Computational Biology Thesis Defense

Open in new window

Speaker
MARIA KORSHUNOVA
Ph.D. Candidate
Joint CMU-Pitt Ph.D. Program in Computational Biology
Department of Computational Biology
Carnegie Mellon University

When
May 4, 2022 3:00pm - May 4, 2022 3:00pm

Where
Virtual Presentation - ET

Description
This thesis describes novel deep generative neural networks and their applications for the de-novo design of molecules with optimized properties. It discusses the background and motivation for using deep generative models for de-novo drug design, covering the advantages and limitations of existing techniques such as virtual screening of molecular libraries, genetic algorithms, and combinatorial enumeration of molecules from a set of building blocks. Next, it describes novel deep generative neural network architectures for producing molecules in three commonly used molecular representations – SMILES strings, 2D molecular graphs, and 3D molecular graphs, with details of the design, implementation, and computational experiments. It continues with a slight detour portraying how a generative model can provide an empirical estimate for the number of bioactive compounds in the chemical space and describes the experiment performed to obtain such an estimate. Next, it introduces Reinforcement Learning based strategy to optimize the values of a property of interest for generated molecules. It also proposes several heuristics for more efficient exploration of the chemical space. Finally, it describes how the proposed models and optimization algorithms were used to virtually design and then experimentally confirm novel hits for multiple kinase proteins.  Thesis Committee: Olexandr Isayev (Chair, Carnegie Mellon University) Christopher Langmead (Carnegie Mellon University) David Koes (University of Pittsburgh) Alexander Tropsha  (University of North Carolina - Chapel Hill) Zoom Participation. See announcement.