Conjugate addition iminium catalysis

The majority of the Michael-type conjugate additions are promoted by amine-based catalysts and proceed via an enamine or iminium intermediate species. Subsequently, Jprgensen et al. [43] explored the aza-Michael addition of hydra-zones to cyclic enones catalyzed by Cinchona alkaloids. Although the reaction proceeds under pyrrolidine catalysis via iminium activation of the enone, and also with NEtj via hydrazone activation, both methods do not confer enantioselectivity to the reaction. Under a Cinchona alkaloid screen, quinine 3 was identified as an effective aza-Michael catalyst to give 92% yield and 1 3.5 er (Scheme 4). 

As previously noted (Scheme 1), prior to the explosion of interest in iminium ion catalysis as a platform for the activation of a,P-unsaturated carbonyl compounds in 2000, Yamaguchi [29-33] and Taguchi [34] showed that proline derived bi-func-tional catalysts could provide an effective platform for the ion-pair controlled conjugate addition of malonates and nitroalkanes to a, 3-unsaturated ketones with good levels of stereocontrol. 

Scheme 30 Conjugate addition of A-silyloxycarbamates using iminium ion catalysis...

However, formation of this bond through the conjugate addition of a soft sulfur nucleophile to a,P-unsaturated aldehydes is efficiently catalysed using iminium ion catalysis [116], Using diarylprolinol silyl ether 55 the addition of a series of sulfur based nucleophiles to a variety of a,P-unsaturated aldehydes was shown to be effective (73-87% yield 89-97% ee). The products were isolated as their p-hydroxy sulfide derivatives 73 after in situ reduction of the products (Scheme 33). 

Simultaneous publication of the iminium ion catalysed hydrophosphination of a,p-unsaturated aldehydes by Melchiorre and Cordova showed diarylprolinol silyl ether 55 was effective in the conjugate addition of diphenylphosphine 74 [117, 118], Direct transformation of the products allowed for one-pot methods for the preparation of P-phosphine alcohols 75 (72-85% yield 90-98% ee), P-phosphine oxide acids 76 (65% yield 92% ee) and 3-amino phosphines 77 (71% yield 87% ee) (Scheme 34). These reports represent the first examples of the addition of P-centred nucleophiles and the resulting highly functionalised products may well have further use in asymmetric catalysis. 

As indicated from computational studies, the catalyst-activated iminium ion MM3-2 was expected to form with only the (E)-conformation to avoid nonbonding interactions between the substrate double bond and the gem-dimethyl substituents on the catalyst framework. In addition, the benzyl group of the imidazolidinone moiety should effectively shield the iminium-ion Si-face, leaving the Re-face exposed for enantioselective bond formation. The efficiency of chiral amine 1 in iminium catalysis was demonstrated by its successful application in several transformations such as enantioselective Diels-Alder reactions [6], nitrone additions [12], and Friedel-Crafts alkylations of pyrrole nucleophiles [13]. However, diminished reactivity was observed when indole and furan heteroaromatics where used for similar conjugate additions, causing the MacMillan group to embark upon studies to identify a more reactive and versatile amine catalyst. This led ultimately to the discovery of the second-generation imidazolidinone catalyst 3 (Fig. 3.1, bottom) [14],... 

The in situ generation of an iminium ion from a carbonyl compound lowers the LUMO energy of the system. Iminium catalysis is comparable to Brpnsted- or Lewis acid activation of carbonyl compounds. The LUMO energy is lowered, the a-CH acidity increases, and nucleophilic additions including conjugate additions as well as pericyclic reactions are facilitated (Eq. 34). 

Another mechanism for catalysis of conjugate addition is via iminium salts. This reactivity has been exploited for several enantioselective catalysts (see Sect. 6.2). A simple example is provided by the use of pyrrolidine salts [225]. 

Alternatively, the iminium-activation strategy has also been apphed to the Mukaiyama-Michael reaction, which involves the use of silyl enol ethers as nucleophiles. In this context, imidazolidinone 50a was identified as an excellent chiral catalyst for the enantioselective conjugate addition of silyloxyfuran to a,p-unsaturated aldehydes, providing a direct and efficient route to the y-butenolide architecture (Scheme 3.15). This is a clear example of the chemical complementarity between organocatalysis and transition-metal catalysis, with the latter usually furnishing the 1,2-addition product (Mukaiyama aldol) while the former proceeds via 1,4-addition when ambident electrophiles such as a,p-unsaturated aldehydes are employed. This reaction needed the incorporation of 2,4-dinitrobenzoic acid (DNBA) as a Bronsted acid co-catalyst assisting the formation of the intermediate iminium ion, and also two equivalents of water had to be included as additive for the reaction to proceed to completion, which... 

With respect to the covalent activation in conjugate additions, the catalyst, usually a primary or a secondary amine, can reversibly form a chiral enamine [ 11 ] to activate the nucleophile (D, Fig. 2.2) or a chiral iminium ion [12] to activate the acceptor (E, Fig. 2.2). The detection of enamine intermediates in asymmetric oiganocatalysis has been for a long time the missing piece of evidence for the commonly accepted mechanism of enamine catalysis. This gap has been recently solved with the first detection and structnral characterization of enamine intermediates in proUne-cata-lyzed aldol reactions by real-time NMR spectroscopy [13] and the direct observation of an enamine intermediate in the crystal strnctnre of an aldolase antibody [14]. 

In 2005, J0rgensen et al. extended the conjugate addition of sulfur nucleophiles to a,P-unsaturated aldehydes under iminium catalysis with trimethylsilyl ether 56 (10 mol%) as catalyst [385]. Very high enantioselectivities (89-97% ee) were reported for the addition of aliphatic thiols to different aromatic and aliphatic enals at low temperatures (-24°C) where the employment of an acid cocatalyst (PhCOjH, 10 mol%) was mandatory in order to improve the reaction rate. This methodology has been incorporated into domino reactions by the same group and others to successfully prepare optically active sulfur-containing heterocyclic compounds [385, 386],... 

In 2010, Chen and co-workers [134] developed the first organocatalytic asymmetric conjugate addition of a, 3-unsaturated aldehydes via iminium catalysis. In the presence of diarylprolinol silylether 7 and o-fluorobenzoic acid (OFBA), the reaction proceeded well to afford the highly valued adducts with excellent enantioselectivities and with up to outstanding diastereoselectivities (Scheme 5.67). To emphasize the synthetic utility of the reaction, a number of natural-product-like or drug-like molecules with versatile skeletons have been efficiently constructed from the corresponding Michael adducts. 

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