Enzymatic Hydrolysis of the Chemical Warfare Agent VX and its Neurotoxic Analogues by Organophosphorus Hydrolase

Organophosphorus hydrolase (OPH) is a bacterial enzyme that hydrolyzes a variety of organophosphorus (OP) neurotoxins, including many widely used pesticides and chemical warfare agents containing P-O, P-F, P-CN and P-S bonds. It has extremely high efficiency in hydrolysis of many different phosphotr...

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Veröffentlicht in:	Biocatalysis and biotransformation 1997, Vol.15 (4), p.297-312
Hauptverfasser:	Kolakowski, Jan E., Defrank, Joseph J., Harvey, S. P., Szafraniec, Linda L., Beaudry, William T., Lai, Kaihua, Wild, James R.
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Sprache:	eng
Schlagworte:	Biodegradation of pollutants Biological and medical sciences Biotechnology Detoxification Environment and pollution Enzyme biocatalysis Fundamental and applied biological sciences. Psychology Industrial applications and implications. Economical aspects Neurotoxins
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container_title	Biocatalysis and biotransformation
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creator	Kolakowski, Jan E. Defrank, Joseph J. Harvey, S. P. Szafraniec, Linda L. Beaudry, William T. Lai, Kaihua Wild, James R.
description	Organophosphorus hydrolase (OPH) is a bacterial enzyme that hydrolyzes a variety of organophosphorus (OP) neurotoxins, including many widely used pesticides and chemical warfare agents containing P-O, P-F, P-CN and P-S bonds. It has extremely high efficiency in hydrolysis of many different phosphotriester and phosphothiolester pesticides (P-O bond) such as paraoxon (kcat3800s−1) and coumaphos (kcat = 800s−1) or phosphonate (P-F) neurotoxins such as DFP (kcat = 350s−1) and the chemical warfare agent sarin (kcat = 56s−1). In contrast, the enzyme has much lower catalytic capabilities for phosphonothioate neurotoxins such as acephate (kcat = 2.8 s−1) or the chemical warfare agent VX [O-ethyl S-(2-diisopropyl-aminoethyl) methylphosphonothioate] (kcat = 0.3s−1). This lower specificity for VX and its analogues are reflected by the specificity constants (kcat/Km values) for VX = 0.75 × 103 M−1 s−1 compared to 5.5 × 107M−1 s−1 for paraoxon. Different metal-associated forms of the enzyme demonstrated significantly varying hydrolytic capabilities for VX and its analogues, and the activity of OPH (Co+2) was consistently higher than that of OPH (Zn+2) by five to twenty fold. Hydrolysis of the P-S bonds was determined by monitoring the formation of free -SH groups, and the specific cleavage of the P-S bond was verified by 31P NMR analysis.
doi_str_mv	10.3109/10242429709003196
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In contrast, the enzyme has much lower catalytic capabilities for phosphonothioate neurotoxins such as acephate (kcat = 2.8 s−1) or the chemical warfare agent VX [O-ethyl S-(2-diisopropyl-aminoethyl) methylphosphonothioate] (kcat = 0.3s−1). This lower specificity for VX and its analogues are reflected by the specificity constants (kcat/Km values) for VX = 0.75 × 103 M−1 s−1 compared to 5.5 × 107M−1 s−1 for paraoxon. Different metal-associated forms of the enzyme demonstrated significantly varying hydrolytic capabilities for VX and its analogues, and the activity of OPH (Co+2) was consistently higher than that of OPH (Zn+2) by five to twenty fold. 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In contrast, the enzyme has much lower catalytic capabilities for phosphonothioate neurotoxins such as acephate (kcat = 2.8 s−1) or the chemical warfare agent VX [O-ethyl S-(2-diisopropyl-aminoethyl) methylphosphonothioate] (kcat = 0.3s−1). This lower specificity for VX and its analogues are reflected by the specificity constants (kcat/Km values) for VX = 0.75 × 103 M−1 s−1 compared to 5.5 × 107M−1 s−1 for paraoxon. Different metal-associated forms of the enzyme demonstrated significantly varying hydrolytic capabilities for VX and its analogues, and the activity of OPH (Co+2) was consistently higher than that of OPH (Zn+2) by five to twenty fold. Hydrolysis of the P-S bonds was determined by monitoring the formation of free -SH groups, and the specific cleavage of the P-S bond was verified by 31P NMR analysis.</description><subject>Biodegradation of pollutants</subject><subject>Biological and medical sciences</subject><subject>Biotechnology</subject><subject>Detoxification</subject><subject>Environment and pollution</subject><subject>Enzyme biocatalysis</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Industrial applications and implications. 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subjects	Biodegradation of pollutants Biological and medical sciences Biotechnology Detoxification Environment and pollution Enzyme biocatalysis Fundamental and applied biological sciences. Psychology Industrial applications and implications. Economical aspects Neurotoxins
title	Enzymatic Hydrolysis of the Chemical Warfare Agent VX and its Neurotoxic Analogues by Organophosphorus Hydrolase
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