Abstract
A Bacillus sp., isolated by anaerobic enrichment on a o-phthalic acid-nitrate medium, grew either aerobically or anaerobically on phthalic acid. Cells grown anaerobically on phthalate immediately oxidized phthalate and benzoate with nitrate, whereas aerobic oxidation only occurred after a lag period and was inhibited by chloramphenicol. 2-Fluoro-and 3-fluorobenzoate were formed from 3-fluorophthalate by cells grown anaerobically on phthalate. Aerobically grown cells immediately oxidized phthalate, benzoate, 3-hydroxybenzoate and gentisate with oxygen. The aerobic and anaerobic route of catabolism of phthalate may thus share an initial decarboxylation to benzoate. This is the first report of the anaerobic dissimilation of phthalic acid by a pure bacterial culture.
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References
Aftring RP, Chalker BE, Taylor BF (1981) Degradation of phthalic acids by denitrifying, mixed cultures of bacteria. Appl Environ Microbiol 41:1177–1183
Autian J (1973) Toxicity and health threats of phthalate esters: review of the literature. Environ Health Persp 4:3–26
Baker RWR (1978) Diethylhexyl phthalate as a factor in blood transfusion and hemodialysis. Toxicol 9:319–329
Clark JS, Buswell JA (1979) Catabolism of gentisic acid by two strains of Bacillus stearothermophilus. J Gen Microbiol 112:191–195
Collins CH, Lyne PM (1970) Microbiological methods. University Park Press, Baltimore
Crawford RL (1975) Degradation of 3-hydroxybenzoate by bacteria of the genus Bacillus. Appl Microbiol 30:439–444
Crawford RL (1976) Pathways of 4-hydroxybenzoate degradation among species of Bacillus. J Bacteriol 127:204–210
Crawford RL, Olson P (1979) Catabolism of 2-hydroxybenzoate by species of Bacillus. FEMS Microbiol Lett 5:193–195
Daniel JW (1978) Toxicity and metabolism of phthalate esters. Clinical Toxicol 13:257–268
Eaton RW, Ribbons DW (1979) Plasmid-encoded degradation of aromatic acids by Micrococcus strain 12B. Ann Meet Amer Soc Microbiol Abstr K 65, p 137
Engelhardt G, Wallnofer PR, Rast HG, Fiedler F (1976) Metabolism of o-phthalic acid by different gram-negative and gram-positive soil bacteria. Arch Microbiol 109:109–114
Harada T, Koiwa S (1977) Utilization of phthalic acid and iso- and terephthalic acids by soil bacteria. J Ferment Technol 55:97–102
Herbert D, Phipps PJ, Strange RE (1971) Chemical analysis of microbial cells. In: Methods in Microbiology, Vol 5B (eds), JR Norris and DW Ribbons, Academic Press New York: pp 209–344
Keyser P, Pujar BG, Eaton RW, Ribbons DW (1976) Biodegradation of the phthalates and their esters by bacteria. Environ Health Persp 18:159–166
Lawrence WH, Tuell SF (1979) Phthalate esters: the question of safety-an update. Clin Toxicol 15:447–466
Mayfield CI, Inniss WE (1977) A rapid, simple method for staining bacterial flagella. Can J Microbiol 23:1311–1313
Nakazawa T, Hayaishi E (1978) Phthalate and 4-hydroxyphthalate metabolism in Pseudomonas testosteroni: purification and properties of 4,5-dihydroxyphthalate decarboxylase. Appl Environ Microbiol 36:264–269
Nakazawa T, Hayaishi E (1977) Phthalate metabolism in Pseudomonas testosteroni: accumulation of 4,5-dihydroxyphthalate by a mutant strain. J Bacteriol 131:42–48
Peakall DB (1975) Phthalic esters: occurrence and biological effects. Res Rev 54:1–41
Pfennig N, Lippert KD (1966) Über das Vitamin B12-Bedürfnis phototropher Schwefelbakterien. Arch Mikrobiol 55:245–256
Ribbons DW, Evans WC (1960) Oxidative metabolism of phthalic acid by soil pseudomonads. Biochem J 76:310–318
Skerman VDB (1967) The Genera of Bacteria. Williams and Wilkins, Baltimore
Smith AJ, Hoare DS (1968) Acetate assimilation by Nitrobacter agilis in relation to its “obligate autotrophy”. J Bacteriol 95:844–855
Taylor BF, Hearn WL, Pincus S (1979) Metabolism of monofluoro- and monochlorobenzoates by a denitrifying bacterium. Arch Microbiol 122:301–306
Umbreit WW, Burris RH, Stauffer JF (1972) Manometric and Biochemical Techniques. Burgess, Minneapolis
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Aftring, R.P., Taylor, B.F. Aerobic and anaerobic catabolism of phthalic acid by a nitrate-respiring bacterium. Arch. Microbiol. 130, 101–104 (1981). https://doi.org/10.1007/BF00411059
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DOI: https://doi.org/10.1007/BF00411059