Yingjie and his group will develop a new infrared tomography system for 3-D chemical profiling of metabolites in live cells with sub-cellular resolution. This work is done in close collaboration with the Bhargava group among others.
Kai and his lab use MINFLUX super-resolution imaging to investigate the assembly of supramolecular complex such as virus-like particles and inflammasomes, as well as dynamic interactions between organelles in cells.
Shulei and his group are developing machine learning methods and advanced statistical computational tools for large and complex biological data sets, including multi-omics and imaging data, like MINFLUX, used by Gruebele, Backlund and others to maximize data...
Emad’s group develops and applies molecular modeling, simulation, and visualization to the investigation of dynamics-function relationships in biomolecular systems and processes. They recently moved into the challenging area of cell-scale modeling and simulation,...
Paul and his group will use the MINFLUX to detect fast “half-steps” of kinesin and dynein in three dimensions and as a function of force, as well as develop magnetic bead force measurements for MINFLUX.
