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Ebbrell DJ, Madden JC, Cronin MTD, Schultz TW, Enoch SJ. 2016. Development of a Fragment-Based in Silico Profiler for Michael Addition Thiol Reactivity CHEMICAL RESEARCH IN TOXICOLOGY, 29 :1073-1081 >DOI >Link Ellison CM, Piechota P, Madden JC, Enoch SJ, Cronin MTD. 2016. Adverse Outcome Pathway (AOP) Informed Modeling of Aquatic Toxicology: QSARs, Read-Across, and Interspecies Verification of Modes of Action ENVIRONMENTAL SCIENCE & TECHNOLOGY, 50 :3995-4007 >DOI >Link Dearden JC, Hewitt M, Roberts DW, Enoch SJ, Rowe PH, Przybylak KR, Vaughan-Williams GD, Smith ML, Pillai GG, Katritzky AR. 2015. Mechanism-Based QSAR Modeling of Skin Sensitization CHEMICAL RESEARCH IN TOXICOLOGY, 28 :1975-1986 >DOI >Link Nelms MD, Mellor CL, Cronin MTD, Madden JC, Enoch SJ. 2015. Development of an in Silico Profiler for Mitochondrial Toxicity CHEMICAL RESEARCH IN TOXICOLOGY, 28 :1891-1902 >DOI >Link Nelms MD, Ates G, Madden JC, Vinken M, Cronin MTD, Rogiers V, Enoch SJ. 2015. Proposal of an in silico profiler for categorisation of repeat dose toxicity data of hair dyes Archives of Toxicology, 89 :733-741 >DOI Seed MJ, Enoch SJ, Agius RM. 2015. Chemical determinants of occupational hypersensitivity pneumonitis OCCUPATIONAL MEDICINE-OXFORD, 65 :673-681 >DOI >Link Ellison CM, Madden JC, Cronin MTD, Enoch SJ. 2015. Investigation of the Verhaar scheme for predicting acute aquatic toxicity: Improving predictions obtained from Toxtree ver. 2.6 CHEMOSPHERE, 139 :146-154 >DOI >Link Nelms MD, Ates G, Madden JC, Vinken M, Cronin MTD, Rogiers V, Enoch SJ. 2015. Proposal of an in silico profiler for categorisation of repeat dose toxicity data of hair dyes ARCHIVES OF TOXICOLOGY, 89 :733-741 >DOI >Link Enoch SJ, Roberts DW, Madden JC, Cronin MTD. 2014. Development of an In Silico Profiler for Respiratory Sensitisation ATLA-ALTERNATIVES TO LABORATORY ANIMALS, 42 :367-375 >Link Richarz AN, Schultz TW, Cronin MTD, Enoch SJ. 2014. Experimental verification of structural alerts for the protein binding of sulfur-containing compounds SAR AND QSAR IN ENVIRONMENTAL RESEARCH, 25 :325-341 >DOI >Link Steinmetz FP, Enoch SJ, Madden JC, Nelms MD, Rodriguez-Sanchez N, Rowe PH, Wen Y, Cronin MTD. 2014. Methods for assigning confidence to toxicity data with multiple values Identifying experimental outliers SCIENCE OF THE TOTAL ENVIRONMENT, 482 :358-365 >DOI >Link Enoch SJ, Przybylak KR, Cronin MTD. 2013. Category formation case studies Issues in Toxicology, :127-154 Enoch SJ, Roberts DW. 2013. Approaches for grouping chemicals into categories Issues in Toxicology, :30-43 Lubinski L, Urbaszek P, Gajewicz A, Cronin MTD, Enoch SJ, Madden JC, Leszczynska D, Leszczynski J, Puzyn T. 2013. Evaluation criteria for the quality of published experimental data on nanomaterials and their usefulness for QSAR modelling SAR and QSAR in Environmental Research, 24 :995-1008 >DOI Rodriguez-Sanchez N, Schultz TW, Cronin MTD, Enoch SJ. 2013. Experimental verification of structural alerts for the protein binding of cyclic compounds acting as Michael acceptors SAR and QSAR in Environmental Research, 24 :963-977 >DOI Rodriguez-Sanchez N, Cronin MTD, Enoch SJ, Schultz TW. 2013. Experimental verification of structural alerts for the protein binding of cyclic compounds acting as Michael acceptors SAR and QSAR in Environmental Research, >DOI Nelms MD, Cronin MTD, Schultz TW, Enoch SJ. 2013. Experimental verification, and domain definition, of structural alerts for protein binding: epoxides, lactones, nitroso, nitros, aldehydes and ketones SAR and QSAR in Environmental Research, 24 :695-709 >DOI Enoch SJ, Cronin MTD, Schultz TW. 2013. The definition of the toxicologically relevant applicability domain for the SNAr reaction for substituted pyridines and pyrimidines SAR and QSAR in Environmental Research, 24 :651-658 >DOI Enoch SJ, Cronin MTD, Schultz TW. 2013. The definition of the toxicologically relevant applicability domain for the SAr reaction for substituted pyridines and pyrimidines{star, open} SAR and QSAR in Environmental Research, >DOI Nelms MD, Cronin MTD, Enoch SJ, Schultz TW. 2013. Experimental verification, and domain definition, of structural alerts for protein binding: epoxides, lactones, nitroso, nitros, aldehydes and ketones SAR and QSAR in Environmental Research, >DOI Enoch SJ, Roberts DW. 2013. Predicting skin sensitization potency for Michael acceptors in the LLNA using quantum mechanics calculations. Chem Res Toxicol, 26 :767-774 >DOI >Link Yang L, Neagu D, Cronin MTD, Hewitt M, Enoch SJ, Madden JC, Przybylak K. 2013. Towards a fuzzy expert system on toxicological data quality assessment Molecular Informatics, 32 :65-78 >DOI Enoch SJ, Seed MJ, Roberts DW, Cronin MTD, Stocks SJ, Agius RM. 2012. Development of mechanism-based structural alerts for respiratory sensitization hazard identification. Chem Res Toxicol, 25 :2490-2498 >DOI >Link Enoch SJ, Cronin MTD. 2012. Development of new structural alerts suitable for chemical category formation for assigning covalent and non-covalent mechanisms relevant to DNA binding. Mutat Res, 743 :10-19 >DOI >Link Enoch SJ, Schultz TW, Cronin MTD. 2012. The definition of the applicability domain relevant to skin sensitization for the aromatic nucleophilic substitution mechanism. SAR QSAR Environ Res, 23 :649-663 >DOI >Link

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