Abduction and induction for learning models of inhibition in metabolic networks

This paper describes the use of a mixture of abduction and induction for the temporal modeling of the effects of toxins in metabolic networks. Background knowledge is used which describes network topology and functional classes of enzymes. This background knowledge, which represents the present stat...

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Bibliographic Details
Main Authors: Tamaddoni-Nezhad, A., Chaleil, R., Kakas, A., Muggleton, S.
Format: Conference Proceeding
Language:English
Subjects:
Accuracy
Amino acids
Biochemistry
Biological system modeling
Data mining
Educational institutions
Intelligent networks
Machine learning
Nuclear magnetic resonance
Propellants
Online Access:Request full text
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Summary:This paper describes the use of a mixture of abduction and induction for the temporal modeling of the effects of toxins in metabolic networks. Background knowledge is used which describes network topology and functional classes of enzymes. This background knowledge, which represents the present state of understanding, is incomplete. In order to overcome this incompleteness hypotheses are considered which consist of a mixture of specific inhibitions of enzymes (ground facts) together with general (non-ground) rules which predict classes of enzymes likely to be inhibited by the toxin. The foreground examples were derived from in vivo experiments involving NMR analysis of time-varying metabolite concentrations in rat urine following injections of toxin. Hypotheses about inhibition are built using the inductive logic programming system Progol5.0 and predictive accuracy is assessed for both the ground and the non-ground cases.
DOI:10.1109/ICMLA.2005.6