Y. Nomura, S. Harashima, Y. Oshima
1989
Citations
2
Influential Citations
22
Citations
Journal
Journal of Fermentation and Bioengineering
Abstract
Abstract We have developed a simple method for the detection of phthalate 4,5-dioxygenase and 4,5-dihydro-4,5-dihydroxyphthalate dehydrogenase activities in the initial step of phthalate degradation in bacteria. It was found that cells of a Pseudomonas putida strain adapted for phthalate could convert quinolinic acid to a hydroxylated product having λ max at 315 nm. The occurrence of this compound was visualized by reaction with diazotized p -nitroaniline with which a red compound having λ max at 512 nm was produced. In practice, if cells in colonies developed on an agar plate containing mineral salt medium supplemented with 0.4% of disodium phthalate and 0.1% of quinolinic acid are active with respect to the 4,5-dihydroxyphthalate pathway, then the colonies would be colored red immediately upon spraying with the diazotized p -nitroaniline reagent. The method was used to identify the phthalate degradative pathway for 27 phthalate-utilizing strains of the genera Pseudomonas (18 strains), Agrobacterium (3 strains), Alcaligenes (5 strains), and Micrococcus (1 strain). It was found that 24 of the 26 Gram-negative bacteria have the 4,5-dihydroxyphthalate pathway and that the remaining two strains of Pseudomonas sp. may metabolize via an unidentified pathway other than the dihydroxyphthalate pathways, and the Gram-positive strain of Micrococcus sp. metabolizes phthalate via the 3,4-dihydroxyphthalate pathway.