BeeToxAI: An artificial intelligence-based web app to assess acute toxicity of chemicals to honey bees

BeeToxAI: An artificial intelligence-based web app to assess acute toxicity of chemicals to honey bees

Chemically induced toxicity is the leading cause of recent extinction of honey bees. In this regard, we developed an innovative artificial intelligence-based web app (BeeToxAI) for assessing the acute toxicity of chemicals to Apis mellifera. Initially, we developed and externally validated QSAR mode...

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Bibliographic Details
Published in:Artificial intelligence in the life sciences Vol. 1; p. 100013
Main Authors: Moreira-Filho, José T., Braga, Rodolpho C., Lemos, Jade Milhomem, Alves, Vinicius M., Borba, Joyce V.V.B., Costa, Wesley S., Kleinstreuer, Nicole, Muratov, Eugene N., Andrade, Carolina Horta, Neves, Bruno J.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2021
Elsevier
Subjects:
Apis mellifera
Artificial intelligence
Ecotoxicology
Machine learning
Pollinators
Predictive modeling
MACCS
Pollinators
SVM
AUC
Tc
Apis mellifera
DT
SE
OECD
NPV
US EPA
Predictive modeling
ML
ACC
AD
Ecotoxicology
OCHEM
SMILES
MCC
LD50
RF
QSAR
Machine learning
κ
Artificial intelligence
5FCV
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Summary:Chemically induced toxicity is the leading cause of recent extinction of honey bees. In this regard, we developed an innovative artificial intelligence-based web app (BeeToxAI) for assessing the acute toxicity of chemicals to Apis mellifera. Initially, we developed and externally validated QSAR models for classification (external set accuracy ∼91%) through the combination of Random Forest and molecular fingerprints to predict the potential for chemicals to cause acute contact toxicity and acute oral toxicity to honey bees. Then, we developed and externally validated regression QSAR models (R2 = 0.75) using Feedforward Neural Networks (FNNs). Afterward, the best models were implemented in the publicly available BeeToxAI web app (http://beetoxai.labmol.com.br/). The outputs of BeeToxAI are: toxicity predictions with estimated confidence, applicability domain estimation, and color-coded maps of relative structure fragment contributions to toxicity. As an additional assessment of BeeToxAI performance, we collected an external set of pesticides with known bee toxicity that were not included in our modeling dataset. BeeToxAI classification models were able to predict four out of five pesticides correctly. The acute contact toxicity model correctly predicted all of the eight pesticides. Here we demonstrate that BeeToxAI can be used as a rapid new approach methodology for predicting acute toxicity of chemicals in honey bees. [Display omitted] .
ISSN:2667-3185
2667-3185
DOI:10.1016/j.ailsci.2021.100013