With Support-Bound Arylating Agents

Aryl- and heteroaryl halides can undergo thermal or transition metal catalyzed substitution reactions with amines. These reactions proceed on insoluble supports under conditions similar to those used in solution. Not only halides, but also thiolates [76], nitro groups [76], sulfinates [77,78], and alcoholates [79] can serve as leaving groups for aromatic nucleophilic substitution. 

Support-bound 4-fluoro-3-nitrobenzoic acid has become a widely used intermediate for the preparation of a variety of heterocycles (see Chapter 15). Aromatic nucleo- 

Non-activated aryl bromides (but not fluorides) can be used as substrates for palla-dium(0)-catalyzed aromatic nucleophilic substitutions with aliphatic or aromatic amines. These reactions require sodium alcoholates or cesium carbonate as a base, and sterically demanding phosphines as ligands. Moreover, high reaction temperatures are often necessary to achieve complete conversion (Entries 7 and 8, Table 10.4 Experimental Procedure 10.1). Unfortunately, the choice of substituents on the amine 

N-Arylations of amines have also been realized with support-bound heteroaromatic halides (Entries 9-11, Table 10.4). Several examples of the synthesis of substituted 1,3,5-triazines [83-85], purines [78,85-93], and pyrimidines [77,85,94—96] have been reported. The reactivity of these arylating agents depends strongly on their precise substitution pattern, and generally increases with decreasing electron density of the het-eroarene. Illustrative examples are given in Table 10.4. The arylation of amines with simultaneous cleavage of the product from the support is discussed in Section 3.8. 

Experimental Procedure 10.1 Arylalion ol bcn/ylamine with a support-bound an l bromide [821 

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Some heteroarylamines have been prepared by aromatic nucleophilic substitution of suitable support-bound arylating agents with amines (Table 3.27). This technique has been successfully employed in the synthesis of 2-(alkylamino)pyrimidines [507,508], 2-(arylamino)pyrimidines [509], aminopurines [510-512], and 1,3,5-triazines [513]. When the heteroarene is bound to the support as a thioether, nucleophilic clea-... 

Illustrative examples of the acylation of support-bound amines with carbodiimides as coupling agents are listed in Table 13.3. Difficulties are usually encountered in the acylation of a-alkylamino acid derivatives (which are significantly less nucleophilic than simple secondary amines Entries 3 and 4) and Al-alkyl (Entries 5 and 6) or iV-aryl anilines. Acylations with haloacetic or related acids containing a leaving group prone to nucleophilic displacement should not be performed with the aid of HOBt and bases because O-alkylation of HOBt by the product occurs readily. 

Reissert compounds (l-acyl-l,2-dihydro-2-quinolinecarbonitriles) have been prepared on cross-linked polystyrene and C-alkylated in the presence of strong bases (Entry 8, Table 15.25). Treatment of polystyrene-bound C-alkylated Reissert compounds with KOH leads to the release of isoquinolines into solution (Entry 9, Table 15.25). The reaction of support-bound quinoline- and isoquinoline /Y-oxides with acy-lating agents followed by treatment with electron-rich heteroarenes and enamines has been used to prepare alkylated and arylated derivatives of these heterocycles (Entry 10, Table 15.25 see also Table 15.26). 

Polystyrene-bound silanes are usually prepared by reaction of organolithium compounds with resin-bound silyl chlorides [12, 13]. The C-Si bonds of aryl-, heteroaryl-, vinyl-, and allylsilanes are stable towards alcoholates or weak reducing agents, but can be cleaved under mild conditions by treatment with acids or fluoride to yield a hydrocarbon and a silyl ester or silyl fluoride. Several linkers of this type have been tested and have proven useful for the preparation of unfunctionalized arenes and alkenes upon cleavage from insoluble supports. 

The application of transition metal-mediated reactions on solid support is an area of supreme interest for both peptide chemistry and the synthesis of nonpeptidic drug-like molecules. Although many metal-catalyzed reactions have been carried out on resin-bound scaffolds, there are scarce examples of metal-mediated solid-phase reactions promoted by a complexing agent that is covalently bound with the resin in close proximity of the scaffold. Dai and Sun have recently proposed an ingenious route toward the microwave-assisted solid-phase synthesis of a small library of 2-(hetero)aryl indoles. The authors demonstrated the strategic use of a tailor-made linker that features the dual function of a normal linker for scaffold attachment as well as of a promoter for the Cu(II)-mediated hetero-annulation of the intermediates (Scheme 8.17). 

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