Oxime, trapping

Thermolysis of 4-methyl(4-phenyl)isoxazolin-5-one produced a-cyanophenylacetic acid <67JHC533). The pyrolysis of 3-methylisoxazoline-4,5-dione 4-oxime generated fulminic acid, which was trapped in a liquid N2 cooled condenser for further study. Pyrolysis of metal salts such as Ag or Na produced the corresponding highly explosive salts of fulminic acid 79AG503). Treatment of the oxime with amines generated bis-a,/3-oximinopropionamides (Scheme 65) <68AC(R)189). 

Solvents influence the hydrogenation of oximes in much the same way as they do hydrogenation of nitriles. Acidic solvents prevent the formation of secondary amines through salt formation with the initially formed primary amine. A variety of acids have been used for this purpose (66 ), but acids cannot always be used interchangeably (43). Primary amines can be trapped also as amides by use of an anhydride solvent (2,/5,57). Ammonia prevents secondary amine formation through competition of ammonia with the primary amine in reaction with the intermediate imine. Unless the ammonia is anhydrous hydrolysis reactions may also occur. 

Oximes have been reduced in a different way, to give imines (RR C=NOH RR C=NH), which are generally unstable but can be trapped to give useful products. Among reagents used for this purpose have been BU3P—SPh3 and Ru3(CO)i2. " Oximes can also be reduced to hydroxylamines (16-24). 

Treatment of the sulpholene (19) with hydroxylamine in refluxing ethanol has led to the formation of isothiazol-3-sulpholenes (21) which presumably progressed via the oxime intermediate (20). Subsequent heating of (21) in toluene at 185°C in a sealed tube led to the generation of the diene (22) which could be trapped with 1 -phenylmaleimide and with DMAD, thus providing a new route to 1,2-benzisothiazole derivatives <96TL4189>. 

Besides the use of porphyrins as azomethinic ylide derivatives, the porphyrin macrocycle can also be used to generate porphyrinic nitrile oxides 55 (Scheme 17) <04RCB(E)2192>. Thus, the treatment of oxime 54 with /V-bromosuccinimide in the presence of triethylamine, led to the formation of nitrile oxide 55, which was trapped in 1,3-DC reactions with dimethyl maleate and 2,5-norbomadiene to afford 56 and 57, respectively. In the reaction with 2,5-norbomadiene, if an excess of 55 was used, then the corresponding bis-adduct was obtained in good yield. 

In carbonyl addition reactions, a commonly occurring and important mechanistic step is the transfer of a proton from one site to another in a reactive intermediate (proton switch). If the proton switch occurs sufficiently rapidly compared with the rate of collapse of the intermediate to reactants, the overall reaction may be facilitated by trapping of the unstable intermediate by the proton switch (Jencks, 1976). For example, in the formation of oximes from the reaction of benzaldehyde with O-methylhydroxylamine shown in (87H89) (Sayer and Jencks, 1973 Rosenberg et al., 1974), the first unstable intermediate (It) on the reaction pathway is converted by a proton switch (88) to the intermediate (I2) which has less tendency than It to... 

In 1985, Lathbury and Gallagher reported the in situ synthesis of nitrones 191 from oximes 190 the 1,3-dipoles then could be trapped by a number of different alkenes 192 and thus the bicylic 193 was obtained (Scheme 15.61) [122],... 

One method for the labeling of liposomes with chelator, hexamethylpropyleneamine oxime (HMPAO) was developed by Phillips et al. (16). Lipophilic HMPAO enters the liposome where it interacts with glutathione and becomes converted to the hydrophilic form, which is trapped in the liposome. A detailed protocol for radiolabeling liposomes using Tc-HMPAO has been reported (3). In a typical experiment, 10 to 15mCi (370-555 MBq) of Tc in the form of sodium pertechnetate... 

O-Substituted oxime derivatives are synthetically useful in a wide variety of transformations. Hoffman and Butani have observed that reaction of a series of aldehydes and ketones with the potassium salt of Af,0-bis(trimethylsilyl)hydroxylamine 4a or 4b (a rapid equilibrium between 4a and its Af,N-bis(silylated) isomer 4b probably exists in solution) gave high yields of the corresponding oximate anion 5, formed via the Peterson-type reaction, together with the silyl ether 6. Anion 5 could be protonated to the oxime 7 or trapped in situ with a variety of electrophiles to give 0-substituted oxime derivatives (Scheme 6). 

When the nucleophile is already present as a part of the starting oxime (for example, a heteroatom or a C=C double bond), intramolecular trapping of the electrophilic intermediate is possible and a new cycle is formed. This transformation is usually referred to as a Beckmann Rearrangement-Cychzation reaction. Two modes of ring closure may be possible, depending on the oxime structure (equations 111 and 112) ... 

The most widely used, and often most convenient reagents for such one-pot reactions are sodium hypochlorite (45) or hypobromite (16). These reactions are performed in the presence of an organic base (generally triethylamine) that normally enhances the yield of cycloaddition products (45). This method was employed for many intermolecular reactions (71) and also seems especially suited for intramolecular ones (72-77) as well as for the solid-phase synthesis (78) of 2-isoxazolines. Hypohalite can also be replaced by sodium broruite in combination with a catalytic amount of tri-u-butyltin chloride (79). In a related method, O-tributylstannyl oximes were treated with tert-butyl hypochlorite to produce nitrile oxides that were trapped with aUcenes or alkynes to afford the corresponding isoxazolines or isoxazoles in moderate to good yield (80). 

Yu, J., H. E. Jeffries, and R. M. Le Lacheur, Identifying Airborne Carbonyl Compounds in Isoprene Atmospheric Photooxidation Products by Their PFBHA Oximes Using Gas Chromatography/ Ion Trap Mass Spectrometry, Environ. Sci. Technol., 29, 1923-1932 (1995). 

Silver ion catalysis has also been used with allenic oximes to generate cyclic nitrones, which are trapped by 1,2-dipolarophiles (equation 142).270 This reaction was used in a synthesis of pyrrolizidine alkaloids.270 5... 

The oxime 39 bearing a nitroxyl group (X = O) can be converted to the corresponding azaindole 40 without affecting the free-radical center (yield 6S%, nonoptimized conditions). It follows that (i) the presence of the nitroxyl function in ketoximes does not impede their pyrrolization by the reaction with acetylene in a superbase medium, and (ii) the acetylene-involved pyrrolization of ketoximes in the presence of superbase does not show any clearly defined radical stage, otherwise the nitroxyl center would have acted as a spin trap, thus inhibiting the reaction. 

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