Rearrangement ether cleavage

Unlike the acid-catalyzed ether cleavage reaction discussed in the previous section, which is general to all ethers, the Claisen rearrangement is specific to allyl aryl ethers, Ar—O—CH2CH = CH2. Treatment of a phenoxide ion with 3-bromopropene (allyl bromide) results in a Williamson ether synthesis and formation of an allyl aryl ether. Heating the allyl aryl ether to 200 to 250 °C then effects Claisen rearrangement, leading to an o-allylphenol. The net result is alkylation of the phenol in an ortho position. 

Cyclopropane 87, obtained from n-butyl vinyl ether, rearranges to dihydrofuran 88 only at elevated temperature, and also partly during work-up on silica gel113). The complete conversion of 87 into veratrole by the action of HCl/CH3OH gave rise to the analogous two-step synthesis of hydrourushiol monomethyl ether from l-diazo-3,3-dimethoxy-2-nonadecanone 89113). Ether cleavage of the product yields hydrourushiol, one of the vesicant components of, inter alia, poison ivy. 

It is evident that some leeway is available in the substituents tolerable in the m-position. The bronchodilator sulfonterol (28) is descended from this observation. Chloromethylanisole (29) is reacted with methylmereaptan to give 30, and the newly introduced group is oxidized to the methyl-sulfonyl moiety of 31 with hydrogen peroxide. Ether cleavage, acetylation and Fries rearrangement of the phenolic acetate produces 32, which is next brominated with pyrrolidinone hydrobromide tribromide and then oxidized to the glyoxal (33) with dimethyl sulfoxide. 

A xanthone also results from the cyclization of 2 -nitro-6-hydroxy-2,4-dimethoxyben-zophenone, which is the sole product from a photo-Fries rearrangement of 3,5-dimethoxyphenyl 2-nitrobenzoate (81T209). Ring closure is effected in boiling piperidine and appears to involve elimination of nitrous acid together with ether cleavage. 

Figure 69 depicts the degradants and the proposed degradation pathway involving (1) rearrangement to isotimolol, (2) ether cleavage to form 4-hydroxy-3-morpholino-l,2,5-thiadiazole, and (3) oxidation followed by ether cleavage to form 4-hydroxy-3-morpholino-l,2,5-thiadiazole-l-oxide (109). 

Hydride Reduction of a Carbonyl Group 454 Reaction of a Tertiary Alcohol with HBr(S[ 1) 480 Reaction of a Primary Alcohol with HBr (SN2) 480 Reaction of Alcohols with PBr3 485 (Review) Acid-Catalyzed Dehydration of an Alcohol 487 The Pinacol Rearrangement 495 Cleavage of an Ether by HBr or HI 639 Acid-Catalyzed Opening of Epoxides in Water 649 Acid-Catalyzed Opening of an Epoxide in an Alcohol Solution 650... 

Unlike the add-catalyaed ether cleavage reaction discussed in the section, which is general to all ethars, the Claisen rearrangement is pe>) ctAc to allyl aryl ethers, Ar-Ch< HaCH=CH2. Treatment of a pbenexMle ten... 

These isomerizations, rearrangements, and cleavages are best explained by a carbonium-ion mechanism. Vapor-phase dehydration of alcohols over aluminum oxide greatly reduces the tendency for isomerization and rearrangement. The alcohol vapors are passed over the catalyst at 300-420°. In this manner, pure 1-butene is prepared from re-butyl alcohol and t-butylethylene is obtained from methyl-/-butylcatbinol (54%). The relative rates of dehydration of the simpler alcohols over alumina have been studied. The main side reaction is dehydration to ethers (method 118). 

Therefore several reactions were subjected to various antibody catalyses, e. g., ester and enol ether cleavage, transesteiification, ketone reduction. Cope rearrangement, ring closure via epoxide opening, or Diels-Alder cycloaddition [74, 75]. An exceptional reaction is the antibody-catalyzed Robinson annulation of triketone 28 to the Wieland-Miescher ketone 29 on a preparative scale. Surprisingly, even the alkylation of diketone 27 with methyl vinyl ketone was catalyzed by the same antibody, but at moderate rates (Scheme 15) [76]. 

The starting material for iloprost is the enantiomerically pure Corey lactone, which is treated with the lithium salt of ethyl acetate. After oxidation, treatment with l,5-diazabicyclo[4.3.0]non-5-ene (DBN) leads to an exceptionally interesting rearrangement. Presumed cleavage of the cyclic ether generates an enolate, which adds to the cyclopentenone in a Michael reaction. Decarbethoxylation is achieved with l,5-diazabicyclo[2.2.2]octane (DABCO), and the w-chain is constructed under Horner-Wadsworth-Emmons conditions. The subsequent reduction leads to a mixture of allyl alcohols, which can be purified by chromatography, and the alcohol from the less polar product then be released by trans-esterification. Both alcohol functions are then protected as THP-ethers. The... 

Sulfuric acid Skeletal rearrangement with ether cleavage... 

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