Plant Biology Electron Microscopy | Thermo Fisher Scientific

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Breakthroughs that can improve our understanding of the living world are enabled by research into fundamental biological processes. In the fields of plant biology and crop science, these insights can shed light not just on cellular function but also the interaction of unknown chemical substances or pathogens with the plant. For example, electron microscopy can reveal the interaction between a viral/fungal species and the crop, informing breakthroughs in disease prevention that result in increased crop and agricultural product yield.

Particularly significant is cryo-EM’s ability to observe a wide range of detail, from proteins (with single particle analysis) to their cellular context (with tomography), all the way up to the overall structure of the plant (large volume analysis), providing a full understanding of fundamental interactions and mechanisms.

Resources

Images

SEM image of a transversal cut of flower cells. Image courtesy of Dr. Maria Carbajo, Universidad de Extremadura.

SEM image of a pollen grain surface. Image courtesy of Mrs. Seydanur Kaya, Kastamonu University.

Cryo TEM image of leaf with visible etioplasts

Cryo-TEM image of an Arabidopsis leaf where the seedling was grown in total darkness. Crystalline prolamellar bodies within the etioplasts are visible. Image courtesy of Ms. Pat Kysar, University of California, Davis.

Images

SEM image of a transversal cut of flower cells. Image courtesy of Dr. Maria Carbajo, Universidad de Extremadura.

SEM image of a pollen grain surface. Image courtesy of Mrs. Seydanur Kaya, Kastamonu University.

Samples

Proteins Analysis

Cryo-electron microscopy provides near-atomic resolution 3D protein structure. It can determine structural information for complexes and crystallization-resistant samples, as well as vital cellular context.

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Virus Analysis

Cryo-EM enables the 3D structural visualization of virus particles, and the antigen-antibody interface, at near-atomic resolutions. A virus’s inherent structural symmetry makes it the ideal target for cryo-EM analysis.

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Techniques

Single Particle Analysis

Single particle analysis (SPA) is a cryo-electron microscopy technique that enables structural characterization at near-atomic resolutions, unraveling dynamic biological processes and the structure of biomolecular complexes/assemblies.

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Cryo-Tomography

Cryo-electron tomography (cryo-ET) delivers both structural information about individual proteins as well as their spatial arrangements within the cell. This makes it a truly unique technique and also explains why the method has such an enormous potential for cell biology. Cryo-ET can bridge the gap between light microscopy and near-atomic-resolution techniques like single-particle analysis.

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Integrative Structural Biology

To understand protein function, you need complex and structure information beyond individual proteins. Integrative structural biology combines mass spectrometry and cryo EM for the determination of large dynamic complex structure.

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Large Volume Analysis

A novel serial block-face imaging (SBFI) solution that combines multi-energy deconvolution scanning electron microscopy (MED-SEM) with in situ sectioning. Automation and ease-of-use functions provide isotropic resolution for large volume samples.

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Single Particle Analysis

Single Particle Analysis

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Cryo-Tomography

Cryo-Tomography

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Integrative Structural Biology

Integrative Structural Biology

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Large Volume Analysis

Large Volume Analysis

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Products

Style Sheet for Instrument Cards Original

Thermo Scientific Talos F200C transmission electron microscope (TEM)

Talos F200C TEM

High-contrast and high-quality TEM and STEM imaging
4k x 4k Ceta CMOS camera options for large FOV and high read-out speeds
Large pole piece gap and multiple in situ options

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Thermo Scientific Talos L120C transmission electron microscope (TEM)

Talos L120C TEM

High versatility and stability
4k x 4k Ceta CMOS camera for speed and large FOV
TEM magnification range of 25X to 650kX
EDS and STEM options for compositional analyses

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Thermo Scientific Prisma E scanning electron microscope (SEM)

Prisma E SEM

Entry-level SEM with excellent image quality
Easy and quick sample loading and navigation for multiple samples
Compatible with a wide range of materials thanks to dedicated vacuum modes

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Thermo Scientific Quattro E scanning electron microscope (SEM)

Quattro ESEM

Ultra-versatile high-resolution FEG SEM with unique environmental capability (ESEM)
Observe all information from all samples with simultaneous SE and BSE imaging in every mode of operation

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Thermo Scientific Apreo 2 scanning electron microscope (SEM)

Apreo 2 SEM

High-performance SEM for all-round nanometer or sub-nanometer resolution
In-column T1 backscatter detector for sensitive, TV-rate materials contrast
Excellent performance at long working distance (10 mm)

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Thermo Scientific Verios 5 XHR scanning electron microscope (SEM)

Verios 5 XHR SEM

Monochromated SEM for sub-nanometer resolution over the full 1 keV to 30 keV energy range
Easy access to beam landing energies as low as 20 eV
Excellent stability with piezo stage as standard

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VolumeScope 2 SEM

Isotropic 3D data from large volumes
High contrast and resolution in high and low vacuum modes
Simple switch between normal SEM use and serial block-face imaging

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Thermo Scientific Helios Hydra plasma focused ion beam scanning electron microscope (DualBeam)

Helios Hydra DualBeam

4 fast switchable ion species (Xe, Ar, O, N) for optimized PFIB processing of a widest range of materials
Ga-free TEM sample preparation
Extreme high resolution SEM imaging

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