Generation of a mutagenized organophosphorus hydrolase for the biodegradation of the organophosphate pesticides malathion and demeton‐S

Aims: The bacterial organophosphorus hydrolase (OPH) enzyme hydrolyses and detoxifies a broad range of toxic organophosphate pesticides and warfare nerve agents by cleaving the various phosphorus‐ester bonds (P–O, P–F, P–CN, P–S); however, OPH hydrolyses these bonds with varying efficiencies. The aim of this study was to generate a variant OPH enzyme with improved hydrolytic efficiency against the poorly hydrolysed P–S class of organophosphates. Methods and Results: The gene encoding OPH was sequentially mutated at specific codons by saturation mutagenesis and screened for improved activity against the P–S substrates demeton‐S methyl and malathion. Escherichia coli lysates harbouring the variants displayed up to 177‐ and 1800‐fold improvement in specific activity against demeton‐S methyl and malathion, respectively, compared to the wild‐type lysates. The specificity constants of the purified variant proteins were improved up to 25‐fold for demeton‐S methyl and malathion compared to the wild‐type. Activity was associated with organophosphate detoxification as the hydrolysed substrate lost the ability to inhibit acetylcholinesterase. The improved hydrolytic efficiency against demeton‐S translated to the improved ability to hydrolyse the warfare agent VX. Conclusions: OPH variant enzymes were generated that displayed significantly improved ability to hydrolyse and detoxify organophosphates harbouring the P–S bond. Significance and Impact of the Study: The long‐term goal is to generate an environmentally‐friendly enzyme‐mediated bioremediation approach for the removal of toxic organophosphate compounds in the environment.