Jitsumori_2009_J.Bacteriol_191_2630

Reference

Title : X-Ray crystallographic and mutational studies of fluoroacetate dehalogenase from Burkholderia sp. strain FA1 - Jitsumori_2009_J.Bacteriol_191_2630
Author(s) : Jitsumori K , Omi R , Kurihara T , Kurata A , Mihara H , Miyahara I , Hirotsu K , Esaki N
Ref : Journal of Bacteriology , 191 :2630 , 2009
Abstract :

Fluoroacetate dehalogenase catalyzes the hydrolytic defluorination of fluoroacetate to produce glycolate. The enzyme is unique in that it catalyzes the cleavage of a carbon-fluorine bond of an aliphatic compound: the bond energy of the carbon-fluorine bond is among the highest found in natural products. The enzyme also acts on chloroacetate, although much less efficiently. We here determined the X-ray crystal structure of the enzyme from Burkholderia sp. strain FA1 as the first experimentally determined three-dimensional structure of fluoroacetate dehalogenase. The enzyme belongs to the alpha/beta hydrolase superfamily and exists as a homodimer. Each subunit consists of core and cap domains. The catalytic triad, Asp104-His271-Asp128, of which Asp104 serves as the catalytic nucleophile, was found in the core domain at the domain interface. The active site was composed of Phe34, Asp104, Arg105, Arg108, Asp128, His271, and Phe272 of the core domain and Tyr147, His149, Trp150, and Tyr212 of the cap domain. An electron density peak corresponding to a chloride ion was found in the vicinity of the N(epsilon1) atom of Trp150 and the N(epsilon2) atom of His149, suggesting that these are the halide ion acceptors. Site-directed replacement of each of the active-site residues, except for Trp150, by Ala caused the total loss of the activity toward fluoroacetate and chloroacetate, whereas the replacement of Trp150 caused the loss of the activity only toward fluoroacetate. An interaction between Trp150 and the fluorine atom is probably an absolute requirement for the reduction of the activation energy for the cleavage of the carbon-fluorine bond.

PubMedSearch : Jitsumori_2009_J.Bacteriol_191_2630
PubMedID: 19218394
Gene_locus related to this paper: bursp-deha

Related information

Gene_locus bursp-deha
Family Haloacetate_dehalogenase
Structure 1Y37

Citations formats

Jitsumori K, Omi R, Kurihara T, Kurata A, Mihara H, Miyahara I, Hirotsu K, Esaki N (2009)
X-Ray crystallographic and mutational studies of fluoroacetate dehalogenase from Burkholderia sp. strain FA1
Journal of Bacteriology 191 :2630

Jitsumori K, Omi R, Kurihara T, Kurata A, Mihara H, Miyahara I, Hirotsu K, Esaki N (2009)
Journal of Bacteriology 191 :2630