5 -Oxazolones nitrogen nucleophiles

Ethoxymethylene)-2-phenyl-5(47/)-oxazolone 404, readily available from hippuric acid and triethyl orthoformate, has also been used as a starting material for other unsaturated oxazolones via addition-elimination reactions. Nitrogen nucleophiles are most commonly used and amines give rise to 4-(aminomethyl-ene)-2-phenyl-5(4//)-oxazolones 405 (Scheme 7.130 Table 7.37, Fig. 7.48) which, in many cases have been evaluated as antihypertensives. 

In general, the reaction of unsaturated 5(4//)-oxazolones 497 with nitrogen nucleophiles effects ring opening to give the corresponding unsaturated acylamino amides 498 (Scheme 7.158). Depending on the nucleophile, for example, amines, hydrazines, oximes, and so on, the products obtained can be cyclized and this process allows the synthesis of a wide variety of new heterocyclic compounds. 

There are a number of comprehensive studies reported of the reactions of a particular unsaturated oxazolone with nitrogen nucleophiles. On the other hand, unsaturated 5(4/f)-oxazolones react with a variety of amines to yield acylamino amides with interesting agrochemical properties. ... 

Unsaturated 5(4//)-oxazolones derived from aromatic and heterocyclic aldehydes including phthalic anhydride/ antipyrine/ " chromone/ indoles/ pyridines/" ° quinolines/" diazines/" benzoxazoles/" and benzimidazoles " " have been prepared. Reaction with nitrogen nucleophiles and subsequent cycliza-tion leads to the expected 5(477)-imidazolones. 

Amino acids " " and aminobenzoic acids " " react as nitrogen nucleophiles to effect ring opening of unsaturated 5(4//)-oxazolones. Cyclization of the intermediate acylamino amide has opened the way for the synthesis of new series of imidazolones that now incorporate a carboxylic acid moiety into the N-1 substituent. These compounds are readily further elaborated into derivatives with diverse biological activity. 

Other nitrogen nucleophiles such as hydrazines, hydrazides, and Schiff bases have affected ring opening of oxazolones. Most often, hydrazine or substituted hydrazines are used. For example, hydrazinolysis of 525 affords the corresponding hydrazides 526 that, depending upon the substituents and the reaction conditions, can cyclize in the reaction medium to the aminoimidazolone 527 (Scheme 7.167 ... 

Reaction of unsaturated 5(4//)-oxazolones with bis(nucleophiles) opens the way for the preparation of diverse heterocyclic compounds depending on the nucleophilic atoms of the reagent. First, if we consider nitrogen-containing bis(nucleo-philes), the reaction of anthranilic acid with unsaturated oxazolones 550 gives rise to substituted 3,l-benzoxazin-4-ones 551 (Scheme 7.174). " °... 

However, most nucleophiles attack 5-oxazolones at the carbonyl group and the products are derivatives of a-amino acids formed by acyl-oxygen fission. Thus the action of alcohols, thiols, ammonia and amines leads, respectively, to esters, thioesters and amides orthophosphate anion gives acyl phosphates (Scheme 18). The use of a-amino acids in this reaction results in the establishment of a peptide link. Cysteine is acylated at the nitrogen atom in preference to the sulfur atom. Enzymes, e.g. a-chymotrypsin and papain, also readily combine with both saturated and unsaturated azlactones. A useful reagent for the introduction of an a-methylalanine residue is compound (202). Both the trifluoroacetamido and ester groups in the product are hydrolyzed by alkali to give a dipeptide. The alkaline hydrolyzate may be converted into the benzyloxycarbonyl derivative, which forms a new oxazolone on dehydration. Reaction with an ester of an amino acid then yields a protected tripeptide (equation 45). 

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