References
Altenburger R, Backhaus T, Boedeker W (2000) Predictability of the toxicity of multiple chemical mixtures to Vibrio fischeri: mixtures composed of similarly acting chemicals. Environ Toxicol Chem 19:2341–2347
Backhaus T, Altenburger R, Boedeker W (2000a) Predictability of the toxicity of a multiple mixture of dissimilarly acting chemicals to Vibrio fischeri. Environ Toxicol Chem 19:2348–2356
Backhaus T, Scholze M, Grimme LH (2000b) The single substance and mixture toxicity of quinolones to the bioluminescent bacterium Vibrio fischeri. Aquat Toxicol 49:49–61
Bello-Ramírez AM, Carreón-Garabito BY, Nava-Ocampo AA (2002) Do structural properties explain the anticonvulsant activity of valproate metabolites? a QSAR analysis. Epilepsia 43:475–481
Chen JW, Liao YY, Zhao YH (1996) Quantitative structure-activity relationship and mixture toxicity studies of heterocyclic nitrogen compounds. Bull Environ Contam Toxicol 57:77–83
Dai JY, Jin LJ, Yao SC, Wang LS (2001) Prediction of partition coefficient and toxicity for benzaldehyde compounds by their capacity factors and various molecular descriptors. Chemosphere 42:899–907
Dewar MJS, Zoebisch EG, Healy EF, Stewart JJP (1985) AM1: a new general purpose quantum mechanical molecular model. J Am Chem Soc 107:3902–3909
Dimitrov S, Koleva Y, Schultz TW, Walker JD, Mekenyan O (2004) Interspecies quantitive structure-activity relationship model for aldehydes: aquatic toxicity. Environ Toxicol Chem 23:463–470
Faust M, Altenburger R, Backhaus T (2001) Predicting the joint algal toxicity of multi-component s-triazine mixtures at low-effect concentrations of individual toxicants. Aquat Toxicol 21:13–32
Huang H, Wang XD, Shao Y, Chen D, Dai XL, Wang LS (2003) QSAR for prediction of joint toxicity of substituted phenols to tadpoles (Rana japonica), Bull Environ Contam Toxicol 71:1124–1130
Lin ZF, Yu HX, Wei DB, Wang GH, Feng JF, Wang LS (2002) Prediction of mixture toxicity with its total hydrophobicity. Chemosphere 46:305–310
Lin ZF, Shi P, Gao SX, Wang LS, Yu HX (2003a) Use of partition coefficients to predict mixture toxicity. Water Res 37:2223–2227
Lin ZF, Zhong P, Yin KD, Wang LS, Yu HX (2003b) Quantification of joint effect for hydrogen bond and development of QSARs for predicting mixture toxicity. Chemosphere 52:1199–1208
Lin ZF, Zhong P, Niu XJ, Yin KD, Yu HX, Du JW (2005) A simple hydrophobicity-based approach to predict the toxicity of unknown organic micropollutant mixtures in marine water. Mar Poll Bull 50:617–623
Nirmalakhandan N, Arulgendran V, Mohsin M, Sun B, Cadena F (1994) Toxicity of mixture of organic chemicals to microorganisms. Water Res 28:543–551
Nirmalakhandan N, Xu S, Trevizo C, Brennan R, Peace J (1997) Additivity in microbial toxicity of nonuniform mixtures of organic chemicals. Ecotoxicol Environ Saf 37:97–102
Wang B, Zhao JS, Yu YJ, Wang XD, Wang LS (2004) Quantitative strucure-activity relationships and joint toxicity of substituted biphenyls. Environ Sci (in Chinese) 25:89–93
Xu S, Nirmalakhandan N (1998) Use0 of QSAR models in predicting joint effects in multi-component mixtures of organic chemicals. Water Res 32:2391–2399
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The research was financially supported by the National Basic Research Program of China (no. 2003CB415007).
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Wang, B., Yu, G., Hu, H. et al. Quantitative Structure–Activity Relationships and Mixture Toxicity of Substituted Benzaldehydes to Photobacterium phosphoreum . Bull Environ Contam Toxicol 78, 503–509 (2007). https://doi.org/10.1007/s00128-007-9144-4
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DOI: https://doi.org/10.1007/s00128-007-9144-4