Purification, characterization, and gene cloning of a novel fluoroacetate dehalogenase from Burkholderia sp FA1

Fluoroacetate dehalogenase catalyzes the hydrolytic defluorination of fluoroacetate to produce glycolate. The enzyme is unique in that it catalyzes the cleavage of the highly stable carbon-fluorine bond in an aliphatic compound. The bacterial isolate FA1, which was identified as Burkholderia, grew on fluoroacetate as the sole carbon source to produce fluoroacetate dehalogenase (FAc-DEX FA1). The enzyme was purified to homogeneity and characterized. The molecular weights were estimated to be 79,000 and 34,000 by gel filtration and SDS-polyacrylamide gel electrophoresis (PAGE), respectively, suggesting that the enzyme is a dimer. The purified enzyme was specific to haloacetates, and fluoroacetate was the best substrate. The activities toward chloroacetate and bromoacetate were less than 5% of the activity toward fluoroacetate. The K-m and V-max values for the hydrolysis of fluoroacetate were 5.1 mM and 11 mumol per minute milligram, respectively. The gene coding for the enzyme was isolated, and the nucleotide sequence was determined. The open reading frame consisted of 912 nucleotides, corresponding to 304 amino acid residues. Although FAc-DEX FA1 showed high sequence similarity to fluoroacetate dehalogenase from Moraxella sp. B (FAc-DEX H1) (61% identity), the substrate specificity of FAc-DEX FA1 was significantly different from that of FAc-DEX H1: FAc-DEX FA1 was more specific to fluoroacetate than FAc-DEX H1. (C) 2003 Elsevier B.V. All rights reserved.