Publications

• Formation of epsilon-hydroxycaproate and epsilon-aminocaproate from N-nitrosohexamethyleneimine: evidence that microsomal alpha-hydroxylation of cyclic nitrosamines may not always involve the insertion of molecular oxygen into the substrate.

  Hecker L.I., Tondeur Y., Farrelly J.G.

  The formation of the products of microsomal metabolism of the cyclic nitrosamine, nitrosohexamethyleneimine (NO-HEX) were studied. Information on the origins of the oxygen atoms in four major metabolites of NO-HEX was obtained by metabolizing this compound in an 18O2 atmosphere using microsomes an ... >> More

  The formation of the products of microsomal metabolism of the cyclic nitrosamine, nitrosohexamethyleneimine (NO-HEX) were studied. Information on the origins of the oxygen atoms in four major metabolites of NO-HEX was obtained by metabolizing this compound in an 18O2 atmosphere using microsomes and cytosol, beta- and gamma-Hydroxy-NO-HEX are formed as a result of the insertion of a hydroxyl group derived from molecular oxygen into NO-HEX. All of the oxygen atoms in epsilon-aminocaproate (EAC) were derived from water. Approximately half of the molecules of epsilon-hydroxycaproate ( EHC ) contain an 18O atom; thus, half of the alpha-hydroxy-NO-HEX formed incorporates a hydroxyl group derived from molecular oxygen with the remainder of the hydroxyls being from water. To account for the above data and the related metabolic origins of EAC and EHC ( Hecker and McClusky , Cancer Res., 42 (1982) 59; Hecker et al., Teratogen. Carcinogen. Mutagen (1982) in press), we have proposed a mechanism for the formation of these compounds from cyclic nitrosamines catalyzed by microsomal and cytosolic enzymes. << Less

  Chem Biol Interact 49:235-248(1984) [PubMed] [EuropePMC]

• The metabolism of cyclohexanol by Acinetobacter NCIB 9871.

  Donoghue N.A., Trudgill P.W.

  Acinetobacter NCIB 9871 was isolated by elective culture on cyclohexanol and grows with this compound as sole source of carbon. It displays a restricted growth spectrum, being unable to grow on a wide range of alternative alicyclic alcohols and ketones. Cyclohexanol-grown cells oxidize the growth ... >> More

  Acinetobacter NCIB 9871 was isolated by elective culture on cyclohexanol and grows with this compound as sole source of carbon. It displays a restricted growth spectrum, being unable to grow on a wide range of alternative alicyclic alcohols and ketones. Cyclohexanol-grown cells oxidize the growth substrate at a rate of 230 mul of O2/h per mg dry wt with the consumption of 5.65 mumol of O2/mumol substrate. Cyclohexanone is oxidized at a similar rate with the consumption of 4.85 mumol of O2/mumol. 1-Oxa-2-oxocycloheptane and 6-hydroxyhexanoate are both oxidized at the same slow rate of 44 mul of O2/h per mg dry wt and adipate is not oxidized. Studies with cell extracts reveal the presence of inducible dehydrogenases for cyclohexanol, 6-hydroxyhexanoate and 6-oxohexanoate and a monooxygenase, that in conjunction with a lactonase converts cyclohexanone to 6-hydroxyhexanoate. The monooxygenase is therefore presumed to be of the lactone-forming type and the pathway for conversion of cyclohexanol to adipate; cyclohexanol leads to cyclohexanone leads to 1-oxa-2-oxocycloheptane leads to 6-hydroxyhexanoate leads to 6-oxohexanoate leads to adipate; for which key intermediates have been identified chromatographically, is identical with the route for the oxidation of cyclohexanol by Nocardia globerula CL1. << Less

  Eur J Biochem 60:1-7(1975) [PubMed] [EuropePMC]

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