5-Oxazolones acids

Merocyanines belong to the class of nonionic methine dyes combining two nuclei, one of which is a ketomethylene of acidic nature such as pyrazolone, rhodanine, oxazolone, thiohydantoin,. 

The pyrazolone-3-carboxyhc acid (71) has been isolated by reaction of oxazolone (70) with hydrazonyl chloride (eq. 18) (46). 

Oxazol-5(2H)-one, 2-benzylidene-4-methyl-tautomerism, 6, 186 Oxazol-5(2ff)-one, 2-methylene-isomerization, 6, 226 Oxazol-5(2H)-one, 2-trifluoromethyl-acylation, 6, 201 Oxazol-5(4ff)-one, 4-allyl-thermal rearrangements, 6, 199 Oxazol-5(4H)-one, 4(arylmethylene)-Friedel-Crafts reactions, 6, 205 geometrical isomerism, 6, 185 Oxazol-5(4ff)-one, 4-benzylidene-2-phenyl-configuration, 6, 185 photorearrangement, 6, 201 Oxazol-5(4ff)-one, 4-benzyl-2-methyl-Friedel-Crafts reactions, 6, 205 Oxazol-5(4ff)-one, 4-methylene-in amino acid synthesis, 6, 203 Oxazol-5(4ff) -one. 2-trifluoromethyl-hydrolysis, 6, 206 Oxazolones... 

Carbamates can be used as protective groups for ammo acids to minimize race-mization in peptide synthesis. Raccmi/ation occurs during the base-catalyzed coupling reaction of an W-protected, catboxyl-uc ivated amino acid, and takes place in the intermediate oxazolone that foro S readily from an N-acyl protected amino... 

The azlactones of a-benzoylaminocinnamic acids have traditionally been prepared by the action of hippuric acid (1, Ri = Ph) and acetic anhydride upon aromatic aldehydes, usually in the presence of sodium acetate. The formation of the oxazolone (2) in Erlenmeyer-Plochl synthesis is supported by good evidence. The method is a way to important intermediate products used in the synthesis of a-amino acids, peptides and related compounds. The aldol condensation reaction of azlactones (2) with carbonyl compounds is often followed by hydrolysis to provide unsaturated a-acylamino acid (4). Reduction yields the corresponding amino acid (6), while drastic hydrolysis gives the a-0X0 acid (5). ... 

Comforth has reviewed literature reports and independently studied the special cases of reaction of 1 with salicylaldehyde and with 2-acetoxybenzaldehyde. Coumarins (10) are afforded in the condensation of 1 with salicylaldehyde or its imine, whereas when 2-acetoxybenzaldehyde is used, acetoxy oxazolone 12 is the major product. The initial aldol condensation product between the oxazolone and 2-acetoxybenzaldehyde is the 4-(a-hydroxybenzyl)oxazolone 11, in which base-catalyzed intramolecular transacetylation is envisioned. The product 9 (R = Ac) can either be acetylated on the phenolic hydroxy group, before or after loss of acetic acid, to yield the oxazolone 12, or it can rearrange, by a second intramolecular process catalyzed by base and acid, to the hydrocoumarin, which loses acetic acid to yield 10. When salicylaldehyde is the starting material, aldol intermediate 9 (R = H) can rearrange directly to a hydrocoumarin. Comforth also accessed pure 4-(2 -hydroxyphenylmethylene)-2-phenyloxazol-5(4//)-one (13) through hydrolysis of 12 with 88% sulfuric acid. 

The last comprehensive review of the chemistry of oxazolones covered the literature through 1954. Most of the studies up to that time stemmed from either interest in the role of azlactones as precursors of a-amino acids and peptides or the monumental studies on penicillin, which, for a time, was thought to possess an oxazolone ring, rather than the correct jS-lactam moiety. 

Several improved methods for the preparation of known unsaturated azlactones as well as some interesting new compounds of this type have been reported. Crawford and Little observed that the direct use of 2-phenyl-5-oxazolone (1) in the Erlenmeyer reaction gave much improved yields (35-74%) of unsaturated azlactones with aliphatic aldehydes and with ketones such as acetone and cyclohexanone [Eq, (1)], The usual procedure of mixing a carbonyl compound, hippuric acid, acetic anhydride, and sodium (or lead) acetate affords poor yields in the aliphatic series. 

The reaction of hippuric acid with a three-fold excess of trifluoro-acetic anhydride gives a 90% yield of 2-phenyl-4-(2, 2, 2 -trifluoro-l -hydroxyethylidene)-5-oxazolone (2). This compound is also obtained... 

The saturated 2,2 -bis-oxazolones (10) are conveniently prepared [Eq. (7)] in two-steps via iV, iV -diacylbis-(a-amino acids), which cyclize in hot acetic anhydride. If R is aliphatic, alkali hydroxides... 

Saturated 2,2 -bis-5-oxazolones (10) react with diamines under mild conditions to form polyamides (34) of high molecular weight in quantitative yield [Eq. (21)]. These polymers are composed of dicarboxylic acid, a-amino acid, and diamine units in a regular arrangement of both head-to-tail and tail-to-tail amide groups. They represent a cross between conventional polyamides and a-amino acid homopolymers. A feature of this polymerization is that no small molecules such as H2O, NHg, or CO2 are lost during reaction. 

Difficulties are often encountered in the formation of peptides from a-amino acids which lack an a-hydrogen atom, e.g. a-methylalanine, presumably because of steric hindrance. This problem is obviated by use of the oxazolone 35, an excellent reagent for the addition of a single a-methylalanyl residue to an amine or amino acid [Eq. (22)]... 

The oxazolone 43, prepared by reaction of 0-methylcaprolactim (42) with compound 1, undergoes a ring-opening reaction with methanolic HCl and cyclizes in alkaline medium to 1,5-pentamethyl-ene-2-phenylimidazole-4-carboxylic acid (44), which can be decar-boxylated easily. 

The isolation of several pairs of geometric isomers of 4-unsaturated-5-oxazolones has been described. Generally, only one isomer is obtained when an aldehyde reacts with hippuric acid in the presence of acetic anhydride. Occasionally, mixtures have been separated in base-catalyzed reactions. In acetic anhydride-sulfuric acid or in 100% sulfuric acid, a mixture is obtained, and it has been suggested that sulfuric acid inhibits mutarotation of the intermediate addition product 53, which is a mixture of diastereomers (see, e.g., compound... 

The preparation of the less stable isomer (53b) of the oxazolone 53a involves a rather tedious procedure. It has been reported that 53a is rapidly isomerized to 53b in 48% hydrobromic acid saturated with gaseous HBr. In this way four azlactones have been converted into their isomers.It has been established, moreover, that the isomerization is radical-initiated and does not involve a carbonium ion intermediate. The isomerization can be reversed by pyridine. ... 

The member of this class which has been studied most thoroughly is 2-benzylidene-4-methyl-5(2 )-oxazolone (57). This compound may be prepared by ring closure of either 3-bromo-2-phenylacetamido-propionic acid or A-(a-halophenylacetyl)alanine (56) [Eq. (30)]. These reactions presumably proceed via unstable halogeno-5(4IT)-oxazolones, which rapidly lose hydrogen halide. 

Conjugate addition of strong nucleophiles to the >C=N—C=C< moiety, followed by ring opening of the resulting saturated 5 4H)-oxazolone. Thus, 57 reacts with simple or peptidic amino acid esters [Eq. (31)]. Similarly, 62 gives 63 in methanolic 7i-propylamine, and... 

Catalytic hydrogenation of 57 affords 2-phenylacetamidopropionic acid (66) or its ester by solvolytic opening of the initially formed 5(4 )-oxazolone. Lithium aluminum hydride reduction gives the... 

With monoamines, the oxazolones give the normal ring-opened products, A-TFA amino acid amides, but with aniline both forms... 

The isolation in poor yield of 2,5,5-triphenyl-4(5f )-oxazolone (82) by reaction of benzilic acid with benzonitrile in concentrated sulfuric acid was claimed by Japp and Findlay. Cornforth, however, suggested that the reactions of this product, m.p. 136°, could be accounted for more satisfactorily by the isomeric 5(4i ) structure 83. 

Double cyclization of the phenylglycine o-carboxylic acids 611 (R = H) with acetic or benzoic anhydride by heating gave the mesoionic oxazolones 612 and 613, respectively, which upon treatment with BF3 Et20 gave 615... 

This procedure offers a reproducible method for the preparation of 2-phenyl-5-oxazolone, which is not commercially available It illustrates that strict attention to detail often smooths out an erratic procedure 2-Phenyl-5-oxazolone is, of course, an important intermediate in the synthesis of a-amino acids and related materials6... 

Acetic anhydride, condensation with and acetylation of glycine, 46, 1 in cyclization of c-formylphenoxy-acetic acid to coumarone, 46, 28 in cyclization of hippuric acid to 2-phenyl-5-oxazolone, 47, 101 reaction with N-nitroso-N-phenyl-glycine to yield 3-phenylsydnone, 46,96... 

Hippuric acid, cyclization to 2 phenyl-5 oxazolone with acetic anhydride, 47,101 Holarrhimine, 46, 61 Hydrazine, reaction with cinnamalde-hyde, 47, 99... 

Compounds of special interest whose preparation is described include 1,2,3-benzothiadiazole 1,1-dioxide (a benzyne precursor under exceptionally mild conditions), bis(l,3-diphenylimida-zolidinylidene-2) (whose chemistry is quite remarkable), 6- di-melhylamino)julvene (a useful intermediate for fused-ring non-benzenoid aromatic compounds), dipkenylcyclopropenone (the synthesis of which is a milestone in theoretical organic chemistry), ketene di(2-melhoxyethyl) acetal (the easiest ketene acetal to prepare), 2-methylcyclopenlane-l,3-dione (a useful intermediate in steroid synthesis), and 2-phenyl-5-oxazolone (an important intermediate in amino acid chemistry). 

Oxazolones (azlactones) are a form of activated lactones, so they are included in this section. CAL-B is an effective catalyst for the DKR of various racemic four-substituted-5 (4H)-oxazolones, in the presence of an alcohol, yielding optically active N-benzoyl amino acid esters as illustrated in Figure 6.24 [40]. Enantioselective biotransformations of lactides [72,73] and thiolactones ]74] have also been reported. 

The main application of the enzymatic hydrolysis of the amide bond is the en-antioselective synthesis of amino acids [4,97]. Acylases (EC 3.5.1.n) catalyze the hydrolysis of the N-acyl groups of a broad range of amino acid derivatives. They accept several acyl groups (acetyl, chloroacetyl, formyl, and carbamoyl) but they require a free a-carboxyl group. In general, acylases are selective for i-amino acids, but d-selective acylase have been reported. The kinetic resolution of amino acids by acylase-catalyzed hydrolysis is a well-established process [4]. The in situ racemization of the substrate in the presence of a racemase converts the process into a DKR. Alternatively, the remaining enantiomer of the N-acyl amino acid can be isolated and racemized via the formation of an oxazolone, as shown in Figure 6.34. 

When an a-amino acid is treated with an anhydride in the presence of pyridine, the carboxyl group is replaced by an acyl group and the NH2 becomes acylated. This is called the Dakin-West reaction The mechanism involves formation of an oxazolone. The reaction sometimes takes place on carboxylic acids even when an amino group is not present. A number of N-substituted amino acids, RCH-(NHR )COOH, give the corresponding N-alkylated products. 

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