Hydroxylamines synthesis procedure

Two substituents on two N atoms increase the number of diaziridine structures as compared with oxaziridines, while some limitations as to the nature of substituents on N and C decrease it. Favored starting materials are formaldehyde, aliphatic aldehydes and ketones, together with ammonia and simple aliphatic amines. Aromatic amines do not react. Suitable aminating agents are chloramine, N-chloroalkylamines, hydroxylamine-O-sulfonic acid and their simple alkyl derivatives, but also oxaziridines unsubstituted at nitrogen. Combination of a carbonyl compound, an amine and an aminating agent leads to the standard procedures of diaziridine synthesis. 

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. 

The discovery of oxazoline hydroxamates as potential inhibitors of LpxC was the result of high-throughput screening of large libraries of compounds at the Merck Research Laboratories in collaboration with the Department of Biochemistry, Duke University Medical Center [95]. The lead compound, L-573,655, was a racemic mixture of 4-carbohydroxamido-2-phenyl-2-oxazoline, which had been previously made by Stammer et al. [96] as a precursor in the chemical synthesis of cyclosporine. Namely, (R,S)-serine methyl ester hydrochloride (149) is converted into (R,S)-4-carbomethoxy-2-phenyl-2-oxazoline (150) via treatment with ethyl benzimidate using the Elliot procedure [97]. Treatment of this ester with one equivalent each of hydroxylamine and sodium methoxide in methanol at room temperature affords the desired (R,S)-4-carbohydroxamido-2-phenyl-2-oxazoline (151), as depicted in Scheme 30. 

In 2002, Kanno and Taylor successfully developed a simple one-pot procedure using MnOi/NHiOMe-HCl for the conversion of activated primary alcohols into O-methyl oximes (Scheme 11). They also developed a modification using Amberlyst 15-supported alkoxylamines, which can be employed to prepare other types of 0-aUcyl oximes as well as the parent hydroxylamines. This latter procedure has been used as the cornerstone of an efficient synthesis of the antifungal natural product citaldoxime 11 (Scheme 11). Citaldoxime is an antifungal natural product first obtained as a radiation-induced stress metabolite of Citrus sinensis , and later isolated from the roots of several different citrus plants. ... 

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. 

General synthesis of pyrroles and 1-vinylpyrroles by the reaction of ketoximes with acetylenes and their synthetic equivalents (vinyl halides and dihaloethanes) in the presence of the strongly basic KOH/DMSO system (Trofimov reaction) has been reviewed ° in recent years. Therefore, in the present work this reaction will be described very shortly. In principle, pyrrole (51) synthesis can be carried out as a one-pot procedure by treating ketones (49) with hydroxylamine and then reacting the ketoximes (50) formed with acetylenes (equation 22). 

Several methods have been reported for the synthesis of 0-aLkylhydroxylamines . O-Methylhydroxylamine la can be prepared by a one-step procedure or can be obtained from its commercially available hydrochloride salt . Methods for the preparation of O-(nitrophenyl) hydroxylamines have been reviewed. They are stable and commercially available. 

For stereoselective synthesis of a-aminocarbonyl compounds using 0-phosphinyl-hydroxylamines, a few procedures have been developed. Attempted amination of enolates of chiral alkyl 3-hydroxybutanoates with 0-(diphenylphosphinyl)hydroxylamine 4a or with its A,A-diisopropyl derivative 4d were found to be unsuccessful". ... 

The reduction of aromatic nitro compounds is believed to proceed to an intermediate mixture of nitroso compounds and substituted hydroxylamines which are not isolated but condense to form an azoxy compound which, in turn, is reduced to an azo compound. Contributing evidence to substantiate this mechanism is that the reduction of a mixture of two aromatic nitro compounds leads to a mixture of azo compounds consistent with that predicted if each of the nitro compounds were reduced to a nitroso compound and a hydroxylamine and these, in turn, reacted with each other in all possible combinations. This observation also implies that the bimolecular reduction of nitro compounds is practical only from the preparative standpoint for the production of symmetrically substituted azo compounds. Spectrophotometric studies of the reaction kinetics of the reduction of variously substituted nitro compounds may, however, uncover reasonable procedures for the synthesis of unsymmetrical azo compounds. 

The most frequently used synthesis of isatins is the Sandmeyer procedure, which involves the formation of an isonitrosoacetanilide (3) from an aniline (2), chloral hydrate, and hydroxylamine. The isonitroso-... 

Due to the disproportion of hydroxylamines, which makes them rather unstable products on heating, [to] TV-hydroxyamino acids have never been isolated as such from living organisms. Not surprisingly, extensive studies on the synthesis of TV-hydroxyamino acids began only in the early 1970s. The procedures for obtaining TV-hydroxyamino acids have been reviewed by Chimiak and Milewska 6 and by Ottenheijm and Herscheid " Two additional procedures have appeared since then. 12,13 ... 

The microwave-mediated condensation of hydroxylamine with enaminoketones to generate isoxazoles has been mentioned earlier (refer to Scheme 3.12)17. In a procedure analogous to the Paal-Knorr thiophene synthesis, 2-aminoacyl carbonyl compounds... 

A coupling procedure particularly suited to the synthesis of unsymmetrical diacetylenes involves the reaction of a terminal acetylene with a 1-bromo-acetylene in the presence of a catalyst consisting of a solution of copper(i) chloride in a primary amine to which small quantities of hydroxylamine hydrochloride is added (the Cadiot-Chodkiewicz coupling). 

The most usable and well-known pathway for the synthesis of five-membered nitrogen-containing heterocycles is condensation involving a,P-usaturated carbonyls and 1,2-binucleophilic compounds, e.g., derivatives of hydrazine and hydroxylamine (Scheme 2.8). The procedure based on these reactions was successfully applied for a long period [45, 46, 47, 48, 49, 50, 51, 52, 53]. 

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