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Disease Pathway Cut for Multi-Target drugs

Authors
Bang, S | Son, S  | Kim, S | Shin, H
Citation
BMC bioinformatics, 20. : 74-74, 2019
Journal Title
BMC bioinformatics
ISSN
1471-2105
Abstract
BACKGROUND: Biomarker discovery studies have been moving the focus from a single target gene to a set of target genes. However, the number of target genes in a drug should be minimum to avoid drug side-effect or toxicity. But still, the set of target genes should effectively block all possible paths of disease progression.
METHODS: In this article, we propose a network based computational analysis for target gene identification for multi-target drugs. The min-cut algorithm is employed to cut all the paths from onset genes to apoptotic genes on a disease pathway. If the pathway network is completely disconnected, development of disease will not further go on. The genes corresponding to the end points of the cutting edges are identified as candidate target genes for a multi-target drug.
RESULTS AND CONCLUSIONS: The proposed method was applied to 10 disease pathways. In total, thirty candidate genes were suggested. The result was validated with gene set enrichment analysis software, PubMed literature review and de facto drug targets.
Keywords

MeSH

DOI
10.1186/s12859-019-2638-3
PMID
30760209
Appears in Collections:
Journal Papers > School of Medicine / Graduate School of Medicine > Psychiatry & Behavioural Sciences
Ajou Authors
손, 상준
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