Electron microscopy facility
The Electron Microscopy Facility (EMF) of the
Institut de Biologie Paris-Seine offers a set of skills and equipment in
transmission and scanning electron microscopy to the scientific community
(IBPS, Sorbonne Université, public and private laboratories). A team of three engineers animate
the EMS. They provide methodological support, user training, maintenance of the
equipment and scientific activities (seminars, teaching).
EMF provides access to a wide range of
equipment allowing the preparation and the observation of a large variety of models, from bulk specimens or cell cultures to thin films or
nanoparticles. Sample preparation dedicated to ultrastructural or immunolocalisations
studies can be realised "conventionally", with chemical methods or
using cryomethods. The facility has a long-lasting expertise in cryomethods,
which associate a fast immobilisation of samples with an optimal preservation
of their integrity (high-pressure freezing, freeze substitution,
plunge-freezing, freeze-fracturing, freeze-etching).
Our park is equipped with a high-resolution Scanning Electron
Microscope (SEM) to visualise the sample surface. Furthermore it includes one
Transmission Electron Microscope (TEM) to observe standard sections of samples, or to reach molecular level (80 - 200 kV).
The service is also involved in various
technological developments to provide innovative methodological solutions, for
example: optimal sample preservation (cryomethods), 3D reconstruction
(array tomography) or screening for rare events detected with
fluorescence (correlative microscopy).
Electron Microscope 200kV (2100HC, JEOL)
- Field-Emission Scanning
Electron Microscope (GeminiSEM 500, Zeiss) with cryo-stage (VCT100, Leica)
- Ultramicrotomes (UCT, Leica)
apparatus (CPC, Leica)
pressure freezing (HPM100, Leica)
apparatus (AFS, Leica)
point drying apparatus (CPD300, Leica)
- High-resolution Coaters (ACE600, Leica)
treatment and tomographic reconstruction (Imod, TomoJ, Atlas5)
All projects developed within the platform may include a conception
monitoring, follow-up, realisation and result
analysis. An interview precedes each project to evaluate feasibility and to
propose the most appropriate techniques.
Type of offers:
- Sample preparation in TEM and SEM
- Sample preparation and image
sessions for autonomous users
sample preparation and observation in TEM: ultrastructural cytochemistry,
immunocytochemistry, negative contrast
- Freezing: high
pressure freezing, plunge-freezing and freeze-substitution
sample preparation and observation in high-resolution SEM, cryo-SEM (freeze-fracturing
and freeze-etching) and STEM-in-SEM
- "Volumetric" imaging with Array Tomography
light electron microscopy (CLEM)
From January 2016, our platform is equipped with a high-resolution SEM
coupled to cryopreparation and automatic imaging of serial sections.
This will permit high-resolution viewing of cells and tissues
maintained in their native state, at the subcellular and molecular
levels, and high contrast TEM-like imaging, with a very wide field
of view and 3D visualization of large volumes (Array Tomography).
News of the platform
Collagen Like You’ve Never Seen it Before!
New biomaterials can be developped through the in vitro production of collagen membranes, according to a recent study led by Carolé Aimé. This publication was realized by the teams Matériaux et biologie and Reactive Materials for Electrochemical devices - part of the Condensed Matter Chemistry Laboratory in Paris (UMR 7574) which specializes in the engineering of biomaterials
The EMF contributed to the study’s multi-modal and multi-scale analyses by carrying out a rare and original imaging approach that uses "direct cryo-SEM". The sample was viewed on a nanoscopic scale in a fully hydrated and quasi-native state.
The sample only needs to be frozen in place (plunge-freezing) before observation at a very low temperature, a method which allows the preservation of both the organization and fine structure of the collagen fibrils. These can otherwise be greatly altered with conventional SEM sample preparation methods that require chemical preparation (fixation, dehydration, drying and surface coating).
The article, with acknowledements for EMF staff, can be downloaded here:
A High-resolution SEM to Explore Tissue Ultrastructure in Three Dimensions
This example of nervous tissue (collaboration with the team Development and Plasticity of Neural Network, UMR 8246 Neurosciences) was used to explore parts of the olfactory neural layers of mice, applying the array tomography method.
Array tomography exploits the performance of the platform’s high-resolution Scanning Electron Microscope (SEM). The SEM - equipped with next-generation optics and detectors along with high-performing automation software (Atlas 5 Zeiss) - can produce "TEM type images" from conventionally prepared biological samples (fixation, inclusion, ultramicrotomy and contrast).
The images obtained have a nanometric lateral resolution (here 2.5 nm / pixel) and an axial resolution resulting from the thickness of the different ultra-fine sections recovered (here 80 nm).
Array tomography coupled with our high-performance SEM makes it possible to obtain:
- observations of millimetric fields of view, using a mosaic approach with the acquisitions of contiguous regions
- sample volumes covering a depth of several micrometers, acquiring the same regions of interest repeated over tens / hundreds of successive sections