Michael additions Lewis-acid-mediated

One approach to tetrahydropyridinones is the Lewis acid mediated hetero-Diels-Alder reaction of electron-rich dienes with polystyrene-bound imines (Entries 3 and 4, Table 15.23). The Ugi reaction of 5-oxo carboxylic acids and primary amines with support-bound isonitriles has been used to prepare piperidinones on insoluble supports (Entry 5, Table 15.23). Entry 6 in Table 15.23 is an example of the preparation of a 4-piperidinone by amine-induced 3-elimination of a resin-bound sulfinate followed by Michael addition of the amine to the newly generated divinyl ketone. The intramolecular Pauson-Khand reaction of propargyl(3-butenyl)amines, which yields cyclopenta[c]pyridin-6-ones, is depicted in Table 12.4. 

A Lewis acid-mediated two-fold asymmetric Michael addition allows access to c( s-decalin derivatives. The reaction of the trimethylsilylenol ether of acety Icyclohexene with phenylmenthyl acrylate in the presence of Diethylaluminum Chloride (eq 7) yields the decalone in 64% yield (70% de). This has been shown not to be a Diels-Alder reaction. If the reaction is worked-up early, the initial Michael adduct can be isolated. ... 

In some instances, particularly when a dependence of the stereochemistry on the double-bond geometry of either the acceptor or donor is observed, it appears likely that the stereochemistry-determining step is the initial conjugate addition. The stereochemical consequences of Lewis-acid-mediated additions of silyl enol ethers (116) and allylsilanes (117,118) have frequently been rationalized by open-extended transition states. Similar pathways seem likely with the Mukaiyama-Michael addition (vide infra) (77,79). 

In certain instances, however, Lewis-acid-mediated Michael additions show a slight dependence on the geometry of both the donor and acceptor (vide supra). Hence, the first-order analysis must be modified to include the differential effects induced by the double-bond substitution patterns. By consideration of these effects and by minimization of the adverse gauche-type interactions, trends in Lewis-acid-mediated additions where the conjugate addition is likely to be the actual product-determining step can be rationalized. 

Mechanistically, enamine and Lewis-acid-mediated conjugate additions are complex. The opportunity exists for the product-determining step to occur at a number of points and, without further study, the precise nature of the manifold is not entirely clear. In some enamine cases where the stereoselectivity likely results from the conjugate addition, a synclinal type transition state seems to be involved. With the Mukaiyama-Michael addition, some processes implicate an open-extended pathway. Despite the mechanistic uncertainties that remain, sufficient data are now available so that the stereochemistry in many cases can be anticipated by extrapolation. 

The one-pot diphenylproHnol silyl ether 1 catalyzed Michael reaction of cro-tonaldehyde and nitroalkene arrives at the intermediate 247, which is followed by the an aza-Henry reaction/hemiaminalization process to a proposed alcohol intermediate, followed by Lewis acid-mediated allylation or cyanation (Scheme 7.54). A later report of polysubstituted piperidine 251 preparation was carried out through a Michael addition of 249 and 250 and an aminahzation reaction process, remarkably in water [123]. This process was also carried out to form tetrahydropyrans... 

Other Lewis acid mediated C-C bond forming reactions of silylated C-nucleophiles include the Mukaiyama aldol and Michael additions of enolsilanes ), the related reaction of allylsilanes described by Sakurai ) as well as similar reactions of Me3SiCN ). Other "inert C-nucleophiles such as dialkylzinc compounds also react with carbonyl compounds in the presence of Lewis acids ). We ourselves have utilized many of these processes in performing stereoselective reactions, particularly in achieving diastereofacial selectivity in the reactions... 

Michael addition of the reagent to enoates and enones occurs at low temperature (—50 to —78 °C) in the presence of catalytic amounts of various Lewis acids. A catalytic amount of triph-enylmethyl perchlorate (5 mol %) effectively catalyzes the tandem Michael reaction of ethyl acetate-derived silyl ketene acetal to a, -unsaturated ketones and the sequential aldol addition to aldehydes with high stereoselectivity.HgL mediates the Michael addition to chiral enones, followed by Lewis acid-mediated addition to aldehydes. The Michael-aldol protocol has been used for the stereoselective synthesis of key intermediates on the way to prostaglandins, compactin, and ML-236A (eq 19). ... 

The controlled polymerization of (meth)acrylates was achieved by anionic polymerization. However, special bulky initiators and very low temperatures (- 78 °C) must be employed in order to avoid side reactions. An alternative procedure for achieving the same results by conducting the polymerization at room temperature was proposed by Webster and Sogah [84], The technique, called group transfer polymerization, involves a catalyzed silicon-mediated sequential Michael addition of a, /f-unsaluralcd esters using silyl ketene acetals as initiators. Nucleophilic (anionic) or Lewis acid catalysts are necessary for the polymerization. Nucleophilic catalysts activate the initiator and are usually employed for the polymerization of methacrylates, whereas Lewis acids activate the monomer and are more suitable for the polymerization of acrylates [85,86]. 

In 2006, Xu and Xia et al. revealed the catalytic activity of commercially available D-camphorsulfonic acid (CS A) in the enantioselective Michael-type Friedel-Crafts addition of indoles 29 to chalcones 180 attaining moderate enantiomeric excess (75-96%, 0-37% ee) for the corresponding p-indolyl ketones 181 (Scheme 76) [95], This constitutes the first report on the stereoselectivity of o-CSA-mediated transformations. In the course of their studies, the authors discovered a synergistic effect between the ionic liquid BmimBr (l-butyl-3-methyl-l/f-imidazohum bromide) and d-CSA. For a range of indoles 29 and chalcone derivatives 180, the preformed BmimBr-CSA complex (24 mol%) gave improved asymmetric induction compared to d-CSA (5 mol%) alone, along with similar or slightly better yields of P-indolyl ketones 181 (74-96%, 13-58% ee). The authors attribute the beneficial effect of the BmimBr-D-CSA combination to the catalytic Lewis acid activation of Brpnsted acids (LBA). Notably, the direct addition of BmimBr to the reaction mixture of indole, chalcone, d-CSA in acetonitrile did not influence the catalytic efficiency. 

Group-transfer polymerizations make use of a silicon-mediated Michael addition reaction. They allow the synthesis of isolatable, well-characterized living polymers whose reactive end groups can be converted into other functional groups. It allows the polymerization of alpha, beta-unsaturated esters, ketones, amides, or nitriles through the use of silyl ketenes in the presence of suitable nucleophilic catalysts such as soluble Lewis acids, fluorides, cyanides, azides, and bifluorides, HF. ... 

Some of the Lewis acid catalyzed Michael additions to a,3-unsaturated carbonyls can also be rationalized based on these models. For example, BFs-mediated additions of organocopper reagents to chiral a,3-unsaturated esters such as (-)-8-phenylmenthyl crotonate (35) occur with high levels of dia-stereoselectivity. " The product stereochemistries for these reactions could be predicted by assuming the reactive conformation (35S), which follows the basic structural tenets of model A (Figure 41). ... 

Microencapsulated Sc(OTf)3 has shown considerable promise for both batch and flow reactions in those procedures in which the reaction was recirculated through columns containing the reagent. This reagent was found to be more reactive than the monomeric Lewis acid. One example is the TMS-mediated Michael reaction shown in Figure 3.25. Microencapsulated Sc(OTf)3 was also found to be useful for Mannich reactions, Michael additions, and Friedel-Crafts—like acylations [51]. 

Takemoto, Y., Ohra, T., Yonetoku, Y, Nishimine, K., and Iwata, C., Novel intramolecular Michael addition of organomercury halides mediated by a Lewis acid and halide anion, J. Chem. Soc., Chem. Commun., 81, 1994. 

Preparation of enantiopure intermediates by the use of oxidation reactions was not limited to the synthesis of AB segment (J )-10. The synthesis of the modified daimomycinone, 9-deacetyl-ll-deoxy-9-hydroxymethyldauno-mycinone 44 by Naruta et al. provides an example of enantioselective epox-idation at the stage of a tetracycHc intermediate (Scheme 8) [56]. TetracycUc quinone 42, with the required stereochemistry of the C-4 and C-9 substituents and a protected phenolic hydroxyl group, was prepared in a tandem Michael-Diels-Alder addition of pentadienyltin with acryoylquinone 40 mediated by Lewis acid [57], followed by demethylation, acetylation, and selective hydrolysis. Sharpless enantioselective epoxidation [58] of 42 yielded epoxide 43 in 80% yield and 96% ee. Further transformations of 43 by known procedures, indicated in Scheme 8, furnished the target anthracyclinone 44 in 36% yield from 42. 

This reaction was first reported by Mukaiyama et al. in 1974. It is a Lewis acid-catalyzed Michael conjugate addition of silyl enol ether to o ,/3-unsaturated compounds. Therefore, it is generally referred to as the Mukaiyama-Michael reaction. Because this reaction is essentially a conjugate addition, it is also known as the Mukaiyama-Michael addition or Mukaiyama-Michael conjugate addition. This reaction is a mechanistic complement for the base-catalyzed Michael addition, j and often occurs at much milder conditions and affords superior regioselectivity. s Besides silyl enol ether, silyl ketene acetals are also suitable nucleophiles in this reaction.For the hindered ketene silyl acetals, the Lewis acid actually mediates the electron transfer from the nucleophiles to o ,/3-unsaturated carbonyl molecules.On the other hand, the Q ,j8-unsaturated compounds, such as 3-crotonoyl-2-oxazolidinone, alkylidene malonates, and a-acyl-a,/3-unsaturated phosphonates are often applied as the Michael acceptors. It has been found that the enantioselectivity is very sensitive to the reactant structures —for example, Q -acyl-Q ,j8-unsaturated phosphonates especially prefers the unique syn- vs anft-diastereoselectivity in this reaction. In addition,... 

In 2008, Michael and coworkers [61] reported an intramolecular oxyaminatitHi of urea derivatives 74 having pendant unactivated alkenes using PhIO as an oxidant and Brpnsted or Lewis acid as a promoter to furnish bicycUc isoureas 75 via syn addition (Scheme 18 (l)).Farid et al. [62] recently disclosed the asymmetric version of such a transformation. The authors described an efficient chiral hypervalent iodine 78-mediated oxidative cyclization of alkenyl ureas 76 to optically pure isourea derivatives 77 (Scheme 18 (2)). 

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