Mannich reaction three component coupling

Mukund Sibi of North Dakota State University has developed (J. Am. Chem. Soc. 2004,126,718) a powerful three-component coupling, combining an a,(5-unsaturated amide 9, a hydroxylamine 10, and an aldehyde 11. The hydroxylamine condenses with the aldehyde to give the nitrone, which then adds in a dipolar sense to the unsaturated ester. The reaction proceeds with high diastereocontrol, and the absolute configuration is set by the chiral Cu catalyst. As the amide 9 can be prepared by condensation of a phosphonacetate with another aldehyde, the product 12 can be seen as the product of a four-component coupling, chirally-controlled aldol addition and Mannich condensation on a starting acetamide. 

The original Mannich reaction is the acid-catalyzed aminomethylation of enohz-able ketones with non-enolizable aldehydes and ammonia, primary amines, or secondary amines, which involves nucleophilic addition of ketone enols to iminium salts generated in situ from the aldehydes and the nitrogen compounds [183]. This three-component coupling reaction provides a powerful tool for carbon-carbon bond formation and introduction of nitrogen functionality. The classical Mannich reaction has some drawbacks in reaction efficiency, regioselectivity, and appli-... 

Three-component coupling reaction of a-enones, silyl enolates, and aldehydes by successive Mukaiyama-Michael and aldol reactions is a powerful method for stereoselective construction of highly functionahzed molecules valuable as synthetic intermediates of natural compounds [231c]. Kobayashi et al. recently reported the synthesis of y-acyl-d-lactams from ketene silyl thioacetals, a,/l-urisalu-rated thioesters, and imines via successive SbCl5-Sn(OTf)2-catalyzed Mukaiyama-Michael and Sc(OTf)3-catalyzed Mannich-type reactions (Scheme 10.87) [241]. 

As the intermediate enamine reacts faster with imines than aldehydes, a one-pot three component coupling of the donor ketone, aldehyde and amine is possible. List and coworkers have achieved high ees in this reaction utilising L-proline (7.66) and some aliphatic aldehydes and aromatic aldehydes such as (7.136) in combination with p-anisidene (7.137). This catalyst system is also effective for the coupling of a-hydroxyketones. Use of the tetrazole-substituted proline (7.80) allows the reaction to be performed in dichloromethane rather than DMSO and high ees in the Mannich reaction between aliphatic ketones and imines derived from ethyl glyoxalate have been obtained imder these reaction conditions. 

An inherent advantage of the Petasis borono-Mannich reaction is the ability to conduct reactions in a three-component fashion, since the imine or iminium ion intermediates can be formed in situ from the condensation of either primary or secondary amines with the corresponding aldehydes or ketones. The operational advantages of such a three-component coupling approach, combined with the practical benefits outlined above, render the Petasis borono-Mannich reaction particularly desirable for parallel synthesis applications and in the generation of combinatorial libraries. In-... 

The effectiveness of lanthanide Lewis acid in Mannich-type reaction was further highlighted by three-component coupling reaction of aldehydes, amines, and enol silyl ethers [7]. With MS 4A or MgS04 as dehydrating agent, 5-10 mol% ofYb(OTf)3 worked well to afford corresponding -amino ketone and esters in good to excellent yield (Table 13.3). It should be noted that the present reaction conditions were... 

Considering the water tolerance of lanthanide Lewis acids, a logical extension of the above-mentioned three-component coupling reaction is the reaction in aqueous media. Kobayashi et al. reported Mannich-type reaction of aldehydes, aniline derivative, and methyl enol ethers with 10mol% of Yb(OTf)3 in THF/H2O solvent system (Table 13.4) [8]. Applicability of commercially available aqueous formaldehyde and chloroacetaldehyde solution is of particular importance from the synthetic point of view (entries 1-3). A wide variety of aldehydes were transformed... 

Synthesis of faceted Cu nanoparticles and their use as catalysts in C-N coupling reactions (including the three-component, one-pot Mannich reaction) with high selectivity for the desired products was recently reported by Wang et al. [263]. 

A one-pot synthesis of 1,3-diamines was described in 2009 by Cordova and coworkers [17]. An asymmetric cascade aza-Michael/Mannich reaction was developed using a combination of diphenylprolinol trimethylsilyl ether 5 and proline as catalysts (Scheme 12.13). The cascade was possible because of the complete difference in reactivity between chiral pyrrolidine 5 and proline in the separate reactions. The conjugate addition of a protected methoxyamine to hex-2-enal was coupled to a three-component Mannich reaction, giving direct access to orthogonally protected chiral diamine derivatives with excellent chemo and enantioselectivities (yield 60-62%, ee 98-99%). The use of l-Pto as a catalyst for the Mannich reaction afforded the 6yn-l,3-diamine 30 (dr > 19/1), while the use of the antipode D-proline gave the anti derivative 31 with similar levels of diastereoselectivity. 

The synthesis of (-l-)-monomorine I (1562), by Schneider and coworkers used an asymmetric three-component Mannich coupling between the vinylketene acetal 1635, p-anisidine (1636), and ethyl 4-oxobutanoate (1637) in the presence of the chiral phosphoric acid 1638 as catalyst to furnish the (il)-pyrrolidin-2-one (+)-1639 in 80% yield and 99% ee within 10 min at —55 °C (Scheme 207). ° The stmcture of the product was confirmed by X-ray crystallography. This reaction could be performed on a 32 mM scale by increasing the time to 16 h with little loss of... 

Multicomponent reactions (MCRs) have attracted much attention in the past decade because of advantages such as high atom economy, simple procedure, and high efficiency. [1] Because of their ability to generate complex structures economically and efficiently [2], numerous MCRs have been developed and widely studied, such as the Cu-catalyzed three-component reactions [3-6], Mannich reactions [7, 8], Passerini reactions [9, 10], and A3-coupling reactions [11]. Of these, multicomponent alkyne reactions have become quite popular recently and abundant literature has been published regarding the various MCRs of alkynes with all sorts of reactants [12, 13]. 

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