Nucleophiles hydroxylamines

Hydroxylamines and hydrazines can be acylated on insoluble supports using the same type of acylating agent as is used for the acylation of amines [146-149]. Because of their higher nucleophilicity, hydroxylamines or hydrazines can be acylated more readily than amines, and unreactive acylating agents such as carboxylic esters can sometimes be successfully employed (Table 13.10). Polystyrene-bound O-alkyl hydroxamic acids can be N-alkylated by treatment with reactive alkyl halides and bases such as DBU (Entry 5, Table 13.10). 

Although there is ample evidence for nucleophilic additions to benzyne la> and some other unstable angle strained cycloalkyne intermediates 15,27,31,205 207), only a few addition reactions to isolable angle strained cycloalkynes are known which can be classified as nucleophilic. Hydroxylamine and hydrazine add to (31) to yield the corresponding oxime and hydrazone, resp. 208). 

Formation of Carbon-Nitrogen Bonds A ring closure of this type will most often involve either the attack of an electrolytically formed nucleophile (hydroxylamine, amine, or hydrazine) on an electrophilic center (existing or potential carbonyl, cyano, nitro, or nitroso group) or a reaction between a nucleophile and an electrolytically generated electrophilic center (e.g., nitroso group or carbonium ion). 

The electrophilic protonated imine reacts with nucleophilic hydroxylamine. 

Nucleophiles Hydroxylamine. Sodium benzoate. Sodium hydrazide. Sodium thiophenoxide. Triphenylphosphine. 

Khan MAS, Lo R, Bandyopadhyay TT, Ganguly BB (2011) Probing the reactivation process of sarin-inhibited acetylcholinesterase with a-nucleophiles hydroxylamine anion is predicted to be a better antidote with DFT calculations. J Mol Graph Model 29(8) 1039-1046. doi 10.1016/j.jmgm.2011.04.009... 

Kinetic studies of the reaction between the a-nucleophile hydroxylamine and di-2-pyridyl phosphate (DPP) showed that at pH 5 the major flux of the reaction was via attack of NH2OH on the zwitterionic DPP , which is in equilibrium with the corresponding anion DPP (Scheme 18). This yielded a transient monoanion intermediate (51) via loss of 2-pyridone, which then, via its protonated zwitterion (52), suffers rapid attack by NH2OH to yield, via expulsion of a second molecule of 2-pyridone, an intermediate (53), which slowly hydrolysed to inorganic phosphate (Pi). ... 

Kinetic studies of the reaction between the a-nucleophile hydroxylamine and tri-2-pyridyl phosphate (TPP) (54) showed that an initial rapid reaction occurred via a general base-catalysed attack of TPP by the ammonia oxide tautomer of hydroxylamine TlgN -O to form a transient 0-phosphorylated derivative (55) (Scheme 19), which is trapped by the NH2OH in solution to generate diimide (56) and DPP (Scheme 20). 

These observations are consistent with the scheme of equation 1 in which the potent nucleophile, hydroxylamine, attacks the mixed anhydride intermediate (V). 

The use of oximes as nucleophiles can be quite perplexing in view of the fact that nitrogen or oxygen may react. Alkylation of hydroxylamines can therefore be a very complex process which is largely dependent on the steric factors associated with the educts. Reproducible and predictable results are obtained in intramolecular reactions between oximes and electrophilic carbon atoms. Amides, halides, nitriles, and ketones have been used as electrophiles, and various heterocycles such as quinazoline N-oxide, benzodiayepines, and isoxazoles have been obtained in excellent yields under appropriate reaction conditions. 

Hydroxylysine (328) was synthesized by chemoselective reaction of (Z)-4-acet-oxy-2-butenyl methyl carbonate (325) with two different nucleophiles first with At,(9-Boc-protected hydroxylamine (326) under neutral conditions and then with methyl (diphenylmethyleneamino)acetate (327) in the presence of BSA[202]. The primary allylic amine 331 is prepared by the highly selective monoallylation of 4,4 -dimethoxybenzhydrylamine (329). Deprotection of the allylated secondary amine 330 with 80% formic acid affords the primary ally-lamine 331. The reaction was applied to the total synthesis of gabaculine 332(203]. 

Lithium amides of primary / fZ-alkylamines yield N-(/ f2 -alkyl)-0-(/ f2 -butyl)hydroxylamines, whereas lithium amides of primary alkylamines yield A/-alkylbenzamides and LiOO—due to nucleophilic attack on the carbonyl group (245). 

The nucleophilic attack of hydroxylamine at the 5-position of 4-trifluoroacetyloxazoles (414) led to a mixture of stereoisomeric isoxazolines (415). Dehydration of these isomeric isoxazolines (415) in the presence of trifluoroacetic anhydride gave isoxazoles (416) in good yields (76JHC825). 

Certain reactions between carbonyl compounds and nucleophiles are catalyzed by amines. Some of these reactions are of importance for forming carbon-carbon bonds, and these are discussed in Chapter 2 of Part B. The mechanistic principle can be illustrated by considering the catalysis of the reaction between aldehydes and hydroxylamine by aniline derivatives. 

Nucleophiles like alcohols [2, S], hydrogen sulfide [2], thiols [2,10], ammonia, amines, hydrazines, hydroxylamines [2 11, 12, 13, 14, 75], azides [2], other pseudohalides [2], phosphonates [2,16,17,18,19, 20], and phosphanes [2,19] add rapidly across the CO or CN double bond to yield stable adducts The phosphonate adduets undergo a subsequent aleohol—lester rearrangement [19, 20] (equation 2)... 

In addition to their reactions with amines, Zincke salts also combine with other nitrogen nucleophiles, providing various A -substituted pyridine derivatives. Pyridine A -oxides result from the reaction with hydroxylamine, as exemplified for the conversion of Zincke salt 38 to the A -oxide 39 Reactions of Zincke salts with hydrazine, meanwhile, lead... 

Finally, mention should be made of the addition of nucleophilic reagents to the 1-position of 3,4-dihydro-j8-carbolines, Cyanide has been reported to yield adducts with harmaline, 6-nitroharm-aline, and 2-methylharmalinium salt similarly, hydroxylamine forms adducts with harmaline, 3,4-dihydro-j8-carboline (307 R = H), and l-phenyl-3,4-dihydro-)S-carboline (307 R =... 

Some substituents such as the acylamino group are readily decomposed by many nucleophiles to give a poorer leaving group (e.g., amino). Others, such as nitroamino and sulfonylamino, are less reactive when they are anionized by the nucleophile. 3-Nitroamino-pyridazine (117) and its 6-methyl derivative are readily aminated with benzylamine (130°, short time ). 4,6-Dimethyl- and 6-methyl-2-nitroaminopyrimidine undergo 2-substitution on warming a few minutes with hydroxylamine, hydrazine, primary or secondary alkylamines, or anilines. 

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