Add to ORKGThe University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-BBD/PPS) has been a unique resource covering microbial biotransformation pathways of primarily xenobiotic chemicals for over 15 years. This paper introduces the successor system, enviPath (The Environmental Contaminant Biotransformation Pathway Resource), which is a complete redesign and reimplementation of UM-BBD/PPS. enviPath uses the database from the UM-BBD/PPS as a basis, extends the use of this database, and allows users to include their own data to support multiple use cases. Relative reasoning is supported for the refinement of predictions and to allow its extensions in terms of previously published, but not implemented machine learnin...
Developing models for the prediction of microbial biotransformation pathways and half-lives of trace...
Current methods for the prediction of biodegradation products and pathways of organic environmental ...
predict/) is a rule-based system that predicts micro-bial catabolism of organic compounds. Currently...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...
Biodegradation Database for study of microbial degradation Lynda BM Ellis1 * and Lawrence P Wackett2...
Abstract The prediction of metabolism and biotransformation pathways of xenobiotics is a highly desi...
The University of Minnesota pathway prediction system (UM-PPS, http://umbbd.msi.umn.edu/predict/) re...
Contamination of ecosystems by xenobiotic substances has led to significant negative impacts on the ...
Motivation: The University of Minnesota Pathway Prediction System (UM-PPS) is a rule-based expert sy...
Motivation: The University of Minnesota Pathway Prediction System (UM-PPS) is a rule-based expert sy...
Motivation Current methods for the prediction of biodegradation products and pathways of organic env...
Human and biota are chronically exposed to thousands of chemicals from numerous environmental source...
One of the main tasks in chemical industry regarding the sustainability of a product is the predicti...
The environmental fate of many functional molecules that are produced on a large scale as precursors...
Current high-throughput technology in genomics creates a large amount of biological data. Bioinforma...
Developing models for the prediction of microbial biotransformation pathways and half-lives of trace...
Current methods for the prediction of biodegradation products and pathways of organic environmental ...
predict/) is a rule-based system that predicts micro-bial catabolism of organic compounds. Currently...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...
Biodegradation Database for study of microbial degradation Lynda BM Ellis1 * and Lawrence P Wackett2...
Abstract The prediction of metabolism and biotransformation pathways of xenobiotics is a highly desi...
The University of Minnesota pathway prediction system (UM-PPS, http://umbbd.msi.umn.edu/predict/) re...
Contamination of ecosystems by xenobiotic substances has led to significant negative impacts on the ...
Motivation: The University of Minnesota Pathway Prediction System (UM-PPS) is a rule-based expert sy...
Motivation: The University of Minnesota Pathway Prediction System (UM-PPS) is a rule-based expert sy...
Motivation Current methods for the prediction of biodegradation products and pathways of organic env...
Human and biota are chronically exposed to thousands of chemicals from numerous environmental source...
One of the main tasks in chemical industry regarding the sustainability of a product is the predicti...
The environmental fate of many functional molecules that are produced on a large scale as precursors...
Current high-throughput technology in genomics creates a large amount of biological data. Bioinforma...
Developing models for the prediction of microbial biotransformation pathways and half-lives of trace...
Current methods for the prediction of biodegradation products and pathways of organic environmental ...
predict/) is a rule-based system that predicts micro-bial catabolism of organic compounds. Currently...