CAM Colloquium, 2017-04-28, Jacob Scott: Understanding the evolution of resistance: a comprehensive and integrated mathematical and experimental research
From E. Cornelius
Abstract: The evolution of resistance remains an elusive problem in the treatment of both cancer and infectious disease, and represents one of the most important medical problems of our time. While the illnesses are different on several non-trivial levels including timescale and complexity, the underlying biological phenomenon is the same: Darwinian evolution. To comprehensively approach these problems, I have focused my attention on building a broad suite of investigations centered around the causes and consequences of the evolutionary process in these contexts. I will discuss my and my collaborator's efforts to; model the evolutionary process on the genomic scale in both an analytic (Markov process) and stochastic (individual based model and inference) format; to quantify in vitro competition and interaction between cancer cell lines through an evolutionary game theoretic lens using time-lapse microscopy and computer vision; and to understand the evolutionary contingencies inherent in collateral sensitivity in E. coli and ALK mutated non-small cell lung cancer.
Biography: Jacob Scott is a physician-scientist studying the evolution of cancer and bacteria using primarily mathematical and computational methods. He enjoys playing with his kids, doing crossword puzzles with his wife, being outdoors and thinking about stochastic processes.