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Literature DB >> 2653732

Toward a quantitative comparative toxicology of organic compounds.

C Hansch¹, D Kim, A J Leo, E Novellino, C Silipo, A Vittoria.

Abstract

Correlation equations between logP (P = octanol water partition coefficient) and the biological activity of alcohols has been derived for 101 examples on all sorts of systems, from simple proteins to whole animals. This provides an overview of the toxic nature of hydrophobic compounds which can be used as a basis for comparison of more complex chemicals. About 100 examples of the hydrophobic effects of chemicals, other than alcohols, to various living systems or their parts are presented for comparison. It is clear that hydrophobic xenobiotics are toxic to almost every form of life, including humans (or parts there of).

Entities: Chemical Species

Mesh：

Year: 1989 PMID： 2653732 DOI： 10.3109/10408448909037471

Source DB: PubMed Journal: Crit Rev Toxicol ISSN： 1040-8444 Impact factor: 5.635

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Cited

6 in total

1. Structure-toxicity relationships for nonpolar narcotics: a comparison of data from the tetrahymena, photobacterium and pimephales systems.

Authors: T W Schultz; N L Wyatt; D T Lin
Journal: Bull Environ Contam Toxicol Date: 1990-01 Impact factor: 2.151

Review 2. Modeling kinetics of subcellular disposition of chemicals.

Authors: Stefan Balaz
Journal: Chem Rev Date: 2009-05 Impact factor: 60.622

3. QSAR modeling: where have you been? Where are you going to?

Authors: Artem Cherkasov; Eugene N Muratov; Denis Fourches; Alexandre Varnek; Igor I Baskin; Mark Cronin; John Dearden; Paola Gramatica; Yvonne C Martin; Roberto Todeschini; Viviana Consonni; Victor E Kuz'min; Richard Cramer; Romualdo Benigni; Chihae Yang; James Rathman; Lothar Terfloth; Johann Gasteiger; Ann Richard; Alexander Tropsha
Journal: J Med Chem Date: 2014-01-06 Impact factor: 7.446

Toward a quantitative comparative toxicology of organic compounds.

1. Structure-toxicity relationships for nonpolar narcotics: a comparison of data from the tetrahymena, photobacterium and pimephales systems.

Review 2. Modeling kinetics of subcellular disposition of chemicals.

3. QSAR modeling: where have you been? Where are you going to?

4. Nonlinear dependence in comparative molecular field analysis.

5. Use of electron-electron repulsion energy as a molecular descriptor in QSAR and QSPR studies.

6. Prediction of rodent carcinogenicity of further 30 chemicals bioassayed by the U.S. National Toxicology Program.