Di Sioudi_1999_Chem.Biol.Interact_119-120_211

Reference

Title : Rational design of organophosphorus hydrolase for altered substrate specificities - Di Sioudi_1999_Chem.Biol.Interact_119-120_211
Author(s) : Di Sioudi BD , Miller CE , Lai K , Grimsley JK , Wild JR
Ref : Chemico-Biological Interactions , 119-120 :211 , 1999
Abstract :

Organophosphorus hydrolase (OPH) is a bacterial enzyme that hydrolyzes a broad variety of OP neurotoxins, including chemical warfare agents and many widely used pesticides. OPH has extremely high hydrolytic efficiency with different phosphotriester and phophothiolester pesticides (k(cat) = 50-15,000 s(-1)) as well as phosphorofluorates such as DFP and the chemical warfare agents sarin and soman (k(cat) = 50-11,000 s(-1)). In contrast, the enzyme has much lower catalytic capabilities for phosphonothioate neurotoxins such as acephate or the chemical warfare agent VX [O-ethyl S-(2-diisopropyl aminoethyl) methylphosphonothioate] (k(cat) = 0.3-20 s(-1)). Different metal-associated forms of the enzyme have demonstrated varying hydrolytic capabilities for each of the OP neurotoxins, and the activity of OPH (Co2+) is consistently higher than that of OPH (Zn2+) by five- to 20-fold. Protein engineering strategies have exploited these metal-induced catalytic differences, and other slight modifications to the opd gene have resulted in significant enhancement of the rates of detoxification of the thioate pesticides and chemical warfare agents. In order to develop practical applications of OPH, other experiments have focused on improvement of enzyme production, localization, stability, and shelf-life, as well as efficient catalysis of substrates of interest.

PubMedSearch : Di Sioudi_1999_Chem.Biol.Interact_119-120_211
PubMedID: 10421455

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Citations formats

Di Sioudi BD, Miller CE, Lai K, Grimsley JK, Wild JR (1999)
Rational design of organophosphorus hydrolase for altered substrate specificities
Chemico-Biological Interactions 119-120 :211

Di Sioudi BD, Miller CE, Lai K, Grimsley JK, Wild JR (1999)
Chemico-Biological Interactions 119-120 :211