Office
(631) 632-5400
Email
Ken.Dill@stonybrook.edu
dill@laufercenter.org
Stony Brook University
Laufer Center for Physical and Quantitative Biology
100 Nicolls Road
Stony Brook, NY 11794-5252
Ken A. Dill, PhD
Director, Laufer Center for Physical and Quantitative Biology
Distinguished Professor, Department of Physics and Chemistry,
Stony Brook University
Research Program
Imaging, Biomarker Discovery and Engineering SciencesDepartment
Laufer Center for Physical and Quantitative BiologyResearch Interest
Computational modeling of proteins. We develop theory and computer simulations to understand how proteins fold and aggregate, their binding affinities for drugs and other proteins, and the processes by which they form amyloid assemblies in disease. Our simulation methods under development include the SEA model of water and the MELD method for fast guided searching of protein conformational spaces.
Understanding cell behaviors in terms of the physical chemistry of the proteome.
An important property of cells is their growth laws: how a cell's growth rate depends on how much food it is given, temperature, salt, proteome oxidation or other factors. We develop statistical physics models to explain cell behaviors and growth laws in terms of the physical properties of the cell’s proteins.
Maximum Caliber: a principle of nonequilibrium statistical physics. Much of today’s modeling of kinetics in chemistry and biology is about kinetic averages — of rates, velocities or fluxes. But because of important advances in single-molecule, single-cell, and few-particle experimental technologies, there is now also much interest in understanding whole kinetic rate distributions . We are exploring Maximum Caliber, a principled approach to theory and modeling of rate distributions.
Education
Ph.D. Biology Department, UCSD, La Jolla (1978)Postdoctoral Fellow, Chemistry, Stanford University (1981)