Michael reaction / addition / condensation

Example. Another important fi agmentation reaction is the decarboxylation of (3-keto acids invariably employed for synthesis in conjruiction with construction reactions, such as Michael Reaction (Addition, Condensation) i.e., addition of acetoacetic and malonate esters. 

Corma et al. have also tested MCM-410H in the aldol condensation between benzaldehyde and 2 -hydroxyacetophenone. They showed that this material catalyzed successive aldol condensation and intramolecular Michael reaction addition to give flavone with good selectivity. Chromenes can be also produced by condensation of salicylaldehyde derivatives and diethylglucotaconate under mild conditions (Figure 9). 

The Michael reaction with enamines is exemplified in this procedure. In a second (spontaneous) step of the reaction, an aldol-type condensation occurs resulting in cyclization. Finally, the morpholine enamine of the product forms and is hydrolized by the addition of water to yield a mixture of octalones, which is separated by fractional crystallization. J -Octalone-2 can be reduced by lithium in anhydrous ammonia to the saturated tra/i5-2-decalone (Chapter 3, Section III). 

The first step of the Robinson annulation is simply a Michael reaction. An enamine or an enolate ion from a jS-keto ester or /3-diketone effects a conjugate addition to an a-,/3-unsaturated ketone, yielding a 1,5-diketone. But as we saw in Section 23.6,1,5-diketones undergo intramolecular aldol condensation to yield cyclohexenones when treated with base. Thus, the final product contains a six-membered ring, and an annulation has been accomplished. An example occurs during the commercial synthesis of the steroid hormone estrone (figure 23.9). 

Base-induced eliminative ring fission, in which both the double bond and the sulfone function take part, has been observed in thiete dioxides253. The reaction can be rationalized in terms of initial Michael-type addition to the double bond of the ring vinyl sulfone, followed by a reverse aldol condensation with ring opening. The isolation of the ether 270c in the treatment of 6c with potassium ethoxide (since the transformation 267 -> 268 is not possible in this case) is in agreement with the reaction mechanism outlined in equation 101253. 

Horhold et al. and Lenz et al. [94,95]. The polycondensation provides the cyano-PPVs as insoluble, intractable powders. Holmes et al. [96], and later on Rikken et al. [97], described a new family of soluble, well-characterized 2,5-dialkyl- and 2,5-dialkoxy-substituted poly(pflrfl-phenylene-cyanovinylene)s (74b) synthesized by Knoevenagel condensation-polymerization of the corresponding alkyl-or alkoxy-substituted aromatic monomers. Careful control of the reaction conditions (tetra-n-butyl ammonium hydroxide as base) is required to avoid Michael-type addition. 

Other reactions involving the addition of carbanions are reactions like Perkin s reaction, Claisen condensation, benzilic acid rearrangement and Michael addition. 

Strategies based on two consecutive specific reactions or the so-called "tandem methodologies" very useful for the synthesis of polycyclic compounds. Classical examples of such a strategy are the "Robinson annulation" which involves the "tandem Michael/aldol condensation" [32] and the "tandem cyclobutene electrocyclic opening/Diels-Alder addition" [33] so useful in the synthesis of steroids. To cite a few new methodologies developed more recently we may refer to the stereoselective "tandem Mannich/Michael reaction" for the synthesis of piperidine alkaloids [34], the "tandem cycloaddition/radical cyclisation" [35] which allows a quick assembly of a variety of ring systems in a completely intramolecular manner or the "tandem anionic cyclisation approach" of polycarbocyclic compounds [36]. 

Michael Addition (Condensation, Reaction) The addition of a carbon nucleophile to an activated unsaturated system. 

Intermolecular Michael reactions continue to be developed. Karl Anker Jorgensen of Aarhus University, Denmark, has found (Angew. Chem. Ini. Ed. 2004,43, 1272) that the organocatalyst 3 mediates the addition of 2 to 1 with high enantiomeric excess. What is more, under the reaction conditions the intial Michael addition is followed by an aldol condensation, to give 4 as essentially a single diastereomer. 

The intramolecular Michael reaction is also a powerful transformation. In the cyclizations reported by Tetsuaki Tanaka of Osaka University (J. Org. Chem. 2004, 69, 6335), the stereochemical outcome is controlled by the chirality of the sulfoxide. Remarkably, subsequent alkylation or aldol condensation leads to one or two additional off-ring stereocenters with high diastereocontrol. Note that the high stereoselectivity in the cyclization is only observed with the (Z)-unsaturated ester. 

The absolute course of the intramolecular Michael reaction can also be mediated by organo catalysts. Benjamin List of the Max-Planck-Institut, Miilheim, has shown (Angew. Chem. Int. Ed. 2004, 43, 3958) that 9 is particularly effective. Michael addition followed by intramolecular aldol condensation gives the Irons bicyclic enone 11 in high . 

Aldol reactions are often used to close five- and six-membered rings. Because of the favorable entropy (p. 211), such ring closures generally take place with ease, even where a ketone condenses with a ketone. An important example is the Robinson annulation reaction which has often been used in the synthesis of steroids and terpenes. In this reaction a cyclic ketone is converted to another cyclic ketone, with one additional six-membered ring containing a double bond. The substrate is treated with methyl vinyl ketone (or a simple derivative of methyl vinyl ketone) and a base.551 The enolate ion of the substrate adds to the methyl vinyl ketone in a Michael reaction (5-17) to give a diketone that undergoes or... 

A further frequent complication is that acetylenic esters undergo base and acid-catalyzed self-condensation on standing under normal laboratory conditions, and they will add methanol or similar nucleophiles in Michael-type addition reactions (cf. 4 and 6). Such products are almost invariably present in reaction mixtures obtained from heterocycles. A short account of these products is included as their early recognition in a new investigation can save much time. 

The synthesis of 2,2-dimethylsuccinic acid (Expt 5.135) provides a further variant of the synthetic utility of the Knoevenagel-Michael reaction sequence. Ketones (e.g. acetone) do not readily undergo Knoevenagel reactions with malonic esters, but will condense readily in the presence of secondary amines with the more reactive ethyl cyanoacetate to give an a, /f-unsaturated cyanoester (e.g. 15). When treated with ethanolic potassium cyanide the cyanoester (15) undergoes addition of cyanide ion in the Michael manner to give a dicyanoester (16) which on hydrolysis and decarboxylation affords 2,2-dimethylsuccinic acid. 

The intramolecular carbon-carbon bond-forming reactions considered in this section are based on the aldol condensation (see Section 5.18.2, p. 799), the Claisen-Schmidt reaction (see Section 6.12.2, p. 1032), the Claisen ester condensation (see Section 5.14.3, p. 736), and the Claisen reaction (see Section 6.12.2, p. 1032). Since these carbonyl addition reactions are reversible, the methods of synthesis are most successful for the formation of the thermodynamically stable five- and six-membered ring systems. The preparation of the starting materials for some of these cyclisation reactions further illustrates the utility of the Michael reaction (see Section, 5.11.6, p. 681). 

Solid-phase synthesis is of importance in combinatorial chemistry. As already mentioned RuH2(PPh3)4 catalyst can be used as an alternative to the conventional Lewis acid or base catalyst. When one uses polymer-supported cyanoacetate 37, which can be readily obtained from the commercially available polystyrene Wang resin and cyanoacetic acid, the ruthenium-catalyzed Knoevenagel and Michael reactions can be performed successively [27]. The effectiveness of this reaction is demonstrated by the sequential four-component reaction on solid phase as shown in Scheme 11 [27]. The ruthenium-catalyzed condensation of 37 with propanal and subsequent addition of diethyl malonate and methyl vinyl ketone in TH F at 50 °C gave the adduct 40 diastereoselectively in 40 % yield (de= 90 10). 

Hantzsch heterocyclization Henry reaction Knoevenagel condensation Michael addition enolate... 

The Michael reaction in combination with an aldol condensation provides a useful method for the construction of six-membered rings in a process termed the Robinson annulation. In the following example a tertiary amine is used as the base to catalyze the conjugate addition. Then, treatment with sodium hydroxide causes an intramolecular aldol condensation to occur. 

---