Cleavages ester

The photochemistry of cyclobutanones possessing a spiro-fused three-membered ring at the a-position has also been reported (15b). Spiro[2.3]hexan-4-one[64a], for example, undergoes photolysis in methanol solution to cyclic acetals [65a] and [66a] in addition to 3-cleavage ester [67]. The dialkylated derivative [64b], on the other hand, affords ring-expanded acetals [65b] and [66b]... 

By 1903, Emil Fischer had already appreciated that a proximate nucleophile can accelerate the rate of cleavage of an otherwise unreactive amide. Adaptation of such neighbouring group participation to relay deprotection is easy all that is required is a protecting group with a latent hydroxyl or amino function within easy bonding distance of the amide carbonyl, as illustrated in Scheme 8.27 by the reduction of the o-nitrophenylacetamide 27,1. The theme is capable of extensive variation. For example, 2-((/er/-butyldiphenylsilyloxy)methyl]benz-amides (27.2), 2-(acetoxymethyl)benzamides (273) and 3-methyl-3-(2,4,5-tri-methyl-3,6-dioxo-cycIohexa-l,4-dienyl) butyramides (27.4) all have latent hydroxyl nucleophiles that are released by silyl ether cleavage, ester hydrolysis and quinone reduction, respectively. 

CF3CO2H. Colourless liquid, b.p. 72-5 C, fumes in air. Trifluoroacetic acid is the most important halogen-substituted acetic acid. It is a very strong acid (pK = o y) and used extensively for acid catalysed reactions, especially ester cleavage in peptide synthesis. 

These substances, as well as the parent compound, are p-keto esters and undergo hydrol3rtio cleavage in two directions. One type of cleavage, ketonlc hydrolysis, is effected by the action of dilute caustic alkali in the cold, followed by acidification and boiling the free acetoacetic acid produced has a carboxyl and carbonyl group on the same carbon atom and therefore readily undergoes decarboxylation to yield a ketone, for example ... 

The following mechanism for the reaction has been suggested. It postulates formation of an intermediate paraconic ester (A) the irreversible alkoxlde cleavage of this cyclic ester drives the reaction to completion ... 

The hydrogenolyaia of cyclopropane rings (C—C bond cleavage) has been described on p, 105. In syntheses of complex molecules reductive cleavage of alcohols, epoxides, and enol ethers of 5-keto esters are the most important examples, and some selectivity rules will be given. Primary alcohols are converted into tosylates much faster than secondary alcohols. The tosylate group is substituted by hydrogen upon treatment with LiAlH (W. Zorbach, 1961). Epoxides are also easily opened by LiAlH. The hydride ion attacks the less hindered carbon atom of the epoxide (H.B. Henhest, 1956). The reduction of sterically hindered enol ethers of 9-keto esters with lithium in ammonia leads to the a,/S-unsaturated ester and subsequently to the saturated ester in reasonable yields (R.M. Coates, 1970). Tributyltin hydride reduces halides to hydrocarbons stereoselectively in a free-radical chain reaction (L.W. Menapace, 1964) and reacts only slowly with C 0 and C—C double bonds (W.T. Brady, 1970 H.G. Kuivila, 1968). 

Overall the reaction leads to addition of two hydroxyl groups to the double bond and IS referred to as hydroxylation Both oxygens of the diol come from osmium tetraox ide via the cyclic osmate ester The reaction of OSO4 with the alkene is a syn addition and the conversion of the cyclic osmate to the diol involves cleavage of the bonds between oxygen and osmium Thus both hydroxyl groups of the diol become attached to the same face of the double bond syn hydroxylation of the alkene is observed... 

The saponification of 0 labeled ethyl propanoate was desenbed in Section 20 11 as one of the significant expenments that demonstrated acyl-oxygen cleavage in ester hydrolysis The 0 labeled ethyl propanoate used in this expenment was prepared from 0 labeled ethyl alcohol which in turn was obtained from acetaldehyde and 0 enriched water Wnte a senes of equations... 

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