Decarboxylation keto acids

Decametallic complexes, 166 fused adamantanoid cages, 166 teiracapped octahedron, 166 Decarboxylation keto acids... 

The compound (III) can however lose ethanol by an internal Claisen ester condensation (p. 264) to give the cyclohexane derivative (IV), which, being the ester of a (3-keto acid, in turn readily undergoes hydrolysis and decarboxylation to give 5,5Hiimethyl cyclohexan-i,3Hiione (V) or Dimedone, a valuable reagent for the detection and estimation of formaldehyde. 

Bonding changes dunng decarboxylation of a 3 keto acid... 

The compounds most frequently encountered m this reaction are (3 keto acids that is carboxylic acids m which the (3 carbon is a carbonyl function Decarboxylation of (3 keto acids leads to ketones... 

The thermal decarboxylation of p keto acids is the last step in a ketone synthesis known as the acetoacetic ester synthesis The acetoacetic ester synthesis is discussed in Section 21 6... 

Section 19 17 11 Dicarboxylic acids (malonic acids) and p keto acids undergo thermal decarboxylation by a mechanism m which a p carbonyl group assists the departure of carbon dioxide... 

The carbon-carbon bond forming potential inherent m the Claisen and Dieckmann reac tions has been extensively exploited m organic synthesis Subsequent transformations of the p keto ester products permit the synthesis of other functional groups One of these transformations converts p keto esters to ketones it is based on the fact that p keto acids (not esters ) undergo decarboxylation readily (Section 19 17) Indeed p keto acids and their corresponding carboxylate anions as well lose carbon dioxide so easily that they tend to decarboxylate under the conditions of their formation... 

The sequence begins with a Claisen condensation of ethyl pentanoate to give a p keto ester The ester is hydrolyzed and the resulting p keto acid decarboxylates to yield the desired ketone... 

Section 21 5 Hydrolysis of p keto esters such as those shown m Table 21 1 gives p keto acids which undergo rapid decarboxylation forming ketones... 

Azoleacetic acids with a carboxymethyl group also decarboxylate readily, e.g. all three thiazole isomers, by a mechanism similar to that for the decarboxylation of /3-keto acids cf. Section 4.02.3.1.2. The mechanism has been investigated in the oxazole case, (396) (397) (398) <72JCS(P2)1077). 

After isolation, the Michael adduct may be subjected to ester hydrolysis and decarboxylation. When a,p-unsaturated ketones are carried through this sequence, the final products are 5-keto acids (8-keto acids). 

FIGURE 18.18 Thiamine pyrophosphate participates in (a) the decarboxylation of n-keto acids and (b) the formation and cleavage of n-hydroxyketones. 

The NAD- and NADP-dependent dehydrogenases catalyze at least six different types of reactions simple hydride transfer, deamination of an amino acid to form an a-keto acid, oxidation of /3-hydroxy acids followed by decarboxylation of the /3-keto acid intermediate, oxidation of aldehydes, reduction of isolated double bonds, and the oxidation of carbon-nitrogen bonds (as with dihydrofolate reductase). 

Compound 2 is hydrolyzed in boiling water to form the hydrate of benzamidotrifluoroacetone (3) with loss of carbon dioxide. This behavior is readily understood in terms of a facile decarboxylation of the initially formed jS-keto acid. 

Oxidation of ecgonine (2) by means of chromium trioxide was found to afford a keto acid (3). This was formulated as shown based on the fact that the compound undergoes ready themnal decarboxylation to tropinone (4)The latter had been obtained earlier from degradative studies in connection with the structural determination of atropine (5) and its structure established independently. Confirmation for the structure came from the finding that carbonation of the enolate of tropinone does in fact lead back to ecgonine. Reduction, esterification with methanol followed by benzoylation then affords cocaine. 

Condensation of an appropriately substituted phenylacetic acid with phthalic anhydride in the presence of sodium acetate leads to aldol-like reaction of the methylene group on the acid with the carbonyl on the anhydride. Dehydration followed by decarboxylation of the intermediate affords the methylenephthal-ides (12). Treatment of the phthalides with base affords directly the indandiones, probably via an intermediate formally derived from the keto-acid anion (13). The first agent of this class to be introduced was phenindandione (14) this was followed by anisindandione (1S) and chlorindandione (16). ... 

Decarboxylation is not a general reaction of carboxylic acids. Rather, it is unique to compounds that have a second carbonyl group two atoms away from the —COoH. That is, only substituted malonic acids and /3-keto acids undergo loss of CC>2 on heating. The decarboxylation reaction occurs by a cyclic mechanism and involves initial formation of an enol, thereby accounting for the need to have a second carbonyl group appropriately positioned. 

On heating with aqueous HC1, the alkylated (or dialkylated) aceluacetic ester is hydrolyzed to a jS-keto acid, which then undergoes decarboxylation tc... 

The reaction is thought to occur by nucleophilic addition of the N-alkyl-hydroxylamine to the keto acid as if forming an oxime (Section 19.8), followed by decarboxylation and elimination of wrater. Show the mechanism. 

The final decarboxylation of mevalonate 5-diphosphate appears unusual because decarboxylations of acids do not typically occur except in /3-keto acids and malonic acids, in which the carboxylate group is two atoms away from an additional carbonyl group (Section 22.7). The function of this second carbonyl group is to act as an electron acceptor and stabilize the charge resulting from loss of CC>2- In fact, though, the decarboxylation of a /3-kelo acid and the decarboxylation of mevalonate 5-diphosphate are closely related. 

Step 2 of Figure 29.11 Decarboxylation The TPP addition product, which contains an iminium ion j8 to a carboxylate anion, undergoes decarboxylation in much the same way that a jB-keto acid decarboxylates in the acetoacetic ester synthesis (Section 22.7). The C=N+ bond of the pyruvate addition product acts... 

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