Phase Mannich reaction

SOLID-PHASE MANNICH REACTIONS OF A RESIN-IMMOBILIZED SECONDARY AMINE... 

In addition to the ionic liquid-mediated procedure in solution (see Scheme 6.112), Leadbeater and coworkers also presented a solid-phase protocol for a one-pot Mannich reaction employing the above mentioned chlorotrityl linker [67]. In this approach, p-chlorobenzaldehyde and phenylacetylene were condensed with readily prepared immobilized piperazines (Scheme 7.56). 

To fully use the advantages afforded by multicomponent reaction systems in solid-phase organic synthesis, strategies in which each component is immobilized on the resin must be devised. In this way, individual components can be explored in terms of diversity without the restrictions imposed by immobilization. We have described solid-phase Mannich reactions1 of a resin-bound alkyne (see chapter 5), and we show here that the diversity of products using this chemistry can be enhanced when a different component of the reaction system is immobilized. Specifically, a secondary amine, piperazine, is bound to a resin and then treated with... 

Multicomponent reaction systems are highly valued in solid-phase organic synthesis because several elements of diversity can be introduced in a single transformation.1 The Mannich reaction is a classic example of a three-component system in which an active hydrogen component, such as a terminal alkyne, undergoes condensation with the putative imine species formed from the condensation of an amine with an aldehyde.2 The resultant Mannich adducts contain at least three potential sites for diversification specifically, each individual component—the amine, aldehyde, and alkyne—can be varied in structure and thus provide an element of diversity. 

Solid-phase library synthesis of triazolopyridazines via a [4+2] cycloaddition strategy has been accomplished <99TL619>. Intramolecular bis-Mannich reaction of 3-aryl-5-mercapto-13,4-triazole, formaldehyde and a-phenylethylamine yields chiral 5-aryltriazolo[3,4-ft]-[133]thiadiazine derivatives. These compounds have been screened for antibacterial activities and some of them show potent biological activity <99SC2027>. 

Dyatkin, A. B. Rivero, R. A. The Solid Phase Synthesis of Complex Propargylamines Using the Combination of Sonogashira and Mannich Reactions, Tetrahedron Lett. 1998,39, 3647-3650. 

Phase-transfer-catalyzed direct Mannich reaction of glycine Schiff base 2 with a-imino ester 79 was achieved with high enantioselectivity by the utilization of N-spiro chiral quaternary ammonium bromide le as catalyst (Table 5.14) [42],... 

Table 5.14 Direct asymmetric Mannich reaction of2 with a-imino ester under phase-transfer conditions.

Michael-aldol reaction as an alternative to the Morita-Baylis-Hillman reaction 14 recent results in conjugate addition of nitroalkanes to electron-poor alkenes 15 asymmetric cyclopropanation of chiral (l-phosphoryl)vinyl sulfoxides 16 synthetic methodology using tertiary phosphines as nucleophilic catalysts in combination with allenoates or 2-alkynoates 17 recent advances in the transition metal-catalysed asymmetric hydrosilylation of ketones, imines, and electrophilic C=C bonds 18 Michael additions catalysed by transition metals and lanthanide species 19 recent progress in asymmetric organocatalysis, including the aldol reaction, Mannich reaction, Michael addition, cycloadditions, allylation, epoxidation, and phase-transfer catalysis 20 and nucleophilic phosphine organocatalysis.21... 

The phase-transfer-catalyzed direct Mannich reaction of 28 with a-imino ester 64 was achieved with high enantioselectivity by using 32e as catalyst (Scheme 4.23) [63]. This method enables the catalytic asymmetric synthesis of differentially protected 3-aminoaspartate, a nitrogen analogue of dialkyl tartrate, the util-... 

Other reports for the boron-Mannich reaction include the synthesis of aminophenol derivatives,561 a-arylglycines,576 a growth hormone secretagogue NN703,577 a polyhydroxyindolizine alkaloid uniflorine A,578 and cyclic ct-amino acids.579 The reaction has been applied to solution-phase reactions580 and the solid-phase reaction581-585 for the synthesis of libraries of peptides, a-amino acids, and bicyclic diketopiperazines. The reactions were accelerated by the irradiation of microwave.586... 

N-Alkylation of 1,2,3-triazoles and benzotriazoles is readily achieved using (1) alkyl halides, dialkyl sulfates, diazoalkanes, and jS-tosylates or (2) the Mannich reaction. When alkyl halides are used, sodium alkoxide, sodium hydride, or sodium hydroxide is usually employed as the base. The N-alkylation of benzotriazole with alkyl halides proceeds efficiently using powdered NaOH as the base in DMF. The highest yields (80100%) of the alkylated benzotriazoles are obtained when a fourfold excess of NaOFl is employed. A-Alkylbenzotriazoles have been prepared from benzotriazole and alkyl halides using phase-transfer catalysts, e.g., KOFI, benzene, tetrabutyl-ammonium salts or KOH, benzene, polyethylene glycol. 

In CHEC-II(1996) the detailed discussion of thiophenes as intermediates was, somewhat arbitrarily, limited to photochemical and electrocyclic processes. Additionally, reactions were included which destroy the aromatic thiophene skeleton to give rise to open chain molecules. In this scheme very recent applications of thiophenes such as thiophene-based amide linkers in solid-phase synthesis <2006JOC6734> or V-(2-thienyl)sulfonyl aldimins in chiral Mannich reactions <2006OL2977> did not be fit in. 

Schlienger, N., Bryce, M. R., Hansen, T. K. The Boronic Mannich Reaction in a Solid-Phase Approach. Tetrahedron 2000, 56,10023-10030. 

The use of water in Mannich reactions is counterintuitive since it is supposed to shift to the left the imine formation reaction. However, as in the case of aldol reactions catalysed by species 3-12 (Table 1.1), the success is due to the biphasic heterogeneous conditions adopted - all three components of the Mannich reaction and the catalyst forming an organic phase where the process takes place, the water/organic interphase providing a local environment rich in free OH bonds that can co-activate the substrate. ... 

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