1.3- Oxazin-6-ones, substituted

Isoxazol-3-ol, 5-methyl- — see Hymexazoi Isoxazoi-5-ones 3,4-disubstituted synthesis, 6, 64 5-substituted tautomerism, 6, 11 synthesis, 6, 64 Isoxazolo[2,3-h][ 1,2]oxazines synthesis, 6, 633 Isoxazolophanes... 

Bis(tnfluoromethyl)-subsntuted hetero-1,3-dienes and acetylenes react to give open-chain tnfluoromethyl-substituted N-propargylic amides, 4//-1.3 oxazines, and 2-oxazohnes [42,144] The formation of 2-oxazolmes is an example of pathway 2 (equabon 25), where only one carbon atom of the acetylene moiety IS incorporated into the new nng system The selectivity of this reaction can be controlled efficiently in favor of the five-membered nng system by altering the reaction conditions In the presence of 4-dimethylaminopyndine, the five-mem-... 

Substituted perhydropyrido[l,2-c][l,3]oxazines 83 were obtained by the cyclization of l-(/er/-butoxycarbonyl)-2-(2-hydroxyalkyl)piperidines 104 in pyridine on the action of MeS02Cl at room temperature (96CJC2434). Cyclization of c/5-2,6-H- l-(methoxycarbonyl)-2-(2-acetoxyhexyl)-9-methox-ypiperidines 105 and 106 in THF in the presence of KO/-Bu yielded 3-butyl-9-methoxyperhydropyrido[l,2-6 ][l,3]oxazin-l-ones 94. Treatment of l-(/erc-butoxycarbonyl)-2-[2-hydroxy-2,2-di(2-propyl)ethyl]piperidine with NaH in boiling THF yielded 3,3-di(2-propyl)perhydropyrido[l,2-c][l,3] oxazin-l-one (01JA315). 

Trifluoro-2-nitrosopropene can be generated in situ from 1 -bromo-3,3,3-trifluoropropan-2-one 2-oxime. It is a highly reactive nitrosoalkene that readily undergoes cycloaddition with silyl enol ethers and other die-nophiles to give CF3- substituted 1,2-oxazines (92JOC339). 

Despite that the thiophene ring is considered as a bioisoster of the benzene ring, the synthesis and chemistry of thiophene analogs of heterocycles with therapeutic interest remain poorly studied. One of the most recent examples concerns the synthesis of new substituted thioisatoic anhydrides (6 and 7-arylthieno[3,2-d] [1,3]oxazine-2,4-diones), which were prepared on a large scale under microwave irradiation conditions. A small library of thiophene ureidoacids was easily performed using a Normatron microwave reactor (500 W) with high yields and good purity [4,5] (Scheme 4). 

Trimethylsilylketene and acyl isocyanates generate 4-trimethylsiloxy-l,3-oxazin-6-ones 12 in situ, which smoothly react with the enamines of cycloalkanones to give bicyclic 2-pyridones 13 <96TL(37)4977>. The heterocycles 12 also undergo the Diels-Alder reaction with dimethyl acetylenedicarboxylate or methyl propiolate to furnish substituted 2-pyridones <96TL(37)4973>. 

Depending on the substitution of the 3-hydroxycarbohydroxamic acids, 1,4,2-dioxa-zole-5-ones, l,3-oxazine-2,4-diones, or 3-ethenyl-l,4,2-dioxazole-5-ones are formed with... 

Flash vacuum thermolysis (FVP) at 600°C or microwave excitation of 1-substituted perhydropyrido[l,2-f][l,3]oxa-zines afforded 1-substituted 1,4,5,6-tetrahydropyridines <2005TL5451>. Perhydropyrido[l,2-f][l,3]oxazin-l-ones were hydrolyzed with 2M ethanolic KOH to 2-(2-hydroxyalkyl)piperidines <1996CJC2434, 2005EJ01378>. (+)-9- />z -6-Epipinidinol 102 was similarly obtained from 3,8-dimethylperhydropyrido[l,2-f][l,3]oxazin-l-one 101 (Equation 16) <1998T13505>. 

Allylpiperidines were formed from 3-iodomethylperhydropyrido[l,2-f][l,3]oxazin-l-ones by treatment with Zn in AcOH <2002OL3459>. l-Methyl-2-(2-hydroxyalkyl)piperidines were prepared from 3-substituted perhydropyr-ido[l,2-tf][l,3]oxazin-l-ones with lithium aluminium hydride (LAH) in boiling THF and EtzO <2005T1595>. Reaction of 8-methylperhydropyrido[ 1,2-r [ 1.3 ]oxazine-1,3-dione 103 with PhCH2NH2, then PhCOCl and 4-meth-oxyphenol afforded ring-opened products 104 and 105, respectively (Scheme 8) <2000JA11009>. 

Reduction of 3-substituted-3,4,7,8-tetrahydro-l//,6//-pyrido[l,2-t][l,3 oxazin-l-ones with NaBHjCN in boiling MeOH, and with NaBH4 in AcOH, afforded 4a-epimeric mixtures of perhydro derivatives <2005T1595>. 

Treatment of tert-butyl (2/. )-2-(2-propcny lidene (piperidine-1-carboxylate with McjSil and PhOH yielded 3-substituted-3,4,7,8-tetrahydro-l//,6//-pyrido[l,2-c][l,3]oxazin-l-ones <2005T1595>. Reaction of l-(benzoxycarbonyl)2-styrylpiperidin-4-one with I2 resulted in the formation of r-3,4a-//-/ra r-4-//-4-iodo-3-phenylperhydropyrido[l,2-d-[l,3]oxazine-l,6-dione <2002JOC1972>. A diastereomeric mixture of 3-iodomethylperhydropyrido[ 1,2 z [ 1,3]oxazin-l-ones (e.g., 178) was obtained by intramolecular iodocarbamation of l-(alkoxycarbonyl)-2-allylpiperidines (e.g., 177) with I2 (Equation 34) <1999JOC8402, 2002OL3459>. 

Reduction of 6,8-diazabicyclo[3,2,l]oct-6-enes 411, prepared from 410 with alkyl- or phenyllithium, with NaBH3CN gave 1-amino-l-substituted 4-phenylperhydropyrido[2,l-f][l,4]oxazines 412 (Equation 76) <1996JOC6700>. The 1-methyl derivative of 412 (R1 = Me) was accompanied by 10% of the C-l epimer. A 3 7 mixture of 4-phenylperhy-dropyrido[2,l-r ][l,4]oxazin-l-one was obtained from 410 by treatment with HC1 in the presence of Si02, then with Zn(BH4)2 <2003JOC1401>. 

Thermal isomerization of certain cis-l,3,4-trisubstituted azetidin-2-ones 76 provided the trans isomer in good yield . Bases caused the isomerization of cis-3-substituted-4-formylazetidin-2-ones and of sulfonic acid derivatives of 3-aminoazetidin-2-ones during the formation of a Schiff base <00T3985>. 4-Acyloxy-iV-o-azidobenzoyl-P-lactams underwent ring expansion to produce l,3-oxazin-6-ones 77 . 

The 3,5-diphenylmorpholine-2-one 161 was used to prepare bicyclic lactams 162 by reaction with the cesium fluoride/tetramethoxysilane system and different Michael acceptors. The adducts were rapidly obtained as a mixture of diastereoisomers that could be separated by column chromatography just after TFA-mediated cyclization to the 8-substituted-4,8a-diphenyltetrahydro-l//-pyrrolo[2,l-r1[l,4]oxazine-l,6(7//)-diones 62 and 163 <1997SL935>. These compounds were then reduced to give substituted prolines as described in Section 11.11.6.1. 

Ring closure to the 5//-tetrazolo[5,l-t][l,3]oxazine skeleton has been reported by Hoornaert and co-workers <1996T8813>. These authors treated variously substituted 2,4-dichloro[l,4]oxazin-2-ones 133 with sodium azide. The fused tetrazoles 135 obtained were formed via the formation of their azide valence bond isomer intermediate 134. A similar approach proved to be suitable for the benzologues of these compounds. Thus, the benzoxazinone compounds 136 gave the tricyclic ring-closed tetrazoles 137. Both reactions yielding 135 and 137 proceeded in high yields (80-90%). 

Deprotonation of the a-position of a carbenium center is one of the most typical properties of carbocations. All the alkyl-substituted heterocyclic ions possess an appreciable CH-acidity [82AHC(S)1] the 3-azapyrylium salts are no exceptions to this rule. The formation of anhydro bases, i.e., methylene-1,3-oxazines (e.g., 69), from methyl-3-azapyrylium salts is well known (72S333). 

Bobowsky and Shavel found an interesting intramolecular reductive transacylation reaction, in which substituted cyclopent[e][l,3]oxazin-2-ones and l,3-perhydrobenzoxazin-2-ones (90) were formed (80JHC277). In the reactions of 4-(2 -oxocycloalkyl)-3,4-dihydro-3-methyl-2//-l,3-benzoxazin-2-ones 88 and potassium borohydride, the 2 -hydroxycycloalkyl products 89 obtained underwent intramolecular transacylation reactions, resulting in the dihydro-1,3-oxazine derivatives 90. In this way, the 4-(2 -oxocycloalkyl)... 

Lithium aluminum hydride reduction of tetrahydro-l,3-oxazin-2-ones 434 results in the corresponding A -methyl-substituted 1,3-amino alcohols 435 (60JA4656 87TL1623). 

Cycloalkane-fused tetrahydro-l,3-oxazin-4-ones (Section II,A,2) related to the preceding family were also studied with the same tests (80MIP1), and the 2-(3-chlorophenyl)- and 2-(2-furyl)-substituted derivatives of 489 were found to be active compounds (82MI1 83PHA89). 

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