QSPR/QSAR models for prediction of the physico-chemical properties and biological activity of polychlorinated diphenyl ethers (PCDEs)

Polychlorinated diphenyl ethers (PCDEs) are a group of important persistent organic pollutants. In the present study, geometrical optimization and electrostatic potential calculations have been performed for all 209 PCDE congeners at the HF/6-31G * level of theory. A number of statistically-based pa...

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Veröffentlicht in:	Chemosphere (Oxford) 2010-07, Vol.80 (6), p.665-670
Hauptverfasser:	Hui-Ying, Xu, Jian-Wei, Zou, Gui-Xiang, Hu, Wei, Wang
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Atomic properties Chromatography, Gas Congeners Electrostatics Environmental Pollutants - chemistry Environmental Pollutants - toxicity Ethers Exact sciences and technology Halogenated Diphenyl Ethers - chemistry Halogenated Diphenyl Ethers - toxicity Mathematical models Molecular electrostatic potential PCD Phenyls Pollution Polychlorinated diphenyl ethers Pressure QSAR QSPR QSRR Quantitative Structure-Activity Relationship Regression Solubility Temperature Vapor pressure
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creator	Hui-Ying, Xu Jian-Wei, Zou Gui-Xiang, Hu Wei, Wang
description	Polychlorinated diphenyl ethers (PCDEs) are a group of important persistent organic pollutants. In the present study, geometrical optimization and electrostatic potential calculations have been performed for all 209 PCDE congeners at the HF/6-31G * level of theory. A number of statistically-based parameters have been obtained. Linear relationships between gas-chromatographic relative retention time ( RRT), n-octanol/water partition coefficient (log K OW), 298 K supercooled liquid vapour pressures (log p L), aqueous solubilities (log S w,L) and the immunotoxicity values (log ED 50) of PCDEs and the structural descriptors have been established by multiple linear regression method. The result shows that the quantities derived from electrostatic potential V s,min , ∑ V s + , V s,av - , Π , σ tot 2 , σ + 2 , ν , and N v + , together with the number of the chlorine atoms on the two phenyl rings ( N Cl ) can be well used to express the quantitative structure–property (activity) relationships of PCDEs. Good predictive capabilities have also been demonstrated by leave-group(1/5)-out cross-validation and external test set. Based on these equations, the predicted values have been presented for those PCDE congeners whose experimentally determined physico-chemical properties are unavailable.
doi_str_mv	10.1016/j.chemosphere.2010.04.050
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In the present study, geometrical optimization and electrostatic potential calculations have been performed for all 209 PCDE congeners at the HF/6-31G * level of theory. A number of statistically-based parameters have been obtained. Linear relationships between gas-chromatographic relative retention time ( RRT), n-octanol/water partition coefficient (log K OW), 298 K supercooled liquid vapour pressures (log p L), aqueous solubilities (log S w,L) and the immunotoxicity values (log ED 50) of PCDEs and the structural descriptors have been established by multiple linear regression method. The result shows that the quantities derived from electrostatic potential V s,min , ∑ V s + , V s,av - , Π , σ tot 2 , σ + 2 , ν , and N v + , together with the number of the chlorine atoms on the two phenyl rings ( N Cl ) can be well used to express the quantitative structure–property (activity) relationships of PCDEs. 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In the present study, geometrical optimization and electrostatic potential calculations have been performed for all 209 PCDE congeners at the HF/6-31G * level of theory. A number of statistically-based parameters have been obtained. Linear relationships between gas-chromatographic relative retention time ( RRT), n-octanol/water partition coefficient (log K OW), 298 K supercooled liquid vapour pressures (log p L), aqueous solubilities (log S w,L) and the immunotoxicity values (log ED 50) of PCDEs and the structural descriptors have been established by multiple linear regression method. The result shows that the quantities derived from electrostatic potential V s,min , ∑ V s + , V s,av - , Π , σ tot 2 , σ + 2 , ν , and N v + , together with the number of the chlorine atoms on the two phenyl rings ( N Cl ) can be well used to express the quantitative structure–property (activity) relationships of PCDEs. 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subjects	Applied sciences Atomic properties Chromatography, Gas Congeners Electrostatics Environmental Pollutants - chemistry Environmental Pollutants - toxicity Ethers Exact sciences and technology Halogenated Diphenyl Ethers - chemistry Halogenated Diphenyl Ethers - toxicity Mathematical models Molecular electrostatic potential PCD Phenyls Pollution Polychlorinated diphenyl ethers Pressure QSAR QSPR QSRR Quantitative Structure-Activity Relationship Regression Solubility Temperature Vapor pressure
title	QSPR/QSAR models for prediction of the physico-chemical properties and biological activity of polychlorinated diphenyl ethers (PCDEs)
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