When:
Thursday, January 31, 2019
2:00 PM - 3:30 PM CT
Where: Technological Institute, F160, 2145 Sheridan Road, Evanston, IL 60208 map it
Audience: Faculty/Staff - Student - Public - Post Docs/Docs - Graduate Students
Contact:
Cristian Pennington
(847) 491-3645
Group: Physics and Astronomy Complex Systems Seminars
Category: Academic
Recent single-cell measurements show that cell volume and mass increase exponentially in time during the cell cycle for organisms across the tree of life. Experiments have also shown that mRNA and protein copy numbers are on average proportional to the cell volume in growing cells. Current models of stochastic gene expression are often incompatible with these observations. I will present a minimal gene expression model to fill this gap, as well as predict a transition from exponential to linear growth of cell volume as the protein-to-DNA ratio increases.
I will further discuss the effects of cell-to-cell variability on the population growth. Intriguingly, we find that the population growth rate is only affected by variability of the single-cell growth rate. In contrast to the dogma, we find that variability is typically detrimental to the population growth, suggesting that evolution would tend to suppress it.
Dr. Jie Lin, Harvard University
Keywords: Physics, Astronomy, Complex Systems