Statistically Validated QSARs, Based on Theoretical Descriptors, for Modeling Aquatic Toxicity of Organic Chemicals in Pimephales Promelas (fathead Minnow)

Overview

Journal J Chem Inf Model

Publisher American Chemical Society

Specialties Chemistry
Medical Informatics

Date 2005 Sep 27

PMID 16180902

Citations 13

Authors

Ester Papa

Fulvio Villa

Paola Gramatica

Affiliations

Soon will be listed here.

Abstract

The use of Quantitative Structure-Activity Relationships in assessing the potential negative effects of chemicals plays an important role in ecotoxicology. (LC50)(96h) in Pimephales promelas (Duluth database) is widely modeled as an aquatic toxicity end-point. The object of this study was to compare different molecular descriptors in the development of new statistically validated QSAR models to predict the aquatic toxicity of chemicals classified according to their MOA and in a unique general model. The applied multiple linear regression approach (ordinary least squares) is based on theoretical molecular descriptor variety (1D, 2D, and 3D, from DRAGON package, and some calculated logP). The best combination of modeling descriptors was selected by the Genetic Algorithm-Variable Subset Selection procedure. The robustness and the predictive performance of the proposed models was verified using both internal (cross-validation by LOO, bootstrap, Y-scrambling) and external statistical validations (by splitting the original data set into training and validation sets by Kohonen-artificial neural networks (K-ANN)). The model applicability domain (AD) was checked by the leverage approach to verify prediction reliability.

Citing Articles

Application of artificial intelligence to quantitative structure-retention relationship calculations in chromatography.

Xie J, Chen S, Zhao L, Dong X J Pharm Anal. 2025; 15(1):101155.

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QSAR Models for the Prediction of Dietary Biomagnification Factor in Fish.

Bertato L, Chirico N, Papa E Toxics. 2023; 11(3).

PMID: 36976974 PMC: 10054725. DOI: 10.3390/toxics11030209.

Predicting the Bioconcentration Factor in Fish from Molecular Structures.

Bertato L, Chirico N, Papa E Toxics. 2022; 10(10).

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Prior Knowledge for Predictive Modeling: The Case of Acute Aquatic Toxicity.

Shavalieva G, Papadokonstantakis S, Peters G J Chem Inf Model. 2022; 62(17):4018-4031.

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The Relevance of Goodness-of-fit, Robustness and Prediction Validation Categories of OECD-QSAR Principles with Respect to Sample Size and Model Type.

Kiraly P, Kiss R, Kovacs D, Ballaj A, Toth G Mol Inform. 2022; 41(11):e2200072.

PMID: 35773201 PMC: 9787734. DOI: 10.1002/minf.202200072.