![]() Eric is an Assistant Professor of Biomedical Engineering.Įvangelos Coutsias' research has focused on the modeling of nonlinear systems and continua, using techniques of applied mathematics on problems motivated from applied physics, engineering and biology. Those platforms rely both on droplet and single-phase microfluidic technologies to enable the manipulation and processing of single-cells at low and high-throughput. To achieve this goal, his lab focuses on developing novel microfluidic approaches to perform quantitative, functional and genomic measurements at single-cell resolution. Troy is Research Associate Professor of Laufer Center.Įric Brouzes is interested in understanding cellular heterogeneity and its role in healthy and diseased tissues, such as cancer. Troy Wymore investigates the functional plasticity of enzymes using both molecular phylogenetics/ancestral sequence reconstruction and atomistic simulations with a focus on Quantum Mechanical/Molecular Mechanical (QM/MM) methods in order to understand enzymatic mechanisms at the electronic structure level. Gábor is Henry Laufer Endowed Professor of Physical and Quantitative Biology, and Professor of Biomedical Engineering at Stony Brook. We develop mathematical models to identify key mechanisms that connect gene networks to their population-level effects, hoping to understand control across scales in biology. Gábor Balázsi designs synthetic gene circuits to precisely control gene expression in microbes and mammalian cells, and to study emergent cell population-level behaviors such as diversification, formation of multicellular structures, survival during drug treatment or other stressful conditions, and evolution. Carlos is Marsha Laufer Endowed Professor of Physical and Quantitative Biology, and Professor of Chemistry at Stony Brook. He also applies these methods to systems where conformational dynamics are important for function, such as slow ligand binding and DNA recognition and repair. ( Video, Citations)Īssociate Director Carlos Simmerling develops new algorithms and energy functions using state-of-the-art computers for accurate and efficient simulation of large systems of biomolecules. ![]() Ken is Louis and Beatrice Laufer Endowed Chair of Physical and Quantitative Biology, and Distinguished Professor of Physics, Chemistry and Applied Math at Stony Brook. Dill is interested in the physics of how proteins fold the microscopic origins of the unusual physical properties of water the foundations and applications of variational entropy-based principles in statistical physics and how the laws of physics constrain and enable the biological properties and evolution of cells.
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