화학공학소재연구정보센터
Applied Microbiology and Biotechnology, Vol.104, No.3, 1125-1134, 2020
Enzymatic characterization and regulation of gene expression of PhoK alkaline phosphatase in Sphingobium sp. strain TCM1
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 degrees C. The optimum temperature was 50 degrees C, and Sb-PhoK was completely inactivated when incubated at 60 degrees 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 K-m and k(cat) 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.