Iminium activation aldehydes

The Catalysis Concept of Iminium Activation In 2000, the MacMillan laboratory disclosed a new strategy for asymmetric synthesis based on the capacity of chiral amines to function as enantioselective catalysts for a range of transformations that traditionally use Lewis acids. This catalytic concept was founded on the mechanistic postulate that the reversible formation of iminium ions from a,p-unsaturated aldehydes and amines [Eq. (11.10)] might emulate the equilibrium dynamics and 7i-orbital electronics that are inherent to Lewis acid catalysis [i.e., lowest unoccupied molecular orbital (LUMO)-lowering activation] [Eq. (11.9)] ... 

Miscellaneous Iminium Catalyzed Transformations The enantioselective construction of three-membered hetero- or carbocyclic ring systems is an important objective for practitioners of chemical synthesis in academic and industrial settings. To date, important advances have been made in the iminium activation realm, which enable asymmetric entry to a-formyl cyclopropanes and epoxides. In terms of cyclopropane synthesis, a new class of iminium catalyst has been introduced, providing the enantioselective stepwise [2 + 1] union of sulfonium ylides and ot,p-unsaturated aldehydes.As shown in Scheme 11.6a, the zwitterionic hydro-indoline-derived catalyst (19) enables both iminium geometry control and directed electrostatic activation of sulfonium ylides in proximity to the incipient iminium reaction partner. This combination of geometric and stereoelectronic effects has been proposed as being essential for enantio- and diastereocontrol in forming two of the three cyclopropyl bonds. 

MacMillan s catalysts 56a and 61 allowed also the combination of the domino 1,4-hydride addition followed by intramolecular Michael addition [44]. The reaction is chemoselective, as the hydride addition takes place first on the iminium-activated enal. The enamine-product of the reaction is trapped in a rapid intramolecular reaction by the enone, as depicted in Scheme 2.54. The intramolecular trapping is efficient, as no formation of the saturated aldehyde can be observed. The best results were obtained with MacMillan s imidazolidinium salt 61 and Hantzsch ester 62 as hydride source. As was the case in the cyclization reaction, the reaction affords the thermodynamic trans product in high selectivity. This transformation sequence is particularly important in demonstrating that the same catalyst may trigger different reactions via different mechanistic pathways, in the same reaction mixture. 

In order to test the iminium-activation strategy, MacMillan first examined the capacity of various amines to enantioselectively catalyze the Diels-Alder reaction between dienes and a,/ -unsaturated aldehyde dienophiles [6]. Preliminary experimental findings and computational studies proved the importance of four objectives in the design of a broadly useful iminium-activation catalyst (1) the chiral amine should undergo efficient and reversible iminium ion formation (2) high... 

In line with the mechanistic rationale of LUMO-lowering iminium activation, MacMillan hypothesized that intermediate 2, generated from the secondary amine 1 and an a,/f-un saturated aldehyde, could be activated towards cydoaddi-tion with an appropriate diene (Scheme 3.1). The Diels-Alder reaction would form iminium ion cydoadduct 5 that, in the presence of water, would hydrolyze to yield the enantioenriched product 6 and regenerate the chiral imidazolidinone catalyst 1. 

A limitation of MacMillan s approach towards iminium-activated Diels-Alder reactions has been the use of a-substituted a,/ -unsaturated aldehydes as dieno-philes. Recently, Ishihara and Nakano [31] succeeded in partially overcoming this problem by identifying a novel primary amine organocatalyst for this type of... 

This isomerization is enantioselective when optically active BINAP is used and provides practical access to optically active aldehydes and alcohols such as L-menthol, which is a key fragrance chemical [297—299], The proposed mechanism involves amine, iminium, and enamine as complex intermediates [300], Extension of this olefin isomerization is realized in the isomerization of an alkyne to a conjugated diene (Scheme 1-47) [301], High chemoselectivity is achieved when Pd(OAc)2 or [Pd2(dba)3]/HOAc, in the presence of phosphine, is used as catalyst (Table 1-14). The phosphine of choice is dppb although dppf could give a similar yield. 

The catalytic cycle operating for a generic Michael-type reaction of a nucleophile (Nu-H) to an a, 3-unsaturated aldehyde or ketone proceeding via iminium activation has been indicated in Scheme 3.1. As it can be seen in this proposed mechanism, all the steps involving iminium formation and hydrolysis are supposed to be in dynamic equilibrium, therefore concluding that the conjugate... 

The diflferent reactivity of aldehydes and ketones toward condensation with amines is also a differentiating element when using enals or enones as Michael donors under iminium activation. As in the enamine activation case, working with a,p-unsaturated aldehydes usually leads to faster reactions or better conversions but the same reaction with enones in many cases turns out to be a very slow or even non-existent reaction. Stereochemical control is also more problematic when a,p-unsaturated ketones are employed because the presence... 

The principle of vinylogy can also be applied to search for other C H acidic compounds as suitable candidates to undergo conjugate addition under iminium activation. This is the case of the vinylogous Michael addition of a,a-dicyanoolefins to a,p-unsaturated aldehydes catalyzed by diphenylprolinol... 

Oxindoles are a particular class of cyclic amides which are acidic enough to play the role of pro-nucleophiles in conjugate additions under iminium activation. In particular, the reaction between 3-alkyl substituted oxindoles and ot,p-unsaturated aldehydes leading to the formation of a quaternary stereocenter at the heterocyclic unit has been studied by several authors (Scheme 3.12). The use of 0-trialkylsilyldiarylprolinols like 31a as catalysts led... 

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... 

Tricarbonyl compounds have also been employed as potential 1,3-dinucleophiles able to undergo a first Michael addition step with a,p-unsatu-rated aldehydes and which can afterwards react with the remaining formyl group for the formation of a cyclohexane ring (Scheme 7.23). This has led to the development of a couple of cascade processes consisting of a Michael reaction proceeding in an asymmetric fashion by iminium activation of the enal. 

On the other hand, a triple Michael/Michael/Aldol cascade sequence has been developed for the synthesis of highly substituted cyclohexanes starting from dimethylmalonate, an a,p-unsaturated aldehyde and a nitroalkene in which H-bonding catalysis and iminium activation were jointly employed for the simultaneous activation of the two Michael acceptors involved in the... 

Heteroatom nucleophiles were described less often. Ye and coworkers published a phospha-Michael addition catalysed by prolinol silyl ether catalyst. Another method for constructing a new C-N bond is the aza-Michael addition, that is the addition of nitrogen-based nucleophiles to a,(3-unsaturated aldehydes. Several groups published these type of reactions using diatylprolinol silyl ether as catalyst. " Fustero and coworkers used this reaction as a key step in the synthesis of biologically active chiral heterocycles. Recently, the authors showed the synthesis of quinolizidine alkaloids, such as (-l-)-myrtine, (-)-lupine and (-l-)-epiquinamide. Vicario applied 5-mercaptotetrazoles as nucleophiles towards a range of unsaturated aldehydes. The reaction proceeded via the iminium activation. The... 

Iminium activation has been recently used to achieve the enantioseleclive conjugate addition of geminal bis(sulfone)s and p-keto sulfones to a,P-unsaturated aldehydes. Almost simultaneously, different groups have reported the efficient use of catalyst 22a in the addition of bis(phenylsulfonyl)methane [200] and fluorobis(phenylsulfonyl) methane [201] to a wide variety of enals to yield the corresponding Michael adducts in excellent yields and enantioselectivities (Scheme 2.72). This reaction is particularly attractive since allows the preparation of interesting chiral building blocks by further synthetic transformations over the aldehyde moiety and reductive desulfonylation [91] of the bis(phenylsulfonyl) group. 

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