Amines resin-bound

The imidazole ring is a privileged structure in medicinal chemistry since it is found in the core structure of a wide range of pharmaceutically active compounds efficient methods for the preparation of substituted imidazole libraries are therefore of great interest. Recently, a rapid synthetic route to imidazole-4-carboxylic acids using Wang resin was reported by Henkel (Fig. 17) [64]. An excess aliphatic or aromatic amine was added to the commercially available Wang-resin-bound 3-Ar,M-(dimethylamino)isocyano-acrylate, and the mixture was heated in a sealed vial with microwave irradi-... 

The preparation of purine derivatives substituted at the C-2 position via amine displacement of a halogen is known as a difficult reaction step requiring several days of reaction time. However, Al-Obeidi and coworkers have recently prepared 2,6,9-trisubstituted purines on soUd-phase by employing a synthetic route in which the critical step was performed with microwave irradiation (Fig. 37) [62]. PS resin-bound 2-iodosubstituted purine was treated with diethanolamine or propanolamine in NMP with microwave irradiation at 200 °C for 30 min. Trifluoroacetic acid-mediated cleavage resulted in the 2-amino substituted purines in 45-59% yields and 77-89% purities. 

In the first step, a resin-bound secondary amine is acylated with bromoacetic acid, in the presence of N,N-diisopropylcarbodiimide. Acylation of secondary amines is difficult, especially when coupHng an amino acid with a bulky side chain. The sub-monomer method, on the other hand, is facilitated by the use of bromoacetic acid, which is a very reactive acylating agent Activated bromoacetic acid is bis-reactive, in that it acylates by reacting with a nucleophile at the carbonyl carbon, or it can alkylate by reacting with a nucleophile at the neighboring ah-phatic carbon. Because acylation is approximately 1000 times faster than alkylation, acylation is exclusively observed. 

The second step introduces the side chain group by nucleophilic displacement of the bromide (as a resin-bound a-bromoacetamide) with an excess of primary amine. Because there is such diversity in reactivity among candidate amine submonomers, high concentrations of the amine are typically used ( l-2 M) in a polar aprotic solvent (e.g. DMSO, NMP or DMF). This 8 2 reaction is really a mono-alkylation of a primary amine, a reaction that is typically complicated by over-alkylation when amines are alkylated with halides in solution. However, since the reactive bromoacetamide is immobilized to the solid support, any over-alkyla-tion side-products would be the result of a cross-reaction with another immobilized oligomer (slow) in preference to reaction with an amine in solution at high concentration (fast). Thus, in the sub-monomer method, the solid phase serves not only to enable a rapid reaction work-up, but also to isolate reactive sites from... 

Contrary to an alkoxy benzene scaffold, secondary amides were generated via novel aldehyde linker 43 based upon an indole scaffold (Scheme 15) [52]. The indole resin was prepared from indole-3-carboxy-aldehyde in two steps and reacted with amines under reductive conditions to generate resin-bound secondary amines. Treatment of the resin with... 

A versatile approach for the solid-phase synthesis of aminopyr-idazines used the anchoring of 3,6-dichloropyridazine to resin-bound thiophenol 59 (Scheme 28) [68]. Treatment with nucleophilic amines released the aminopyridazine products from the solid support without further oxidation. 

The formation of resin-bound tert.-alkyl carbamates for anchoring of amines was recently described [209a]... 

A combination of a multicomponent Ugi transformation and an intramolecular Diels-Alder reaction has been developed by Paulvannan [13]. Hence, condensation of the resin-bound (acid-labile ArgoGel-Rink resin) amine 10-37 with a tenfold... 

The synthesis of azoniaspirocycles can also be carried out on solid support (Scheme 17) <2005JOC9622>. In the following example the resin-bound piperazine-tethered secondary amine 149 underwent an acylation to give amide 150. This was followed by a spontaneous intramolecular displacement of the bromide to yield the trisubstituted azoniaspiroundecane 151. 

A novel ring opening reaction of isoxazoles led to the formation of functionalized pyrroles <06S1021>. For example, treatment of isoxazole 52 with DBU led to the formation of pyrrole 53. A solid-phase synthesis of 3-amino-2,5-dicarboxylates was accomplished by transformation of pyrrol-3-one 54 <06JCC177>. The reaction between 54 and secondary amines led to the corresponding resin-bound aminopyrroles after enamine formation and loss... 

Resin bound dipeptides have been used in the parallel synthesis of 3,4,7-trisubstituted 4,5,8,9-tetrahydro-3//-imidazo l, 2-a l, 3,5 triazcpinc-2(7//)-thioncs and Af-alkyl-4,5,7,8-tetrahydro-3//-imidazo[ 1,2-a][l, 3,5]triazepin-2-amines by ring construction methodology <06JCOl27>. 

Combs and coworkers have presented a study on the solid-phase synthesis of oxa-zolidinone antimicrobials by microwave-mediated Suzuki coupling [38], A valuable oxazolidinone scaffold was coupled to Bal resin (PS-PEG resin with a 4-formyl-3,5-dimethoxyphenoxy linker) to afford the corresponding resin-bound secondary amine (Scheme 7.18). After subsequent acylation, the resulting intermediate was transformed to the corresponding biaryl compound by microwave-assisted Suzuki coupling. Cleavage with trifluoroacetic acid/dichloromethane yielded the desired target structures. 

Several other reaction types on solid supports have also been investigated utilizing microwave heating. For instance, in an early report, Yu and coworkers monitored the addition of resin-bound amines to isocyanates employing on-bead FTIR measurements in order to investigate the differences in reaction progress under microwave heating and thermal conditions [63]. 

The isocyanates were added to the respective resin-bound amines suspended in dichloromethane in open glass tubes. The resulting reaction mixtures were each irradiated in a single-mode microwave cavity for 2 min intervals (no temperature measurement given) (Scheme 7.52). After each step, samples were collected for on-bead FTIR analysis. Within 12 min (six irradiation cycles), each reaction had reached completion. Acid cleavage of the polymer-bound ureas furnished the corresponding hydrouracils. 

Scheme 7.52 Addition of isocyanates to resin-bound amines.

This novel resin-bound CHD derivative was then utilized in the preparation of an amide library under microwave irradiation. Reaction of the starting resin-bound CHD with an acyl or aroyl chloride yields an enol ester, which, upon treatment with amines, leads to the corresponding amide, thus regenerating the CHD. This demonstrates the feasibility of using the CHD resin as a capture and release reagent for the synthesis of amides. The resin capture/release methodology [126] aids in the removal of impurities and facilitates product purification. 

Benzotriazole-containing resin 167 reacted with aldehydes and amines to give resin-bound Mannich adducts 168, which reacted with Grignard and organozinc reagents to afford tertiary amines 169 <00JCC173>. 

Several syntheses of l,3-dioxoperhydropyrrolo[l,2-c]imidazoles have been developed using different strategies. a-Substituted bicyclic proline hydantoins were prepared by alkylation of aldimines 135 of resin-bound amino acids with a,tu-dihaloalkanes and intramolecular displacement of the halide to generate cr-substituted prolines 136 and homologs (Scheme 18). After formation of resin-bound ureas 137 by reaction of these sterically hindered secondary amines with isocyanates, base-catalyzed cyclization/cleavage yielded the desired hydantoin products <2005TL3131>. 

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... 

For acylation of a resin-bound secondary amine, the choice of solvent is critical. We find that CH2C12 or CH2C12-DMF (9 1) give the optimal results. 

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