Keto acids cleavage

Keto acids are obtained by acylation of cyclopentanone enamines (see p. I3f.) with acid chlorides and subsequent base-catalyzed mro-aldol cleavage (S. Hdnig, 1960). 

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

Eeton-saure, /. ketonic acid, keto acid, -spal-tung,/. ketonic cleavage, -zucker, m. ketonic sugar. 

When P-keto esters are treated with concentrated base, cleavage occurs, but is on the keto side of the CR2 group (arrow) in contrast to the acid cleavage mentioned on page 810. The products are a carboxylic ester and the salt of an acid. However, the... 

This arrangement of subgroups is due to the hypothetical biosynthetic sequence. It assumes that precursors for these alkaloids are the Af-methylphth-alideisoquinolinium salts, whose presence in plants is well documented. Enol lactones may be the initial degradation products formed in a Hofmann-type jft-elimination process. They could be hydrated to the keto acids and in the next step oxidated in air to the diketo acids. Diketo adds may undergo further oxidative cleavage to yield simple alkaloids of the fumariflorine (87) type 85,86), which seem to be the final products of the metabolism of phthalideiso-quinoline alkaloids. 

The diketone (291) could also undergo acid catalyzed ring cleavage to provide the keto-acid (292), which possesses the structural feature of a propellane100). 

Figure 5.8 Examples of formation and cleavage of carbon-carbon bonds (a) aldol condensation, (b) Claisen ester condensation and (c) decarboxylation of a P-keto acid. (From Voet and Voet, 2004. Reproduced with permission from John Wiley Sons., Inc.)...

Partial reduction of the aromatic ring is especially easy in anthracene-9-carboxylic acid which was reduced to 9,10-dihydroanthracene-9-carboxylic acid with 2.5% sodium amalgam in aqueous sodium carbonate at 10° in 80% yield [987]. Aromatic carboxylic acids with hydroxyl groups in the ortho positions suffer ring cleavage during reductions with sodium in alcohols and are converted to dicarboxylic acids after fission of the intermediate j8-keto acids. 

Oxidative cleavage of monocyclic and bicyclic allylic alcohols to keto acids and di-acids respectively is effected by RuClj/aq. Na(IO )/CCl -CH3CN thus trans-verbenol gave (+)-c/x-pinononic acid and (+)-frani-pinocarveol yielded (-)-cis-pinic acid (Table 3.6) [237]. The double bond in diphenylcholene was cleaved by RuOj/aq. Na(IO )/CCl to aldehyde and acid (Table 3.4) and the adjoining phenyl rings destroyed [238]. 

The negative ion electrospray MS of fatty acid hydroperoxides exhibits various typical features that may be useful for characterization of this type of compounds, such as loss of small neutral molecules and fragmentation associated with the position of the OOH group. The [M — H] and [M — H2O peaks are usually most abundant and cleavage of the double bond allylic to the hydroperoxy group is also observed. The features of the fragmentation after loss of H2O in the MS of a fatty acid hydroperoxide are the same as those observed in the MS of the analogous keto acid . ... 

A similar mechanism can be written for the formation of phenyl acetone in an irradiated aqueous solution of biacetyl and phenylacetic acid.55 Abstraction of a benzilic hydrogen from phenylacetic acid by a photoexcited biacetyl would produce 3 and a benzylic radical which can add to a second biacetyl molecule. Cleavage of this intermediate would yield a jS-keto acid which, on... 

Various thiamine diphosphate (ThDP)-dependent a-keto acid decarboxylases have been described as catalyzing C-C bond formation and/or cleavage [48]. Extensive work has already been conducted on transketolase (TK) and pyruvate decarboxylase (PDC) from different sources [49]. Here attention should be drawn to some concepts based on the investigation of reactions catalyzed by the enzymes... 

It is a colorless liquid with an oily-fruity odor with floral, petal-like notes. For synthesis, 1,3-cyclohexanedione is reacted with crotyl bromide in the presence of potassium hydroxyde to give the 2-alkenyl-substituted 1,3-diketone. Ring cleavage with sodium hydroxyde leads to the unsaturated keto acid which is reduced with NaBH4 under formation of the title compound [201]. 

In a number of nonenzymatic reactions catalyzed by pyridoxal, a metal ion complex is formed—a combination of a multivalent metal ion such as cupric oi aluminum ion with the Schiff base formed from the combination of an amino acid and pyridoxal (I). The electrostatic effect of the metal ion, as well as the electron sink of the pyridinium ion, facilitates the removal of an a -hydrogen atom to form the tautomeric Schiff base, II. Schiff base II is capable of a number of reactions characteristic of pyridoxal systems. Since the former asymmetric center of the amino acid has lost its asymmetry, donation of a proton to that center followed by hydrolytic cleavage of the system will result in racemic amino acid. On the other hand, donation of a proton to the benzylic carbon atom followed by hydrolytic cleavage of the system will result in a transamination reaction—that is, the amino acid will be converted to a keto acid and pyridoxal will be converted to pyridoxamine. Decarboxylation of the original amino acid can occur instead of the initial loss of a proton. In either case, a pair of electrons must be absorbed by the pyridoxal system, and in each case, the electrostatic effect of the metal ion facilitates this electron movement, as well as the subsequent hydrolytic cleavage (40, 43). 

TPP is utilized as a coenzyme in reactions involving the decarboxylation of a-keto acids and the formation and cleavage of a-hydroxyketones. 

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