Biodegradation relationships

Cartwright, H.M., Investigation of structure-biodegradability relationships in polychlorinated biphenyls using self-organising maps, Neural Comput. Apps., 11, 30, 2002. 

Bossert, I.D. and Bartha, R. Structure-biodegradability relationships of polycyclic aromatic-hydrocarbon systems in soil. Bull... 

Vaishnav, D.D., Boethling, R.S., and Babeu, L. Quantitative structure-biodegradability relationships for alcohols, ketones, and alicyclic compounds, Chemosphere, 16(4) 695-703, 1987. 

Cuissart, B., Touffet, F., Cremilleux, B., Bureau, R., and Rault, S. (2002) The maximum common substructure as a molecular depiction in a supervised classification context experiments in quantitative structure/biodegradability relationships. J. Chem. Inf. Comput. Sci. 42, 1043-1052. 

Jaworska, J.S., Boethling, R.S. and Howard, P.H. (2003) Recent developments in broadly applicable structure-biodegradability relationships. Environ. Toxicol. Chem., 22 (8), 1710-1723. 

Damborsky, J., K. Manova, and M. Kuty, A mechanistic approach to deriving quantitative structure biodegradability relationships. A case study Dehalogenation of haloaliphatic compounds . In Biodegradability Prediction, W. J. G. M. Peijnenburg and J. Damborsky, Eds., Kluwer Academic, Dordrecht, 1996. 

Mudder, T.I., Development of empirical structure-biodegradability relationships and testing protocol for slightly soluble and volatile priority pollutants, Ph.D. dissertation, University of Iowa, Iowa City, 1981. 

Previous Structure — Biodegradability Relationships of Structurally Related Chemicals... 

Over the years, structure/biodegradability "rules of thumb" (Alexander, 1973 Howard et al., 1975 Scow, 1982) have been developed. Table 12.2 summarizes these. Most of the information is from Alexander (1994), Howard et al. (1975), and Scow (1982). Some of these structure/biodegradability relationships have some biochemical mechanistic underpinnings. For example, highly branched compounds frequently are resistant to biodegra dation because increased substitution hinders (i-oxidation (see Table 12.1), the process by which alkyl chains and fatty acids usually are biodegraded. This structural relationship... 

In a recent review of structure-biodegradability relationships, Mani et al. (1991) discussed the chemical properties and descriptors that may be useful in modeling different stages of... 

Previous Structure-Biodegradability Relationships for Structurally Diverse Chemicals... 

Gombar, V.K. and K. Enslein. 1991. A structure-biodegradability relationship model by discriminant analysis. In J. Devillers and W. Karcher, Eds., Applied Multivariate Analysis in SAR and Environmental Studies, pp. 377-414. Kluwer Academic Publ., Dordrecht, Holland. 

Klopman, G., D.M. Balthasar, and H.S. Rosenkranz. 1993. Application of the computer automated structure evaluation (CASE) program to the study of structure biodegradation relationships of miscellaneous chemicals. Environ. Toxicol. Chem. 12 231-240. 

BOSSERT I D and bartha r Structure biodegradability relationships of polycyclic aromatic hydrocarbons in soil , Bulletin of Environmental Contamination and Toxicology, 1986 37 490-495. 

Ouantitative Structure-Activity Relationship Ouantitative Structure-Biodegradability Relationship Ouantitative Structure-Pharmacokinetic Relationship Ouantitative Structure-Property Relationship Multiple correlation coefficient and its square Relative Binding Affinity... 

Damborsky, J., Lynam, M.M., and Kuty, M., Structure-biodegradability relationships for chlorinated dibenzo-p-dioxins and dibenzofurans, in Biodegradation of Dioxins and Furans, Wittich, R.M., Ed., R.G. Landes, Austin, TX, 1998, pp. 163-226. 

Lindner A. S., Whitfield C., Chen N., Semrau J. D., and Adriaens P. (2(X)3) C iantitative stmcture-biodegradation relationships for orr/io-substituted biphenyl compounds with whole-cell methanotroph, Methylosinus trichosporium OB3b. Environ. Toxicol. Chem. (in press). 

Cambon, B. and Devillers, J. (1993). New Tlrends in Structure-Biodegradability Relationships. Quant.Struct.-ActRelat., 12,49-56. 

Gombar VK, Enslein K. Structure-biodegradability relationship model by discriminant analysis. In Devillers J, Karcher W, editors, Applied multivariate analysis in SAR and environmental studies. Dordrecht Kluwer Academic, 1991. 

Damborsky J, Berglund A, Kuty M, Ansorgova A, Nagata Y, et al. Mechanism-based quantitative structure-biodegradability relationships for hydrolytic deha-logenation of chloro- and bromo- alkenes. Quant Struct-Act Rel 1998 17 450-8. 

Lindner AS, Whitfield C, Chen N, Semrau JD, Adriaens P. Quantitative structure-biodegradation relationships for ortho-substituted biphenyl compounds oxidized by Methylosinus trichosporium OB3b. Environ Toxicol Chem 2003 22 2251-7. 

Yang H, Jiang Z, Shi S. Anaerobic biodegradability of aliphatic compounds and their quantitative structure biodegradability relationships. Sci Total Environ 2004 322 209-19. 

Yu Y, Lu X, Zhou Q et al (2008) Biodegradable naphthenic acid ionic liquids synthesis, characterization, and quantitative structure-biodegradation relationship. Chem Eur J 14 11174-11182... 

Zakarya, D., Belkhadir, M. and Fkih-Tetouani, S. (1993) Quantitative structure-biodegradability relationships (QSBRs) using modified autocorrelation method (MAM). SAR QSAR Environ. Res., 1, 21-27. 

Understanding Thermoplastic Starch Structure-Property-Processing-Performance-Biodegradation Relationships... 

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