\u3cp\u3eThe ability to computationally predict the effects of toxic compounds on humans could help address the deficiencies of current chemical safety testing. Here, we report the results from a community-based DREAM challenge to predict toxicities of environmental compounds with potential adverse health effects for human populations. We measured the cytotoxicity of 156 compounds in 884 lymphoblastoid cell lines for which genotype and transcriptional data are available as part of the Tox21 1000 Genomes Project. The challenge participants developed algorithms to predict interindividual variability of toxic response from genomic profiles and population-level cytotoxicity data from structural attributes of the compounds. 179 submitted predict...
Chemical toxicity is conventionally evaluated in animal models. However, animal models are resource ...
The toxicological screening of the numerous chemicals that we are exposed to requires significant co...
Computational prediction of toxicity has reached new heights as a result of decades of growth in the...
International audienceThe ability to computationally predict the effects of toxic compounds on human...
The ability to computationally predict the effects of toxic compounds on humans could help address t...
The ability to computationally predict the effects of toxic compounds on humans could help address t...
A shift in toxicity testing from in vivo to in vitro may efficiently prioritize compounds, reveal ne...
Transcriptomics-based biomarkers are promising new approach methodologies (NAMs) to identify molecul...
International audiencePrediction of compound toxicity is essential because covering the vast chemica...
Chemical exposures from diverse sources merge on a limited number of molecular pathways described as...
Transcriptomics-based biomarkers are promising new approach methodologies (NAMs) to identify molecul...
Motivation: The development of in silico models to predict chemical carcinogenesis from molecular st...
Chemical toxicity is conventionally evaluated in animal models. However, animal models are resource ...
The toxicological screening of the numerous chemicals that we are exposed to requires significant co...
Computational prediction of toxicity has reached new heights as a result of decades of growth in the...
International audienceThe ability to computationally predict the effects of toxic compounds on human...
The ability to computationally predict the effects of toxic compounds on humans could help address t...
The ability to computationally predict the effects of toxic compounds on humans could help address t...
A shift in toxicity testing from in vivo to in vitro may efficiently prioritize compounds, reveal ne...
Transcriptomics-based biomarkers are promising new approach methodologies (NAMs) to identify molecul...
International audiencePrediction of compound toxicity is essential because covering the vast chemica...
Chemical exposures from diverse sources merge on a limited number of molecular pathways described as...
Transcriptomics-based biomarkers are promising new approach methodologies (NAMs) to identify molecul...
Motivation: The development of in silico models to predict chemical carcinogenesis from molecular st...
Chemical toxicity is conventionally evaluated in animal models. However, animal models are resource ...
The toxicological screening of the numerous chemicals that we are exposed to requires significant co...
Computational prediction of toxicity has reached new heights as a result of decades of growth in the...