Skip to main content
Structural and Functional Bioinformatics
SFB
Structural and Functional Bioinformatics
Main navigation
Home
People
Principal Investigators
Research Scientists
Postdoctoral Fellows
Students
All Profiles
Alumni
Former Members
Visiting Scholars
Research Staff
Events
All Events
Events Calendar
News
Pages
Collaborators
Current Research
Teaching
Publications
Research Grants
Join Us
Contact Us
graph mining
Drug Repositioning through the Development of Diverse Computational Methods using Machine Learning, Deep Learning, and Graph Mining
Maha Thafar, Ph.D. Student, Computer Science
Jun 30, 08:30
-
10:30
KAUST
Computational biology
machine learning
Deep learning
graph mining
In this dissertation, we combined artificial intelligence and machine/deep learning with chemical and biological properties to develop several computational methods to solve biomedical domain problems, specifically drug repositioning, and demonstrated their efficiencies and capabilities. We developed three network-based DTI prediction methods using machine learning, graph embedding, and graph mining. These methods significantly improved prediction performance, and the best-performing method even reduces the error rate by more than 33% across all datasets compared to the best state-of-the-art method. As it is more insightful to predict continuous values that indicate how tightly the drug binds to a specific target, we conducted a comparison study of current regression-based methods that predict drug-target binding affinities (DTBA). Our methods demonstrated their efficiency and capability by achieving high prediction performance and identifying therapeutic targets for several cancer types. We further conducted a lung cancer case study of findings that support the novel predicted targets.
