Journal article
Transformation of indole and quinoline by Desulfobacterium indolicum (DSM 3383)
Degradation of indole and quinoline by Desulfobacterium indolicum was studied in batch cultures. The first step in the degradation pathway of indole and quinoline was a hydroxylation at the 2 position to oxindole and 2-hydroxyquinoline respectively. These hydroxylation reactions followed saturation kinetics.
The kinetic parameters for indole were an apparent maximum specific transformation rate (V-Amax) of 263 mu mol mg total protein(-1) day(-1) and an apparent half-saturation constant (K-Am) of 139 mu M. The V-Amax for quinoline was 170 mu mol mg total protein(-1) day(-1) and K-Am was 92 mu M. Oxindole inhibited indole hydroxylation whereas 2-hydroxyquinoline stimulated quinoline hydroxylation.
An adaptation period of approximately 20 days was required before transformation of 2-hydroxyquinoline in cultures previously grown on quinoline. Indole and quinoline were hydroxylated with a lag phase shorter than 4 h in a culture adapted to ethanol. Chloramphenicol inhibited the hydroxylation of indole and quinoline in ethanol-adapted cells, indicating an inducible enzyme system.
Chloramphenicol had no effect on the hydroxylation of indole in quinoline-adapted cells or on the hydroxylation of quinoline in indole-adapted cells. This indicated that it was the same inducible enzyme system that hydroxylated indole and quinoline.
Language: | English |
---|---|
Publisher: | Springer-Verlag |
Year: | 1996 |
Pages: | 167-172 |
ISSN: | 01757598 and 14320614 |
Types: | Journal article |
DOI: | 10.1007/s002530050907 |
ORCIDs: | Arvin, E. and 0000-0002-9555-5134 |