1. Bioconversion by functional P450 1A9 and P450 1C1 of Anguilla japonica.
- Author
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Uno T, Okamoto S, Masuda S, Imaishi H, Nakamura M, Kanamaru K, Yamagata H, El-Kady MA, Kaminishi Y, and Itakura T
- Subjects
- Anguilla genetics, Animals, Biotransformation, Chromatography, High Pressure Liquid, Cloning, Molecular, Coumarins metabolism, Cytochrome P-450 Enzyme System genetics, Dealkylation, Escherichia coli genetics, Escherichia coli metabolism, Estradiol metabolism, Fish Proteins genetics, Flavanones metabolism, Genetic Vectors, Hydroxylation, Isoenzymes metabolism, Oxazines metabolism, Substrate Specificity, Transformation, Bacterial, Anguilla metabolism, Cytochrome P-450 Enzyme System metabolism, Fish Proteins metabolism
- Abstract
We indicated that two P450s (1A9 and 1C1) from Japanese eel (Anguilla japonica) metabolized 7-ethoxycoumarin, 7-ethoxyresorufin, and flavanone. At first, we constructed expression vectors for two types of P450 (1A9 and 1C1). The reduced CO-difference spectra of Escherichia coli cells transformed with these plasmids showed Soret peaks (450 nm) that were typical of P450s. We performed bioconversion experiments in which substrates were added directly to incubation medium. The resulting metabolite(s) were extracted and analyzed by high-performance liquid chromatography and spectrofluorometer. Incubation of 50 nmol 7-ethoxyresorufin with P450 1C1 yielded 0.773 nmol of deethylated product, whereas 50 nmol 7-ethoxycoumarin resulted in 4.76 nmol. P450 1A9 metabolized 50 nmol of 7-ethoxyresorufin and 7-ethoxycoumarin to yield 6.54 and 20.9 nmol of deethylated product, respectively. Incubation of 50 nmol flavanone with P450 1C1 yielded 1.46 nmol and 0.69 nmol of products, whereas 50 nmol flavanone with P450 1A9 resulted in 1.10 nmol. In this system, 4'-hydroxy flavanones were formed by P450 1A9 and P450 1C1. P450 1A9 also metabolized 50 nmol of 17 beta-estradiol to yield 4.25 nmol of product. In this system, 2-hydroxy estradiol was formed by P450 1A9 using 17 beta-estradiol as a substrate. This study is the first to identify the substrates that P450 1C1 and 1A9 metabolize.
- Published
- 2008
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