EVENT DETAILS
Title: Mathematics of Life Series: Thermodynamic Limits of Molecular Computation
Speaker: Milo Lin, Bioinformatics, The University of Texas Southwestern Medical Center
Abstract: Living systems update their status by altering the probability distribution of stochastically rearranging molecules in response to a change in the system parameters. These updates constitute molecular computational steps. Due to the presence of thermodynamic driving forces, typically in the form of chemical gradients, these computations convert a molecular system from one non-equilibrium steady state to another. Because such steady states are energetically costly to maintain, the question arises as to why nature has evolved this computational scheme. I will discuss a thermodynamic limit on computation. Namely, for any molecular system performing any computational step, the maximum information gained in the computation is shown to be a simple function of the thermodynamic force. Therefore, the presence of thermodynamic forces, and the expenditure of energy, allows biomolecular systems to convert modest changes in input into striking changes in output that would be surprising or impossible at equilibrium.
Special Note: This lecture is part of the Mathematics of Life Series
Zoom: This event will be held in person, and also online via Zoom at the following link: https://northwestern.zoom.us/j/97877158093
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TIME Tuesday November 28, 2023 at 11:15 AM - 12:30 PM
LOCATION M416, Technological Institute map it
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CONTACT Ted Shaeffer ted.shaeffer@northwestern.edu
CALENDAR McCormick-Engineering Sciences and Applied Mathematics (ESAM)