Professor of Molecular Immunology
We apply and optimize advanced optical microscopy techniques such as super-resolution STED microscopy for deciphering molecular dynamics in so far unprecedented ways. Our main focus is molecular plasma membrane organization, especially following immune responses. For further information see: www.nano-immunology.org.
Prof Eggeling holds a PhD in Physics from the University of Göttingen, where he optimized single-molecule detection. From 2000 to 2003 he was a research scientist at Evotec, Hamburg, developing advanced fluorescence microscopy techniques for high-throughput drug screening. In 2003, Christian joined the MPI of Biophysical Chemistry, Göttingen as a senior scientist in the department of Professor Stefan Hell (2014 Nobel Laureate in Chemistry). Here, he was focused on the field of optical super-resolution microscopy, specifically the biological applicability of stimulated emission depletion (STED) microscopy.
Since 2012, Christian has been a principal investigator in the MRC Human Immunology Unit and the scientific director of the Wolfson Imaging Centre at the MRC Weatherall Institute of Molecular Medicine, University of Oxford. From 2014, as a Professor of Molecular Immunology, Christian's research has been focused on advanced microscopy for the investigation of immune cells and cellular plasma membrane organization.
Influence of nanobody binding on fluorescence emission, mobility, and organization of GFP-tagged proteins.
Schneider F. et al, (2021), iScience, 24
Aggregation and immobilisation of membrane proteins interplay with local lipid order in the plasma membrane of T cells
Urbančič I. et al, (2020)
Object detection networks and augmented reality for cellular detection in fluorescence microscopy.
Waithe D. et al, (2020), J Cell Biol, 219
Super-resolution RESOLFT microscopy of lipid bilayers using a fluorophore-switch dyad
Frawley AT. et al, (2020), Chemical Science, 11, 8955 - 8960
Background Reduction in STED-FCS Using a Bivortex Phase Mask.
Barbotin A. et al, (2020), ACS Photonics, 7, 1742 - 1753