1.4- Diamines, reaction with carboxylic acid derivatives

A variety of methods have been developed for the preparation of substituted benzimidazoles. Of these, one of the most traditional methods involves the condensation of an o-phenylenediamine with carboxylic acid or its derivatives. Subsequently, several improved protocols have been developed for the synthesis of benzimidazoles via the condensation of o-phenylenediamines with aldehydes in the presence of acid catalysts under various reaction conditions. However, many of these methods suffer from certain drawbacks, including longer reaction times, unsatisfactory yields, harsh reaction conditions, expensive reagents, tedious work-up procedures, co-occurrence of several side reactions, and poor selectivity. Bismuth triflate provides a handy alternative to the conventional methods. It catalyzes the reaction of mono- and disubstituted aryl 1,2-diamines with aromatic aldehydes bearing either electron-rich or electron-deficient substituents on the aromatic ring in the presence of Bi(OTf)3 (10 mol%) in water, resulting in the formation of benzimidazole [119] (Fig. 29). Furthermore, the reaction also works well with heteroaromatic aldehydes. 

Since the discovery of the synthesis of 1,3,5-triazine-2,4-diamines from biguanide and its derivatives,328-329 a large variety of carboxylic acid derivatives, e.g. acid chlorides,332 342,346 lactones,333 amides,334,335 imides,336,337 ortho esters,338 amidines,338 esters334, 339- 343 and acid anhydrides,332,344,345 have been used as starting materials in the preparation of these triazines (Table 8).330,331 The preferred procedure is the reaction of biguanides 1 with esters 2 in alcoholic solution, sometimes in the presence of a basic catalyst. The reaction mechanism is thought to be as indicated.341... 

The reaction of amines with carboxylic acids can also be used to build heterocyclic ring systems. Aliphatic 1,2-diamines and carboxylic acids or their derivatives give imidazolines 716 boiling o-phenylenediamine with a carboxylic acid for 0.5 hour gives the 2-alkylbenzimidazole 717... 

Synthesis of 210 was started from preparation of chiral diamine 211 (Scheme 50) [172], In particular, D-serine methyl ester was converted to iV-benzyl derivative 212, which was transformed into carboxylic acid 212 using reaction with chloroacetyl chloride and subsequent hydrolysis. Carboxylic acid 212 was subjected to coupling with benzyl amine, reduction, reaction with ethyl oxalyl chloride and reductive cyclization to give bicyclic compound 213. Finally, 211 Two-step reduction of 213 led to the formation of diamine 211, which was isolated as dihydrochloride. Reaction of 211 with dichloro derivative 215 and then - hydrazine hydrate gave the product 216, which was coupled with carboxylic acid 217 and subjected to catalytic hydrogenation to give 210. 

Figure 388 An amine terminal derivative of dextran may be prepared through a two-step process involving the reaction of chloroacetic acid with the hydroxyl groups of the polymer to create carboxylates. Next, ethylene diamine is coupled using a carbodiimide-mediated reaction to give the primary amine functional groups.

Another general method for the synthesis of these macrocycles is the reaction of amines with (active) esters of carboxylic acids leading to oxoderivatives of the cycles. The amides can be reduced to amines or directly used for further transformations or complexation of metal ions. Two cyclens 55 and 56, as intermediates for the synthesis of bifunctional DOTA derivatives, were obtained by condensation shown in Scheme 10 between appropriate diamine-amide and active ester of AT-BOC-iminodiacetic acid (BOC = /-butoxycarbonyl), followed by deprotection and reduction <2003NMB581>. 

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