea catalyst 170 provided optimal enantioselectivities when compared to Cinchon alkaloids derivatives (Scheme 41). Electrophile scope inclnded both cyclic and acyclic substrates. Li attributed the enantioselectivity to activation of the diketone electrophiles via hydrogen-bonding to the thiourea, with simultaneous deprotonation of the thiol by the tertiary amine moiety of the diamine (170a and 170b). Based on the observed selectivity, the anthors hypothesized that the snbstrate-catalyst... 

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],... 

Our own group is also involved in the development of domino multicomponent reactions for the synthesis of heterocycles of both pharmacologic and synthetic interest [156]. In particular, we recently reported a totally regioselective and metal-free Michael addition-initiated three-component substrate directed route to polysubstituted pyridines from 1,3-dicarbonyls. Thus, the direct condensation of 1,3-diketones, (3-ketoesters, or p-ketoamides with a,p-unsaturated aldehydes or ketones with a synthetic equivalent of ammonia, under heterogeneous catalysis by 4 A molecular sieves, provided the desired heterocycles after in situ oxidation (Scheme 56) [157]. A mechanistic study demonstrated that the first step of the sequence was a molecular sieves-promoted Michael addition between the 1,3-dicarbonyl and the cx,p-unsaturated carbonyl compound. The corresponding 1,5-dicarbonyl adduct then reacts with the ammonia source leading to a DHP derivative, which is spontaneously converted to the aromatized product. 

The first successful synthesis of longifolene was described in detail by E. J. Corey and co-workers in 1964. Scheme 13.19 presents a retrosynthetic analysis corresponding to this route. A key disconnection is made on going from I => II. This transformation simplifies the tricyclic skeleton to a bicyclic one. For this disconnection to correspond to a reasonable synthetic step, the functionality in the intermediate to be cyclized must engender mutual reactivity between C-7 and C-10. This is achieved in diketone II, because an enolate generated by deprotonation at C-10 can undergo an intramolecular Michael addition to C-... 

A similar regioselectivity under different conditions for aldol cyclization of 1,5-diketones obtained by the Michael addition of substituted acetoacetic esters to methyl vinyl ketones has been reported by another laboratory (equation IV),5... 

The base-catalyzed Michael addition of oxazolin-5-ones to alkynic ketones produces 4-(3-oxopropenyl) derivatives (405) (79CB3221). The latter compounds are cleaved on warming with oxalic acid dihydrate in acetic acid to y-diketones (406). The mechanism of this transformation corresponds to a vinylogous Dakin-West reaction (Scheme 90). 

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