Sphingobium sp. strain TCM1 can significantly degrade chlorinated organophosphorus flame retardants, such as tris(2-chloroethyl) phosphate. The PhoK of strain TCM1 (Sb-PhoK) is the main alkaline phosphatase (APase) that catalyzes the last step in the degradation pathway. Here, we purified and characterized Sb-PhoK produced in E. coli, and analyzed the regulation of Sb-phoK gene expression in strain TCM1. The recombinant Sb-PhoK was produced in the mature form, lacking a putative signal peptide, and formed a homodimer. Purified Sb-PhoK exhibited 384 U/mg of specific activity at 37 °C. The optimum temperature was 50 °C, and Sb-PhoK was completely inactivated when incubated at 60 °C for 10 min. The optimum pH was 10, with stability observed at pH 6.0-10.5. Sb-PhoK was suggested to contain two Ca2+ and one Zn2+ per subunit, but excess addition of Zn2+ into the reaction mixture markedly inhibited the enzyme activity. Sb-PhoK showed phosphatase activity against various phosphorylated compounds, except for bis(p-nitrophenyl) phosphate, indicating that it is a phosphomonoesterase with broad substrate specificity. The Km and kcat for p-nitrophenyl phosphate were 2.31 mM and 1270 s-1, respectively, under optimal conditions. The enzyme was strongly inhibited by vanadate, dithiothreitol, and SDS, but was highly resistant to urea and Triton X-100. Sb-phoK gene expression was regulated by the inorganic phosphate concentration in culture medium, and was induced at a low inorganic phosphate concentration. The deletion of Sb-phoB gene resulted in no induction of Sb-phoK gene even at a low inorganic phosphate concentration, confirming that Sb-PhoK is a member of Pho regulon.
Keywords: Enzymatic characteristics; Gene expression; PhoK alkaline phosphatase; Sphingobium sp. strain TCM1.