The degradation effects of a Pseudomonas hydrolase OPHC2 to organophosphorus insecticides

Jin Fang Wang; Ming Hui Gao; Ning Feng Wu; Can Ping Pan

doi:10.1080/10426500701808234

The degradation effects of a Pseudomonas hydrolase OPHC2 to organophosphorus insecticides

Jin Fang Wang
, Ming Hui Gao
, Ning Feng Wu
, Can Ping Pan^*

^*Corresponding author for this work

China Agricultural University
Chinese Academy of Agricultural Sciences

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

The degradation effects of OPHC2 to 9 organophosphates and other pesticides were studied. The degrading reaction was carried out for 10 minutes under 37°C in 50 mmol pH 8.0 Tris-HCl buffer. Organophosphates and sulfonylurea herbicides were detected by HPLC-UV and/or HPLC/MS. It's shown that degradation rates of 70%-100% were achieved for most of the organophosphates after 24 h (chlorpyrifos 100%, phoxim 100%, fenitrothion 99.87%, isocarbophos 100%, dimethoate 78.55%, methamidophos 71.55%, methidathion 87.93%). Pyrethroids were detected by GC-ECD after extracted by hexane. The degrading amounts of 5 pyrethroids were all above 50% after 3 hours (bifenthrin 78.7%, lambda-cyhalothrin 84.6%, permethrin 69.1%, beta-cypermethrin 51.5%, fenvalerate 72.2%). What is interesting, the degrading amount of malathion in its single standard solution was 94.31% while it did not degrade at all in the mixture standard even under superfluous enzyme solution. OPHC2 showed no effect to the sulfonylurea herbicides.

Original language	English
Pages (from-to)	804-810
Number of pages	7
Journal	Phosphorus, Sulfur and Silicon and the Related Elements
Volume	183
Issue number	2-3
DOIs	https://doi.org/10.1080/10426500701808234
State	Published - Feb 2008
Externally published	Yes

Keywords

Enzymatic degradation
OPHC2
Organophosphates
Pseudomonas hydrolase
Pyrethroids
Sulfonylurea herbicides

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10.1080/10426500701808234

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title = "The degradation effects of a Pseudomonas hydrolase OPHC2 to organophosphorus insecticides",

abstract = "The degradation effects of OPHC2 to 9 organophosphates and other pesticides were studied. The degrading reaction was carried out for 10 minutes under 37°C in 50 mmol pH 8.0 Tris-HCl buffer. Organophosphates and sulfonylurea herbicides were detected by HPLC-UV and/or HPLC/MS. It's shown that degradation rates of 70\%-100\% were achieved for most of the organophosphates after 24 h (chlorpyrifos 100\%, phoxim 100\%, fenitrothion 99.87\%, isocarbophos 100\%, dimethoate 78.55\%, methamidophos 71.55\%, methidathion 87.93\%). Pyrethroids were detected by GC-ECD after extracted by hexane. The degrading amounts of 5 pyrethroids were all above 50\% after 3 hours (bifenthrin 78.7\%, lambda-cyhalothrin 84.6\%, permethrin 69.1\%, beta-cypermethrin 51.5\%, fenvalerate 72.2\%). What is interesting, the degrading amount of malathion in its single standard solution was 94.31\% while it did not degrade at all in the mixture standard even under superfluous enzyme solution. OPHC2 showed no effect to the sulfonylurea herbicides.",

keywords = "Enzymatic degradation, OPHC2, Organophosphates, Pseudomonas hydrolase, Pyrethroids, Sulfonylurea herbicides",

author = "Wang, \{Jin Fang\} and Gao, \{Ming Hui\} and Wu, \{Ning Feng\} and Pan, \{Can Ping\}",

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AU - Gao, Ming Hui

AU - Wu, Ning Feng

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PY - 2008/2

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N2 - The degradation effects of OPHC2 to 9 organophosphates and other pesticides were studied. The degrading reaction was carried out for 10 minutes under 37°C in 50 mmol pH 8.0 Tris-HCl buffer. Organophosphates and sulfonylurea herbicides were detected by HPLC-UV and/or HPLC/MS. It's shown that degradation rates of 70%-100% were achieved for most of the organophosphates after 24 h (chlorpyrifos 100%, phoxim 100%, fenitrothion 99.87%, isocarbophos 100%, dimethoate 78.55%, methamidophos 71.55%, methidathion 87.93%). Pyrethroids were detected by GC-ECD after extracted by hexane. The degrading amounts of 5 pyrethroids were all above 50% after 3 hours (bifenthrin 78.7%, lambda-cyhalothrin 84.6%, permethrin 69.1%, beta-cypermethrin 51.5%, fenvalerate 72.2%). What is interesting, the degrading amount of malathion in its single standard solution was 94.31% while it did not degrade at all in the mixture standard even under superfluous enzyme solution. OPHC2 showed no effect to the sulfonylurea herbicides.

AB - The degradation effects of OPHC2 to 9 organophosphates and other pesticides were studied. The degrading reaction was carried out for 10 minutes under 37°C in 50 mmol pH 8.0 Tris-HCl buffer. Organophosphates and sulfonylurea herbicides were detected by HPLC-UV and/or HPLC/MS. It's shown that degradation rates of 70%-100% were achieved for most of the organophosphates after 24 h (chlorpyrifos 100%, phoxim 100%, fenitrothion 99.87%, isocarbophos 100%, dimethoate 78.55%, methamidophos 71.55%, methidathion 87.93%). Pyrethroids were detected by GC-ECD after extracted by hexane. The degrading amounts of 5 pyrethroids were all above 50% after 3 hours (bifenthrin 78.7%, lambda-cyhalothrin 84.6%, permethrin 69.1%, beta-cypermethrin 51.5%, fenvalerate 72.2%). What is interesting, the degrading amount of malathion in its single standard solution was 94.31% while it did not degrade at all in the mixture standard even under superfluous enzyme solution. OPHC2 showed no effect to the sulfonylurea herbicides.

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KW - OPHC2

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KW - Pseudomonas hydrolase

KW - Pyrethroids

KW - Sulfonylurea herbicides

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ER -

The degradation effects of a Pseudomonas hydrolase OPHC2 to organophosphorus insecticides

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