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Isoxazolines hydrogenation

The hydrogenation of fV-substituted isoxazolin-5-one ethyl esters produced amino-methylenemalonates (74G715), while hydrogenation of 4-benzoyl-3-phenylisoxazolin-5-one generated an a-aminomethylene-/3-keto acid (Scheme 64). [Pg.41]

Hydrogenation of 2-methyl-3-phenyl-4-isoxazoline surprisingly yielded cinnamaldehyde <74CPB70). [Pg.45]

Phenyldiazonium salts react with malonaldioxime to produce a 2-isoxazoline (7 IGEPl 920245), and the diazo ketone (484) when photolyzed gave a mixture of 2-isoxazoline and an isoxazole by a 1,5 carbon-hydrogen insertion. A phenyl migration was apparently not involved (Scheme 124) (66CC689). [Pg.97]

The oxidative coupling of 3,4-dimethyl-or 3,4-diphenyl-isoxazolin-5-one by activated Mn02 produced a 4,4 -bis(isoxazolinone) (519) and 2,4 -bis(isoxazolinone) (520). Hydrogenation of (519) over Pt02/H0Ac produced a pyrrole derivative while similar reaction of (520) produced an isomeric pyrrole (80JHC763). These reactions are shown in Scheme 152. [Pg.107]

A formal total synthesis of the prostaglandin involved unmasking of an isoxazoline ring by hydrogenation over W-2 Raney Ni/BCl3/MeOH, H2O to reveal a -hydroxyketone. It was necessary in this case to deactivate the Raney... [Pg.142]

Hydrogenolysis of the isoxazoline ring with Ra-Ni in the presence of hydrogen results in conversion to a hydroxymethyl ketone (Scheme 4.142).540... [Pg.195]

Sometimes, hydrogen sulfide converts an oxygen-containing heterocycle into a sulfur-containing one, and as furans and polycyclic furans are very common in nature such reactions may be the origin of the polycyclic thiophenes mentioned above. A typical example is the formation of the isothiazolin-3-thione (6) from the isoxazolin-3-thione (7) on treatment with hydrogen sulfide and hydrogen bromide.8... [Pg.51]

Nitro compounds have also been reported to undergo photocyclizations. The intermediacy of an isoxazoline in the photorearrangement of o-nitro-benzaldehyde to o-nitrosobenzoic acid is now in doubt,318 but intramolecular hydrogen abstraction by an excited nitro group in nitrobenzene derivatives can result in the formation of heterocycles. 4-tm-Butyl-3-methoxy-2,6-dinitrotoluene (384) on irradiation in methanolic sodium hydroxide solution... [Pg.303]

A solid-phase synthesis of 3-substituted isoxazoles 31 in good yields and purities was achieved by 1,3-DC of polymer-supported vinyl selenide with in situ generated nitrile oxides treatment of intermediate isoxazolines 30 with an excess of hydrogen peroxide resulted in the release of isoxazoles 31 while the use of Mel/Nal led to 3-substituted 5-iodoisoxazolines... [Pg.291]

Cleavage of the isoxazolidine ring can also be effected directly to give similar products as the isoxazoline. Upon the addition of methoxide to an isoxazolidine bearing a hydrogen at C(3), fragmentation reveals a p-hydroxy oxime, which can be further hydrolyzed to the corresponding ketone (16,20,34,108). The P-hydroxy... [Pg.126]

Reduction of the isoxazoline ring can lead to different mixtures of amino alcohols depending on the reducing reagent used. Catalytic hydrogenation as well... [Pg.425]

The isoxazoline-furanose intermediate derived from h/i(hydroxylation) was also submitted to direct hydrogenation. The reduction proceeded in a highly diaster-eoselective manner at the C=N double bond. In the gluco series starting with 150, several deoxynojirimycin analogues with extended side chains at C-5 (carbohydrate numbering) such as 151 were obtained by this method (23,313,314). Eurther conversion of 151 led to indolizidine polyols (1,4,8-trideoxyimino polyols), which... [Pg.434]

Kozikowski and Stein (281) used the INOC strategy to prepare the 2-methyle-necyclopentanone derivative 172, which in turn was converted to sarkomycin (173), an antitumor agent (Scheme 6.81). The key step involved the treatment of nitroalkene 169 (obtained from bromide 168) with p-chlorophenyl isocyanate-triethylamine, which furnished a single diastereomeric isoxazoline 170 in 55% yield. This compound was transformed to the aldol product 171 by Raney nickel hydrogenation using wet acetic or boric acid, followed by dehydration to the a,p-enone 172 (281), a precursor of 173. [Pg.440]

Intramolecular cycloadditions of alkenyl-substituted nitrile oxides produce bicyclic isoxazolines. When monocyclic olehns are used, tricyclic structures are obtained. This approach was pioneered by both Kozikowski s and Curran s groups. A typical case involves the cycloaddition of nitro compound 191 [mixture of diastereomers derived from pentenose pyranoside 190], which produced a diaster-eomeric mixture of isoxazolines that contain cis-fused rings (i.e., 192) in near quantitative yield (326) (Scheme 6.85). Further elaboration of this mixture led to epoxycyclopentano-isoxazoline 193, which was then converted to the aldol product in the usual manner. The hydrogenation proceeded well only when rhodium on alumina was used as the catalyst, giving the required p-hydroxyketone 194. This... [Pg.442]

In a similar approach, Shishido et al. (241) used oxime 215 [derived from the monoterpene (+)-citronellal (214)] for the synthesis of (—)-mintlactone (218) and (+)-isomintlactone (219), sweet compounds isolated from some Mentha species (Scheme 6.89). Bicyclic isoxazoline 216 was obtained in good yield from the cycloaddition. As expected, the product possessing tra i-l,4-substimtion prevailed. Reductive hydrolysis of the major isomer of 216 using hydrogen-Raney Ni-trimethyl borate provided p-hydroxyketone 217. This compound was dehydrated to give an enone and this was followed by carbonyl reduction-lactonization to complete the synthesis of both lactones 218 and 219 (241). [Pg.446]

An intramolecular cycloaddition of the tetradecatrienyl nitroethyl ether 263 was used in the synthesis of the 14-membered bicyclic precursor 265 of crassin acetate 266, a cembrane lactone possessing antibiotic and antineoplastic activity (332). Nitro compound 263 was obtained from farnesyl acetate (262) in several steps and was then treated with phenyl isocyanate and triethylamine to give the tricyclic isoxazoline 264 (Scheme 6.98). Conversion to ketone 265 was accomplished by hydrogenation of the cycloadduct with Raney Ni and boric acid followed by acetylation (332). In this case, the isoxazoline derived from a 3-butenyl nitroethyl ether moiety served to produce a 3-methylenetetrahydropyran moiety (332). [Pg.452]

Imines can be photoreduced by hydrogen donors such as propan-2-ol, but in some cases it is clear that a small amount of carbonyl compound (arising from hydrolysis of the imine) is necessary to initiate the process. For example, N-alkytirnines of benzaldehyde give elhane-1.2-diamine derivatives on irradiation in 95% ethanol (5.6). but they are inert when irradiated in a perfectly dry alcohol. The C=N chromophore is capable of abstracting a hydrogen atom, and both the photoreduclion of a tetrahydropyridine (5.7) and the photoaddition of p-xylene to an isoxazoline (5.6) occur by such a direct reaction. [Pg.144]

The formal total synthesis of the novel /3-lactam antibiotic thienamycin has been accomplished from an isoxazoline derivative generated by [3 + 2] dipolar cycloaddition <79H(l2)l 183). Reaction of the nitrile oxide derived from 3-nitropropanal dimethyl acetal with methyl crotonate gave the isoxazoline (477) regio- and stereo-selectively. The isoxazoline was converted to amino ester (478) by hydrogenation and then to /3-lactam (479) by ester saponification and ring closure with DCC. Treatment of (479) with p-nitrobenzyl chloroformate and reaction of the derived acetal (480) with excess N-p-nitrobenzyloxycar-bonylcysteamine gave thioacetal (481), a compound which has previously been converted into ( )-(8S )-thienamycin (Scheme 106). [Pg.458]

Reaction of the nitrile oxide (498) with the enone (499) gave after chromatography the expected isoxazoline (500) plus some of its dehydro derivative (76TL3983). Hydrogenation of (500) using 30% Pd/SrC03 as catalyst yielded an enaminoketone (501) which was further hydrolyzed to the diketone (502 Scheme 110). This compound is a gem-dimethyl isomer of dehydrocycloheximide, a key intermediate in a previously reported synthesis of the glutarimide antibiotic cycloheximide. [Pg.459]

A very short and elegant synthesis of the 16-rtiembered dilactone ( )-pyrenophorin (515) has been accomplished by the dipolar cycloaddition reaction of a trialkylsilyl nitronate (81TL735). Nitromethane was added to 3-buten-2-one and the carbonyl group of the product reduced with sodium borohydride. The nitro alcohol (511) was converted to the acrylate (512) which was then subjected to a dimerization-cyclization reaction by treatment with chlorotrimethylsilane and triethylamine in dry benzene. Hydrogenation of the mixture of isoxazoline products (513) over palladium on charcoal followed by double dehydration of the intermediate bis-/3-hydroxyketone (514) led to ( )- and meso-pyrenophorin (Scheme... [Pg.460]

See other pages where Isoxazolines hydrogenation is mentioned: [Pg.36]    [Pg.90]    [Pg.690]    [Pg.691]    [Pg.691]    [Pg.691]    [Pg.691]    [Pg.258]    [Pg.288]    [Pg.73]    [Pg.368]    [Pg.371]    [Pg.426]    [Pg.298]    [Pg.422]    [Pg.461]    [Pg.792]    [Pg.106]    [Pg.269]    [Pg.90]    [Pg.346]    [Pg.385]    [Pg.639]    [Pg.430]   
See also in sourсe #XX -- [ Pg.218 ]



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