Metabolism of monofluoro- and monochlorobenzoates by a denitrifying bacterium

Monofluoro- and monochlorobenzoates did not support the growth of Pseudomonas PN-1, either aerobically or anaerobically (nitrate respiration), when supplied as sole sources of carbon and energy. Anaerobic growth yields on nonfluorinated substrates were increased by p-fluorobenzoate (pFBz) with a utilization of pFBz and release of F^-. Cell suspensions grown on p-hydroxybenzoate (pOHBz), either aerobically or anaerobically, only degraded o-fluorobenzoate (oFBz) and pFBz of the monohalogenated benzoates tested. Both compounds were catabolized anaerobically, but not aerobically, with a release of F^-. oFBz was immediately attacked, by cells grown anaerobically on pOHBz, whereas pFBz was only degraded after a lag phase; chloramphenicol inhibited the breakdown of pFBz, but not oFBz, thereby indicating the need for additional enzyme(s) to attack pFBz. o-Chlorobenzoate (oClBz) inhibited the anaerobic, but not aerobic, oxidation of pOHBz and stopped anaerobic growth on pOHBz. A mutant was isolated which metabolized pOHBz in the presence of oClBz but it was defective in its anaerobic metabolism of benzoate (Bz). Comparative studies, of the mutant and Pseudomonas PN-1, indicated that the mutation involved a metabolic site common to Bz, oClBz and the monofluorobenzoates. The dependence of the oxidation rate of Bz and oFBz on their concentrations at a millimolar level, in the mutant but not Pseudomonas PN-1, suggested a defect at the permease level: the uptake of ¹⁴C-labelled Bz by the mutant was also concentration-dependent. The response of the organism to the inhibitory effect of oClBz on pOHBz catabolism is discussed with respect to its significance in the perturbation of natural degradative processes by unnatural chemicals in the environment.Non-common abbreviations Bz benzoate - pOHBz p-hydroxybenzoate - oFBz o-fluorobenzoate - mFBz m-fluorobenzoate - pFBz p-fluorobenzoate - oClBz o-chlorobenzoate