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The enzymic degradation of alkyl-substituted gentisates, maleates and malates.

The Biochemical journal (1971-03-01)
D J Hopper, P J Chapman, S Dagley
ABSTRACT

1. Cell-free extracts, prepared from a non-fluorescent Pseudomonas grown on m-cresol, oxidized gentisate and certain alkyl-substituted gentisates with the consumption of 1 mol of oxygen and the formation of 1 mol of pyruvate from 1 mol of substrate. 2. In addition to pyruvate, malate was formed from gentisate; citramalate was formed from 3-methylgentisate and 4-methylgentisate; 2,3-dimethylmalate was formed from 3,4-dimethylgentisate. 3. One enantiomer, d-(-)-citramalate, was formed enzymically from 3-methylgentisate, 4-methylgentisate and citraconate. l-(+)-Citramalate was formed from mesaconate by the same extracts. When examined as its dimethyl ester by gas-liquid chromatography, enzymically formed 2,3-dimethylmalate showed the same behaviour as one of the two racemates prepared from the synthetic compound. 4. Maleate, citraconate and 2,3-dimethylmaleate were rapidly hydrated by cell extracts, but ethylfumarate and 2,3-dimethylfumarate were not attacked. 5. Cell extracts oxidized 1,4-dihydroxy-2-naphthoate to give pyruvate and phthalate. 6. Alkylgentisates were oxidized by a gentisate oxygenase (EC 1.13.1.4) present in Pseudomonas 2,5. The ring-fission products were attacked by maleylpyruvase, but not by fumarylpyruvase, and their u.v.-absorption spectra were those expected for alkyl-substituted maleylpyruvates. 7. When supplemented with ATP, CoA, succinate and Mg(2+) ions, an enzyme system from cells grown with 2,5-xylenol formed pyruvate from d- but not from l-citramalate. Extracts from cells grown with dl-citramalate or with itaconate attacked both d- and l-citramalate; other alkylmalates were cleaved in similar fashion to give pyruvate or 2-oxobutyrate. 8. These results accord with a general sequence of reactions in which the benzene nucleus of an alkylgentisate is cleaved to give an alkyl-substituted maleylpyruvate. The ring-fission products are hydrolysed to give pyruvate, plus alkylmalic acids which then undergo aldol fissions, probably as their CoA esters. In Pseudomonas 2,5 several homologous sequences of this general type appear to be catalysed by a single battery of enzymes with broad substrate specificities, whereas the metabolic capabilities of the fluorescent Pseudomonas 3,5 are more restricted. 9. Intact cells of both organisms metabolize d-malic acid by reactions that have not been elucidated, but are different from those which degrade alkylmalates.

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Sigma-Aldrich
2-Hydroxy-3-isopropylbenzoic acid, 98%