Imaging dynamic biological systems across scales

Bioimaging has become one of the leading approaches to study biological processes in cells, tissues and whole organisms with the help of light and other non-invasive methods.

In particular, recent breakthroughs in fluorescence microscopy have revolutionised the way biomedical research is conducted, allowing the direct observation of biological processes in living cells, tissues and organisms with unprecedented spatial and temporal resolution.

The expertise and equipment available at the COMPARE Advanced Imaging Facility span across multiple scales and imaging modalities, from the observation of individual proteins diffusing and interacting on the surface of living cells to the visualisation of complex cell organisation in large tissue samples.

We combine these with innovative probes such as small fluorescent molecules and FRET/BRET sensors developed by our word-leading PIs, in-house hardware design, and  development of novel computational approaches based on AI and machine learning.

Our researchers and support staff have extensive experience in applying these methods to a wide range of biomedically relevant questions, such as clarifying the mechanisms of cell-cell communication and receptor signalling, investigating the pathogenesis of metabolic, inflammatory and cardiovascular diseases, or developing innovative pharmacological therapies and diagnostic markers.

 

 

 

Our Technologies and Applications

List of microscopy techniques with their associated use and systems

Technique	Use	Systems
Super-resolution microscopy
Structured Illumination Microscopy (SIM)	Visualisation of sub-cellular structures (live and fixed cell) at twice the resolution of conventional microscopy (~ 160 nm)	Nikon N-SIM
Single-molecule Localisation Microscopy (SMLM)	Provides quantitative information on complex populations of molecules, including their nanoscale arrangement, diffusion and interactions in live cells with unprecedented resolution (~20 nm and 20 ms)	Custom 4-camera TIRF (Cairn)
Stochastic Optical Reconstruction Microscopy (STORM)	Super-resolution imaging of molecules within cells and tissues, labelled with antibodies or photoswitchable probes. Resolution ~ 10-20 nm	Nikon N-STORM Nanoimager (ONI)
Light sheet microscopy
Lattice light sheet (LLS)	Non-destructive imaging of living samples in three dimensions over time with unparalleled spatiotemporal resolution (~160 nm)	3i Lattice Light Sheet
Selective Plane Illumination Microscopy (SPIM)	Provides precise information on cellular/organelle dynamics in live cells, cleared tissues and small organisms, with 3D isotropic resolution	3i Marianas Light Sheet
Large Volumetric Imaging Light Sheet	3D imaging of entire biological systems in large optically cleared samples (e.g. whole brain,  organoids, tissue slices) with cellular resolution	Ultramicroscope II (Miltenyi)
Oblique Plane Light Sheet – coming soon!	Fully automated, remotely accessible high content light sheet microscopy system – we’re now looking for pilot projects, please ask for further information	Custom 5-camera OPLSM
Widefield microscopy
Calcium imaging /cellular Kinetics	Receptor activation or the production of second messengers such as calcium or cyclic AMP in living cells	Ultrafast FRET/calcium imaging microscope (Cairn)
FRET	Protein-protein interactions in living cells	Ultrafast FRET/calcium imaging microscope (Cairn) Custom 4-camera TIRF (Cairn)
Multichannel Fluorescence microscopy	Automated imaging applications such as time-lapse imaging, multiwell plate scanning, image stitching and tiling, and cell counting	Ultrafast FRET/calcium imaging microscope (Cairn) Thermofisher EVOS FL