Oxirane reduction

In the case of polycyclic compounds, the oxirane reduction is accompanied by rearrangements involving changes in the ring system (Eq. 173). ... 

Terminal alkynes react with propargylic carbonates at room temperature to afford the alka-l, 2-dien-4-yne 14 (allenylalkyne) in good yield with catalysis by Pd(0) and Cul[5], The reaction can be explained by the transmetallation of the (7-allenylpailadium methoxide 4 with copper acetylides to form the allenyKalk-ynyl)palladium 13, which undergoes reductive elimination to form the allenyl alkyne 14. In addition to propargylic carbonates, propargylic chlorides and acetates (in the presence of ZnCb) also react with terminal alkynes to afford allenylalkynes[6], Allenylalkynes are prepared by the reaction of the alkynyl-oxiranes 15 with zinc acetylides[7]. 

Reductive cleavage of oxiranes to alcohols by lithium aluminum hydride is an important reaction (64HC(19-1)199), but the most powerful hydride donor for this purpose is lithium triethylborohydride (73JA8486). 

Other syntheses of oxiranes which are occasionally useful and involve a species (64) are the dehydration of 1,2-diols (Scheme 69) (78TL5153, 7808(58)12) and the reductive coupling of aldehydes (Scheme 70) (B-73MI50500). 

Formation of oxiranes on the sterically more hindered side of the steroid ring system is usually carried out via /raw -halohydrins which afford oxiranes on treatment with base (c -Halohydrins yield ketones on exposure to base). Two general methods are available for the synthesis of tm s-halohydrins (1) the reduction of a-halo ketones and (2) the addition of a hypohalous acid to unsaturated steroids. 

Diaroylfuroxans react with an excess of diazomethane in diethyl ether at 20°C to form oxiranes 131 (Scheme 76). These compounds were reduced with LiAllTj (diethyl ether, reflux) to 1 -amino-2-arylpropan-2-ols in moderate yields (67JOC4050). Treatment of diacylfuroxans with LiAlH4 under similar conditions resulted in degradative reduction of the furoxan ring to arylethanolamines (67JOC1255). 

The procedure is outlined in Scheme 8.33, starting from the generic allylic alcohol 125. SAE on 125 would provide epoxide 126, which could easily be transformed into the unsaturated epoxy ester 127 by oxidation/Horner-Emmonds olefmation (two-carbon extension). This operation makes the oxirane carbon adjacent to the double bond more susceptible to nucleophilic attack by a hydride, so reductive opening (DIBAL) of 127 provides, with concomitant ester reduction, diol 128. Pro-... 

Dihydro-2f/-pyran-2-one has been prepared by reductive cycliza-tion of 5-hydroxy-2-pentynoic acid [2-Pentynoic acid, 5-hydroxy-], which is obtained in two steps from acetylene [Ethyne] and ethylene oxide [Oxirane] 3 and by the reaction of dihydropyran [277-Pyran, 3,4-dihydro-] with singlet oxygen [Oxygen, singlet].4,5 2ff-Pyran-2-one has been prepared by pyrolysis of heavy metal salts of coumalic acid [2//-Pyran-5-carboxylic acid, 2-oxo-],8 by pyrolysis of a-pyrone-6-carboxylic acid [211 - Pyran-6-carboxyl ic acid, 2-oxo-] over copper,7 and by pyrolysis of coumalic acid over copper (66-70% yield).8... 

Oxidation 205-213 /J-Oximinosulphoxides, chiral 336 Oxiranes 169 reactions of 305 synthesis of 639 2-Oxo-l,2,3-oxathiazolidines 71 /1-Oxosulphones, synthesis of 169 Oxosulphonium ylides, reactions of 219 /3-Oxosulphoxides reduction of 347-349 synthesis of 337-340... 

Fig. 6 Alkenes issued from the reduction of oxiranes in the presence of trialkylphosphites...

The stereochemistry of the first step was ascertained by an X-ray analysis [8] of an isolated oxazaphospholidine 3 (R = Ph). The overall sequence from oxi-rane to aziridine takes place with an excellent retention of chiral integrity. As the stereochemistry of the oxirane esters is determined by the chiral inductor during the Sharpless epoxidation, both enantiomers of aziridine esters can be readily obtained by choosing the desired antipodal tartrate inductor during the epoxidation reaction. It is relevant to note that the required starting allylic alcohols are conveniently prepared by chain elongation of propargyl alcohol as a C3 synthon followed by an appropriate reduction of the triple bond, e. g., with lithium aluminum hydride [6b]. 

Reductive opening of the oxirane ring of 188 with lithium aluminum hydride, and acetylation with acetic anhydride-DMAP, provided the pen-... 

Reductive opening of the oxirane ring of 193 with lithium aluminum hydride, and acetylation, provided compound 194. Epoxidation of 194 with mCPB A gave the epoxide 195. Opening of the oxirane ring with acetate ions, followed by acetylation, gave the tetraacetate 196, or, by exhaustive acetylation with acetic anhydride-DMAP, the pentaacetate 189. Compounds 196 and 189 were readily transformed into 190 by hydrolysis. " ... 

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