Hydroxylamine hydroxamic acid formation

Hydroxamic acid formation cf. Section 9, p. 334). To a few drops of an ester, add 0 2 g. of hydroxylamine hydrochloride and about 5 ml. of 10% NaOH solution and gently boil the mixture for 1-2 minutes. Cool and acidify with dil. HCl and then add a few drops of ferric chloride solution. A violet or deep red-brown colour develops immediately. 

Hydroxamic acid formation. To 0 1 g. of acetic anhydride, add 0 1 g. of hydroxylamine hydrochloride and 5 ml. of 10% NaOH solution. Boil the mixture for i minute, cool and acidify with dilute... 

For the example of hydroxamic acid formation given above, the efficiency of the exchange reaction depends on the relative nucleophilic strength of H2O and NH2OH and on the concentration of the latter. Hydroxylamine is a stronger nucleophilic replacement reagent but is present in relatively low concentration it is therefore favored by the more stable enzyme-acyl substrate bond. We have shown that the stability of the acylated enzyme is characterized by fcs and that for comparable reactions of trypsin and ficin on papain the rate of hydrolysis of the acyl-enzyme compound of the former is ten times as fast as that of the latter. The findings of Durell and Fruton... 

On this basis the extent to which an enzyme-catalyzed transamidation will occur will depend on the relative concentration of water and the replacement reagent, and the relative affinity of the replacement agent for the ES-complex. Durell and Fruton (51) have studied papain-catalyzed hydroxamic acid formation from o-benzoyl-L-argininamide. Their calculations show that hydroxylamine is about 420 times more efficient in its reaction with the enzyme-substrate complex than is water. Preliminary observations suggest that when amino acid amides or peptides are the attacking molecule the efficiency is even greater. Moreover, papain is a much more effective catalyst for transamidation than trypsin. 

In 2000, an efficient three-step procedure for the synthesis of 5-substituted 3-isoxazolols (without formation of undesired 5-isoxazolone byproduct) was published. The method uses an activated carboxylic acid derivative to acylate Meldrum s acid, which is treated with A,0-bis(ten-butoxycarbonyl)hydroxylamine to provide the N,0-di-Boc-protected P-keto hydroxamic acids 14. Cyclization to the corresponding 5-substituted 3-isoxazolols 15 occurs upon treatment with hydrochloric acid in 76-99% yield. 

Although the synthesis of 3-isoxazolols from P-keto esters and hydroxylamine suffers from the formation of 5-isoxazolones as major products, treatment of acyl chlorides with Meldrum s acid 4 followed by aminolysis gave rise to p-keto hydroxamic acids 6 that cyclised to the corresponding 5-substituted 3-isoxazolols 7 without formation of any byproduct <00JOC1003>. Cyclisation of N-substituted salicylhydroxamic acids 9 under... 

Acyl nitroso compounds (3, Scheme 7.2) contain a nitroso group (-N=0) directly attached to a carbonyl carbon. Oxidation of an N-acyl hydroxylamine derivative provides the most direct method for the preparation of acyl C-nitroso compounds [10]. Treatment of hydroxamic acids, N-hydroxy carbamates or N-hydroxyureas with sodium periodate or tetra-alkyl ammonium periodate salts results in the formation of the corresponding acyl nitroso species (Scheme 7.2) [11-14]. Other oxidants including the Dess-Martin periodinane and both ruthenium (II) and iridium (I) based species efficiently convert N-acyl hydroxylamines to the corresponding acyl nitroso compounds [15-18]. The Swern oxidation also provides a useful alternative procedure for the oxidative preparation of acyl nitroso species [19]. Horseradish peroxidase (HRP) catalyzed oxidation of N-hydroxyurea with hydrogen peroxide forms an acyl nitroso species, which can be trapped with 1, 3-cyclohexanone, giving evidence of the formation of these species with enzymatic oxidants [20]. 

Organic thermochemistry of hydroxylamines, oximes, and hydroxamic acids 69 TABLE 3. Enthalpies of formation for dioximes (kJ mol )... 

Hydrolysis of nitrones, oximes and hydroxamic acids is frequently used as a final step in the preparation of substituted hydroxylamines. Although hydrolysis is the most commonly utilized method for oximes, oxime ethers and nitrones, formation of sensitive hydroxylamines can also be achieved under milder reaction conditions by treatment of... 

Ho and coworkers" have observed that the addition of small amounts of solid KCN (0.2 equivalents) can effectively accelerate the formation of hydroxamic acids 112 from methyl esters 111 (Scheme 58). The authors suggested that this reaction proceeds through an acylcyanide intermediate followed by nucleophilic substitution by 50% aqueous hydroxylamine at room temperature. The use and advantage of this methodology have been demonstrated for both solution-phase and solid-phase applications. 

In 2003, Devocelle and colleagues reported a convenient two-step procedure for the parallel synthesis of hydroxamic acids (or O-protected hydroxamic acids 207) from carboxylic acids and hydroxylamine. It involves the formation of a polymer-bound HOBt active ester 206 from 204 and the acid 205 and subsequent reaction with O-protected or free hydroxylamine (Scheme 89). The use of free hydroxylamine leads to increased yields while maintaining high purities. Recycling of the exhausted resin 204 to prodnce the same or a different hydroxamic acid has been achieved by a three-step protocol, which is easily amenable to automation and cost-economical. 

The starting material for the tricyclic NSAID meseclazone (69-5) consists, appropriately, of chlorosalicylic acid (69-1), which has NSAID activity in its own right. Reaction of the acid with hydroxylamine gives the hydroxamic acid (69-2). Treatment of that product with the diethyl acetal from 4-chlorobutyraldehyde (69-3) gives the derivative (69-4), which is in effect a carbinolamine derivative of the aldehyde. Exposure to a mild base results in the formation of the final ring by displacement of the terminal side chain chlorine by the hydroxylamine oxygen [71]. It is not at all unlikely that the product, meseclazone (69-5), is actually converted back to the salicylate (69-1) in vivo. 

As in 0-52 hydrazides and hydroxamic acids can be prepared from carboxylic esters, with hydrazine and hydroxylamine, respectively. Both hydrazine and hydroxylamine react more rapidly than ammonia or primary amines (the alpha effect, p. 351). Imidates RC(=NH)OR give amidines RC(=NH)NH2. Lactones, when treated with ammonia or primary amines, give lactams. Lactams are also produced from y- and 8-amino esters in an internal example of this reaction. Isopropenyl formate is a useful compound for the formylation of primary and secondary amines,897... 

N,0-Acyltransferase. The /V-acyl transferase enzyme is believed to be involved in the carcinogenicity of arylamines. These compounds are first V-oxidized, and then, in species capable of their A-acetylation, acetylated to arylhydroxamic acids. The effect of N, O-transacetylation is shown in Figure 7.22. The A/-acyl group of the hydroxamic acid is first removed and is then transferred, either to an amine to yield a stable amide or to the oxygen of the hydroxylamine to yield a reactive N-acyloxyarylaminc. These compounds are highly reactive in the formation of adducts with both proteins and nucleic acids, and N, O -acy I Iransfcrasc, added to the medium in the Ames test, increases the mutagenicity of compounds such as A-hydroxy-2-acetylaminofluorine. 

Amide formation from carboxylic acids 480 with O-subsituted hydroxylamine hydrochlorides also proceeds in the presence of DCC to give the substituted hydroxamic acid 481 in 91 % yield.451... 

Electrophilic N-aminations have been performed with hydroxylamine-O-sulfonic acid (HOSA)," O-(2,4-dinitrophenyl)hydroxylamine and C>-mesitylenesulfonylhydroxylamine. The use of HOSA is mainly restricted to aqueous reaction media. Imide sodium salts of some heterocycles such as theobromine (88) can be converted to hydrazine derivatives by treatment with 0-(diphenylphosphinyl)hydroxylamine (equation 35)." This reaction has been extended to synthesis of N-arylhyd ines, where R and R are hydrogen, alkyl or aryl (equation 36)." Similarly, trisubstituted hydrazines can be prepared by the use of N-aryl-O-acetylhy oxylamines and secondary amines." A recent publication" concerning the synthesis of l-acyl-2-dkylhydrazines from hydroxamic acids and amines in the presence of activating agents has been found to be erroneous no N—N bond formation occurs under these conditions." ... 

Weisburger, H. H., Weisburger, E. K. Biochemical Formation and Pharmacological, Toxicological and Pathological Properties of Hydroxylamines and Hydroxamic Acids. Baltimore Williams Wilkins 1973. 

Reaction of penicillin with hydroxylamine leads to the formation of a hydroxamic acid. The colored chelate formed with ferric ion and the hydroxamic acid of benzyl-penicillin was developed into an assay procedure in 1949 103, The color was stable if solutions were read within 5 minutes. Extraction of the colored complex into n-butanol 104 gave a stable color. Details of the hydroxamic acid procedure for a number of penicillins,including phenoxymethyl penicillin,were published in the Federal Register . 

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