Diazotization of amino acids

The diazotization of amino derivatives of six-membered heteroaromatic ring systems, particularly that of aminopyridines and aminopyridine oxides, was studied in detail by Kalatzis and coworkers. Diazotization of 3-aminopyridine and its derivatives is similar to that of aromatic amines because of the formation of rather stable diazonium ions. 2- and 4-aminopyridines were considered to resist diazotization or to form mainly the corresponding hydroxy compounds. However, Kalatzis (1967 a) showed that true diazotization of these compounds proceeds in a similar way to that of the aromatic amines in 0,5-4.0 m hydrochloric, sulfuric, or perchloric acid, by mixing the solutions with aqueous sodium nitrite at 0 °C. However, the rapidly formed diazonium ion is hydrolyzed very easily within a few minutes (hydroxy-de-diazonia-tion). The diazonium ion must be used immediately after formation, e. g., for a diazo coupling reaction, or must be stabilized as the diazoate by prompt neutralization (after 45 s) to pH 10-11 with sodium hydroxide-borax buffer. All isomeric aminopyridine-1-oxides can be diazotized in the usual way (Kalatzis and Mastrokalos, 1977). The diazotization of 5-aminopyrimidines results in a complex ring opening and conversion into other heterocyclic systems (see Nemeryuk et al., 1985). 

Synthesis of diazonium salts. The conventional diazotization of amino compounds is performed as described below. An amino compound is dissolved in acidic water, then aqueous sodium nitrite is added dropwise to the solution, while the solution temperature is kept below 0V. After completion of... 

Pyrrolidone carboxylyl peptidase activity has been followed using pyrrolidone carboxylyl L-alanine (or other pyrrolidone carboxylyl-amino acids) as substrate by following the amount of amino acid released as determined by the ninhydrin method (137). In another assay procedure the release of -naphthyl amine from L-pyrrolidone carboxylic-/ -naphthylamide (135) is determined by the diazotization procedure of Bratton and Marshall (138) as modified by Goldberg and Rutenberg (139). 

A novel ring system, pyrrolo[3,2-f][l,2,5]benzotriazocine 84, was synthesized using a three-step sequence (Scheme 18 <1998JHC1535>). Diazotization of amino pyrrole derivative 83 in acetic acid afforded 1,2,5-triazocine ring in 75% yield by intramolecular coupling of diazonium group with ortho-position of benzyl substituent. 

The diazotization of anthranilic acid, a classic route to benzyne, when carried out in the presence of vinyl acetate, vinyl ethers or 1,1-dichloroethylene gives the expected benzocyclobutenes in about 40% yield. Despite the rather moderate yields this method represents a convenient route to multigram quantities of the parent compounds, benzocyclobutenol and benzocyclobutenone. The latter is easily converted to benzocyclobutene-1,2-dione. The diazotization sequence applied to 2-amino-3,6-dimeth-oxybenzoic acid and 1,1-dichloroethylene results in a 80% yield of 3, imethoxycyclobuten-l-one. Trapping of benzynes with other ethylene derivatives, and especially more substituted alkenes, has given generally poorer, variable results. ... 

The diazotization products of 2- and 4-aminophenols, -naphthols (etc.), possess a mesomeric (zwitterionic) phenolate-diazonium and quinone-diazide structure. We discussed these structures in the context of aromatic diazotization (Zollinger, 1994 Sect. 2.4) because the synthetic methods used are closely related to those used for aromatic diazonium salts. This is also the case for the diazotization of amino-di-, tri- and tetrazoles, which, in their neutral form, contain a heterocyclic NH group in the )8-position to the amino group. After diazotization, the NH group is very acidic. Following deprotonation the product corresponds to a heterocyclic diazoalkane. Similarly, the diazotization product of 4-(dicyano)methylaniline ((4-amino-phenyl)malonitrile) may lose the CH proton. This compound is, therefore, sometimes called a vinylene homolog of diazomalonitrile (Regitz and Maas, 1986, p. 205). 

Detection may be facilitated by preparation of colored or, more often, fluorescent derivatives prior to spotting and development. Examples include dansylation (reaction with 1-dimethyl aminonaphthalene-5-sulfonyl chloride) of amino acids and formation of 2,5-dinitrophenylhydrazones of amino acids and ketosteroids. Other reactions that have been used include oxidation, reduction, hydrolysis, ha-logenation, enzymatic, nitration, diazotization, esterification, and etherification (Szepesi and Nyiredy, 1996 Kovar and Morlock, 1996). Prechromatographic derivatization sometimes improves separation, stability, and/or quantification of the analytes in addition to providing visualization. 

Diazotization of weak unstable amines. A soln. of isoamyl nitrite in ethyl acetate added at 0° during 1.5 hrs. to a well-stirred soln. of ethyl 3-amino-citrazinate in ethyl acetate containing trifluoroacetic acid, and stirring continued for 30 min. in the cold -> ethyl 3-diazocitrazinate. Y 85%. Also methyl ester and diazotization of the acid in chloroform s. Z. B. Papanastassiou et al., Am. Soc. 81, 6056 (1959). 

In this section, we will consider reactions of amino acids other than those leading to peptide formation—that is much the most significant process and will be covered in the next section. Many of the other reactions are simply those you would expect for primary amines, or carboxylic acids. The amino groups can be acylated by acid chlorides or anhydrides (Figure 22.24). Reaction with nitrous acid leads to diazotization the reaction in Figure 22.25 goes with a double inversion of configuration, via an unstable a-lactone. The product is obtained in better than 95 % enantiomer excess. 

The most important reaction of the diazonium salts is the condensation with phenols or aromatic amines to form the intensely coloured azo compounds. The phenol or amine is called the secondary component, and the process of coupling with a diazonium salt is the basis of manufacture of all the azo dyestuffs. The entering azo group goes into the p-position of the benzene ring if this is free, otherwise it takes up the o-position, e.g. diazotized aniline coupled with phenol gives benzeneazophenol. When only half a molecular proportion of nitrous acid is used in the diazotization of an aromatic amine a diazo-amino compound is formed. 

Some recent general reviews deal with the mechanism of N-nitrosation in aqueous solution (345), the nitrosation of secondary amines (346). the effect of solvent acidity On diazotization (347) and the reactivity of diazonium salts (1691). Therefore, a complete rationalization of the reactivity of amino azaaromatics would be timelv. 

Stilben-4-yl)naphthotriazoles (2) are prepared by diazotization of 4-amino-stilbene-2-sulfonic acid or 4-amino-2-cyano-4 -chlorostilbene, coupling with an ortho-coupling naphthylamine derivative, and finally, oxidation to the triazole. 

Of these dyes, Acid Yellow 151 (37) still has the greatest market among the yellows. As reported by USITC, production had increased to 1989 tons in 1985 from 706 tons in 1975. It is produced by coupling diazotized 2-amino-l-phenol-4-sulfonamide to acetoacetanilide followed by metallizing with cobalt to obtain a 1 2 cobalt complex. Acid Orange 24 (38), which is sulfanilic acid coupled to resorcinol to which diazotized mixed xyUdines have been coupled, is an unsymmetrical primary diasazo dye with a bihinctional coupling component. 

Attempted diazotization in dilute acid sometimes yields primary nitroso compounds. Reactions of 3- and 5-amino-1,2,4-thiadiazoles with sodium nitrite and acid give primary nitrosamines (e.g. 432->433) (65AHC(5)n9) which can be related to the secondary nitrosamines (434) prepared in the normal way. 1-Substituted 5-aminotetrazoles with nitrous acid give stable primary nitrosamines (435). Primary nitrosamines have been isolated in the imidazole series. 

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