LAHODA, M., J.R. MESTERS, A. STSIAPANAVA, Radka CHALOUPKOVÁ, M. KUTY, Jiří DAMBORSKÝ and I. KUTA SMATANOVA. Crystallographic Analysis of 1,2,3–Trichloropropane Biodegradation by Haloalkane Dehalogenase DhaA31. Acta Crystallographica D. 2014, vol. 70, february, p. 209-217. ISSN 0907-4449. Available from: https://dx.doi.org/10.1107/S1399004713026254.
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Basic information
Original name Crystallographic Analysis of 1,2,3–Trichloropropane Biodegradation by Haloalkane Dehalogenase DhaA31
Authors LAHODA, M. (112 Belarus), J.R. MESTERS (724 Spain), A. STSIAPANAVA (112 Belarus), Radka CHALOUPKOVÁ (203 Czech Republic, belonging to the institution), M. KUTY (203 Czech Republic), Jiří DAMBORSKÝ (203 Czech Republic, guarantor, belonging to the institution) and I. KUTA SMATANOVA (203 Czech Republic).
Edition Acta Crystallographica D, 2014, 0907-4449.
Other information
Original language English
Type of outcome Article in a journal
Field of Study 10600 1.6 Biological sciences
Country of publisher United States of America
Confidentiality degree is not subject to a state or trade secret
Impact factor Impact factor: 7.232 in 2013
RIV identification code RIV/00216224:14310/14:00074213
Organization unit Faculty of Science
Doi http://dx.doi.org/10.1107/S1399004713026254
UT WoS 000331554500001
Keywords in English 1;2;3-trichloropropane; biodegradation; haloalkane dehalogenase DhaA31
Tags AKR, rivok
Changed by Changed by: Ing. Andrea Mikešková, učo 137293. Changed: 28/4/2015 09:21.
Abstract
Haloalkane dehalogenases catalyze the hydrolytic cleavage of carbon-halogen bonds, which is a key step in aerobic mineralization of many environmental pollutants. One important pollutant is the toxic and anthropogenic compound 1,2,3-trichloropropane (TCP). Rational design was combined with saturation mutagenesis to obtain the haloalkane dehalogenase variant DhaA31, which displays an increased catalytic activity towards TCP. Here we report the 1.31 A crystal structure of substrate-free DhaA31, the 1.26 A structure of DhaA31 in a complex with TCP, and the 1.85 A wild-type DhaA structure. Crystals of the enzyme-substrate complex were successfully obtained by adding volatile TCP to the reservoir at crystallization at room temperature and pH 6.4. Comparison of the substrate-free structure with the DhaA31 enzyme-substrate complex reveals that the nucleophilic Asp106 changes its conformation from an inactive to an active state during the catalytic cycle. The positions of three chloride ions found inside the enzyme’s active site indicate a possible pathway for halide release from the active site through the main tunnel. Comparison of the mutant DhaA31 with wild-type DhaA revealed that introduced substitutions reduced volume and solvent accessibility of the active site pocket.
Links
GAP207/12/0775, research and development projectName: Strukturně-funkční vztahy haloalkan dehalogenas
Investor: Czech Science Foundation
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