Organophosphorus hydrolase-poly-β-cyclodextrin as a stable self-decontaminating bio-catalytic material for sorption and degradation of organophosphate pesticide

神经毒剂 化学 吸附 有机磷 塔邦 对氧磷 水解酶 催化作用 环糊精 水解 固定化酶 色谱法 杀虫剂 有机化学 吸附 乙酰胆碱酯酶 生物 农学
作者
Youngkwang Moon,Ali Turab Jafry,Soon Bang Kang,Jin Young Seo,Kyung‐Youl Baek,Eui-Joong Kim,Jae‐Gu Pan,Jae-Youl Choi,Hyunji Kim,Kang Han Lee,Keunhong Jeong,Se Won Bae,Seunghan Shin,Jinkee Lee,Yong‐Woo Lee
出处
期刊:Journal of Hazardous Materials [Elsevier BV]
卷期号:365: 261-269 被引量:63
标识
DOI:10.1016/j.jhazmat.2018.10.094
摘要

A region suffering from an attack of a nerve agent requires not only a highly sorptive material but also a fast-acting catalyst to decontaminate the lethal chemical present. The product should be capable of high sorptive capacity, selectivity and quick response time to neutralize the long lasting harmful effects of nerve agents. Herein, we have utilized organophosphorus hydrolase (OPH) as a non-toxic bio-catalytic material held in with the supporting matrix of poly-β-cyclodextrin (PCD) as a novel sorptive reinforced self-decontaminating material against organophosphate intoxication. OPH coated PCD (OPH-PCD) will not only be providing support for holding enzyme but also would be adsorbing methyl paraoxon (MPO) used as a simulant, in a host-guest inclusion complex formation. Sorption trend for PCD revealed preference towards the more hydrophobic MPO against para-nitrophenol (pNP). The results show sorption capacity of 1.26 mg/g of 100 μM MPO with PCD which was 1.7 times higher compared to pNP. The reaction rate with immobilized OPH-PCD was found to be 23% less compared to free enzyme. With the help of OPH-PCD, continuous hydrolysis (100%) of MPO into pNP was observed for a period of 24 h through packed bed reactor with good reproducibility and stability of enzyme. The long-term stability also confirmed its stable nature for the investigation period of 4 days where it maintained activity. Combined with its fast and reactive nature, the resulting self-decontaminating regenerating material provides a promising strategy for the neutralization of nerve agents and preserving the environment.
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