Leica Microsystems EM ACE900 Application Note

Brand: Leica Microsystems

Model: EM ACE900

Type: Application Note

This manual is also suitable for

Leica Microsystems EM ACE900 is a sophisticated cryo workstation that empowers researchers to prepare samples for cryo-electron microscopy, enabling the visualization of biological structures at the molecular level. With its advanced freeze-fracturing and freeze-etching capabilities, the EM ACE900 facilitates the investigation of a wide range of specimens, including cells, tissues, and suspensions, in their native, hydrated state. This remarkable instrument excels in preserving delicate cellular structures and minimizing artifacts, ensuring high-quality results for subsequent imaging analysis.

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Application Note

CRYO-SEM WORKFLOW OF OIL BASED SAMPLES

related instruments: EM ICE, EM ACE900, EM VCT500 & EM VCM

CRYO-SEM WORKFLOW OF OIL BASED

SAMPLES

Application Note for High Pressure Freezer EM ICE, Freeze Fracture System EM ACE900

and Vacuum Cryo Transfer System EM VCT500 with Vacuum Cryo Manipulation System

EM VCM

Julia König, Leica Microsystems, Vienna, Austria

Roland Fleck, Dr., Kings College London, Centre for ultrastructural imaging

Freeze fracture is a powerful method to investigate the internal structures of different sample types like cells and tissues but also

suspensions and emulsions in their native, watery state. To keep the samples as native as possible, a small portion of the sample is

high pressure frozen in between two specimen carriers. To “open” the sample for further investigation in the cryo SEM, the carriers are

subsequently forced apart in a freeze fracture machine. The fractured surface is coated with platinum and carbon before imaging to

avoid any sample charging during SEM investigation. Advantage of that workow is the high sample throughput and resolution of the

internal structure of the sample. Because the samples are still in their native state, the distribution of the different components like oil

and water can be easily analysed. This makes this technique very interesting for quality analysis in the pharmaceutical or food industry.

In this article we will show the power of this technique by using classic food mayonnaise as a sample.

Specimen: Mayonnaise

Desired preparation: Cryo-SEM workow

Objective of observation: Freezing quality of oil sample

Procedure

High pressure freezing

Samples were added to the 3 mm interlocking carriers for freeze fracture. Sample carriers were slightly overloaded to prevent any air

inclusion inside the carrier. Subsequently samples were directly frozen with the EM ICE and stored in liquid nitrogen for further proces-

sing.

Sample transfer to EM ACE900 via EM VCT500

To prepare the samples for cryo SEM investigation, the samples need to be freeze fractured and freeze etched. To do that under cryoge-

nic conditions, the samples must be loaded into a pre-cooled EM ACE900. This is done with the EM VCT500/ EM VCM.

After liquid nitrogen storage the samples are transferred to the EM VCM and loaded onto a VCT freeze fracture holder. For loading into

the EM ACE900, the sample holder is transferred with the EM VCT500 shuttle. For this purpose, the EM ACE900 has to be equipped with

an EM VCT500 dock.

Freeze fracture and etching

The samples were loaded in the EM ACE900 at a stage temperature of -160 °C. The samples were fractured at a temperature of -145°C

after reaching an equilibrium (wait 10-15 minutes). The freeze etching was processed for 1 min at -110°C. The last step, the coating,

was performed with electron beam evaporation and a mixture of platinum and carbon (Pt/C coating with multi angle rotary shadowing).

In this way a 4 nm thick layer was coated on top of the samples.

LNT Application Note - CRYO-SEM WORKFLOW OF OIL BASED SAMPLES 3

Sample transfer to cryo-SEM

To keep the samples under optimal conditions the samples were directly transferred with the EM VCT500 shuttle from the EM ACE900

to the JEOL JSM 7800F Prime equipped with the EM VCT500 cryo stage.

Results

The imaging proves the nicely frozen quality of the mayonnaise samples. A very well fractured plane is visible. The large “round” struc-

tures can be identied as fat globules held in a water system as an emulsion. The fat globules have a well-dened round shape as well

as no visible structure inside, showing exactly what is expected. Also in the surrounding emulsion, no ice crystal formation is visible.

Furthermore, an additional regular structure in between the fat globules can be detected. This may be some additional phase separati-

on, occurring due to air expose of the mayonnaise over a period of time.

LNT Application Note - CRYO-SEM WORKFLOW OF OIL BASED SAMPLES 5

Sample preparation process time with Leica solution

EM ICE: 1hr total process time. User interaction time 30 minutes (high pressure freezing).

EM ACE900: 1hr total process time. User interaction time 30 minutes (freeze fracturing and etching).

EM VCT500: 15 minutes total process time. User interaction time 10minutes (sample transfer).

Instruments used

https://www.leica-microsystems.com/science-lab/drosophila-larvae-sample-preparation-for-cryo-sem/

https://www.leica-microsystems.com/science-lab/giardia-lamblia-sample-preparation-for-cryo-sem/

https://www.leica-microsystems.com/science-lab/brief-introduction-to-freeze-fracture-and-etching/

EM ICE

EM ACE900

EM VCT500 with

EM VCM

Subject to modications. LEICA and the Leica Logo are registered trademarks of Leica Microsystems IR GmbH.

Leica Mikrosysteme GmbH | Vienna, Austria

T +43 1 486 8050-0 | F +43 1 486 8050-30

www.leica-microsystems.com

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Leica Microsystems EM ACE900 Application Note

Brand: Leica Microsystems

Model: EM ACE900

Type: Application Note

This manual is also suitable for

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Leica Microsystems EM ACE900 Application Note

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