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Xenobiotica
the fate of foreign compounds in biological systems
Volume 17, 1987 - Issue 8
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Original Article

A QSAR study of the acute toxicity of some industrial organic chemicals to goldfish. Narcosis, electrophile and proelectrophile mechanisms

R. L. Lipnick US Environmental Protection Agency, Office of Toxic Substances, (TS-796), Washington, DC 20460, USA
,
K. R. Watson US Environmental Protection Agency, Office of Toxic Substances, (TS-796), Washington, DC 20460, USA
&
A. K. Strausz US Environmental Protection Agency, Office of Toxic Substances, (TS-796), Washington, DC 20460, USA
Pages 1011-1025 | Received 23 Jul 1986, Published online: 30 Sep 2009

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A. Furuhama, K. Hasunuma, T. I. Hayashi & N. Tatarazako. (2016) Predicting algal growth inhibition toxicity: three-step strategy using structural and physicochemical properties. SAR and QSAR in Environmental Research 27:5, pages 343-362.
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M. Nendza, M. Müller & A. Wenzel. (2014) Discriminating toxicant classes by mode of action: 4. Baseline and excess toxicity. SAR and QSAR in Environmental Research 25:5, pages 393-405.
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D. Mackay, J.A. Arnot, A. Celsie, A. Orazietti & J.M. Parnis. (2014) QSARs for aquatic toxicity: celebrating, extending and displaying the pioneering contributions of Ferguson, Konemann and Veith. SAR and QSAR in Environmental Research 25:5, pages 343-355.
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F. Bajot, M.T.D. Cronin, D.W. Roberts & T.W. Schultz. (2011) Reactivity and aquatic toxicity of aromatic compounds transformable to quinone-type Michael acceptors. SAR and QSAR in Environmental Research 22:1-2, pages 51-65.
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D. Mackay, J.A. Arnot, E.P. Petkova, K.B. Wallace, D.J. Call, L.T. Brooke & G.D. Veith. (2009) The physicochemical basis of QSARs for baseline toxicity. SAR and QSAR in Environmental Research 20:3-4, pages 393-414.
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J.R. Seward, M.T.D. Cronin & T.W. Schultz. (2002) The effect of precision of molecular orbital descriptors on toxicity modeling of selected pyridines. SAR and QSAR in Environmental Research 13:2, pages 325-340.
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J.R. Seward, M.T. D. Cronin & T.W. Schultz. (2001) Structure-Toxicity Analyses of Tetrahymena Pyriformis Exposed to Pyridines - An Examination Into Extension of Surface-Response Domains. SAR and QSAR in Environmental Research 11:5-6, pages 489-512.
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M.G. Barron, M.J. Anderson, J. Lipton & D.G. Dixon. (1997) Evaluation of Critical Body Residue QSARS for Predicting Organic Chemical Toxicity to Aquatic Organisms. SAR and QSAR in Environmental Research 6:1-2, pages 47-62.
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T. W. Schultz. (1997) TETRATOX: TETRAHYMENA PYRIFORMIS POPULATION GROWTH IMPAIRMENT ENDPOINTA SURROGATE FOR FISH LETHALITY. Toxicology Methods 7:4, pages 289-309.
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T.W. Schultz, G.D. Sinks & R.S. Hunter. (1995) Structure-Toxicity Relationships For Alkanones and Alkenones. SAR and QSAR in Environmental Research 3:1, pages 27-36.
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S. Bintein, J. Devillers & W. Karcher. (1993) Nonlinear Dependence of Fish Bioconcentration on n-Octanol/Water Partition Coefficient. SAR and QSAR in Environmental Research 1:1, pages 29-39.
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Gilman D. Veith, Robert L. Lipnick & Christine L. Russom. (1989) The Toxicity of Acetylenic Alcohols to the Fathead Minnow, Pimephales Promelas: Narcosis and Proelectrophile Activation. Xenobiotica 19:5, pages 555-565.
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