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Microscopy

Microscopy at the Sainsbury Laboratory covers a wide range of techniques from macro-imaging/photography through to stereofluorescence, confocal, raman and scanning electron microscopy. Support facilities include a well-equipped prep room, sample incubation growth chamber, uninterrupted back-up power supply (for high-end confocal and SEM systems) and data storage on a central server. An advanced workstation contains various tools for 4D analysis including Imaris (4D rendering and tracking), Huygens (deconvolution and 3D rendering) and offline versions of the software used to run the facility microscopes.

SLCU has the following microscopy equipment:

- Light Microscopy
Confocal microscopy
Scanning Electron Microscopy
Atomic Force Microscopy

 

Access to the Microscopy Core Facility

In addition to members of the SLCU, the core facility also supports research carried out in other departments including Plant Sciences, Biochemistry, Neuroscience, Materials Science and Geology. Access to use the facility can be arranged by contacting

 

Supported by the Gatsby Charitable Foundation

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New insights could help plants fortify walls against root pathogens

Sep 03, 2020

Sainsbury Laboratory Cambridge University (SLCU) researchers, as part of a multidisciplinary international team, have uncovered a mechanism controlling subtle changes to the architecture of cell walls in plant roots that bolsters their defence against Phytophthora palmivora without negatively affecting plant growth.

Giles Oldroyd elected as member of EMBO

Jul 10, 2020

Professor Giles Oldroyd is among 63 other scientists from around the world elected this year as Members and Associate Members of the European Molecular Biology Organisation (EMBO).

Cells in tight spaces – how the cytoskeleton responds to different cell geometries

Jul 09, 2020

Inside every living cell, there is a network of protein filaments providing an interior scaffold controlling the cell’s shape called the cytoskeleton. Research from the Sainsbury Laboratory Cambridge University (SLCU) suggests that this relationship might actually be two-way, with cell geometry itself having the capacity to influence the organisation of the cytoskeleton in living plant cells.

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