Add to ORKGpredict/) is a rule-based system that predicts micro-bial catabolism of organic compounds. Currently, its knowledge base contains 250 biotransformation rules and five types of metabolic logic entities. The original UM-PPS predicted up to two prediction levels at a time. Users had to choose a predicted product to continue the prediction. This approach provided a limited view of prediction results and heavily relied on manual intervention. The new UM-PPS produces a multi-level prediction within an acceptable time frame, and allows users to view prediction alternatives much more easily as a directed acyclic graph
Information about interactions between enzymes and small molecules is important for understanding va...
Abstract The prediction of metabolism and biotransformation pathways of xenobiotics is a highly desi...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...
predict/) is a rule-based system that predicts micro-bial catabolism of organic compounds. Currently...
The University of Minnesota pathway prediction system (UM-PPS, http://umbbd.msi.umn.edu/predict/) re...
Motivation Current methods for the prediction of biodegradation products and pathways of organic env...
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...
One of the main tasks in chemical industry regarding the sustainability of a product is the predicti...
Current methods for the prediction of biodegradation products and pathways of organic environmental ...
Biodegradation Database for study of microbial degradation Lynda BM Ellis1 * and Lawrence P Wackett2...
Motivation: Current methods for the prediction of biodegradation products and pathways of organic en...
Pathway Prediction tool for UniProtKB data along with comparison results to Rule_Base, HAMAP_Rule an...
Metabolic inference from genomic sequence information is a necessary step in determining the capacit...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...
Information about interactions between enzymes and small molecules is important for understanding va...
Abstract The prediction of metabolism and biotransformation pathways of xenobiotics is a highly desi...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...
predict/) is a rule-based system that predicts micro-bial catabolism of organic compounds. Currently...
The University of Minnesota pathway prediction system (UM-PPS, http://umbbd.msi.umn.edu/predict/) re...
Motivation Current methods for the prediction of biodegradation products and pathways of organic env...
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...
One of the main tasks in chemical industry regarding the sustainability of a product is the predicti...
Current methods for the prediction of biodegradation products and pathways of organic environmental ...
Biodegradation Database for study of microbial degradation Lynda BM Ellis1 * and Lawrence P Wackett2...
Motivation: Current methods for the prediction of biodegradation products and pathways of organic en...
Pathway Prediction tool for UniProtKB data along with comparison results to Rule_Base, HAMAP_Rule an...
Metabolic inference from genomic sequence information is a necessary step in determining the capacit...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...
Information about interactions between enzymes and small molecules is important for understanding va...
Abstract The prediction of metabolism and biotransformation pathways of xenobiotics is a highly desi...
The University of Minnesota Biocatalysis/Biodegradation Database and Pathway Prediction System (UM-B...