What is the Difference Between Freeze Fracture and Freeze Etching?
🆚 Go to Comparative Table 🆚Freeze fracture and freeze etching are techniques used to study the internal structures of biological samples, particularly cell membranes, at the ultrastructural level. The main difference between the two methods is as follows:
- Freeze Fracture: This technique involves breaking a frozen biological sample to reveal its internal structures. The sample is frozen, and then a sharp tool is used to fracture it, causing the sample to crack along the hydrophobic interior of membranes. This technique helps to visualize the three-dimensional contours of membranes.
- Freeze Etching: This method involves the sublimation of surface ice under vacuum to reveal details of the fractured face that were originally hidden. After the sample is fractured, a platinum-carbon replica of the fracture face is created through frozen cells. The replica is then analyzed using electron microscopy.
Both techniques are often used in conjunction with each other, as freeze fracturing is typically followed by freeze etching. Freeze etching requires ultrathin heavy metal and carbon films, and the fractured surface is coated under an angle with the films.
Comparative Table: Freeze Fracture vs Freeze Etching
Freeze fracture and freeze etching are two techniques used to study the internal structures of biological samples, particularly cell membranes. Here is a table summarizing the differences between the two methods:
Freeze Fracture | Freeze Etching |
---|---|
Involves breaking a frozen specimen to reveal internal structures | Involves sublimating surface ice under vacuum to reveal details of the fractured face that were originally hidden |
Technique of fracturing a frozen biological sample | Technique of vacuum drying the frozen fractured biological sample |
Requires ultrathin heavy metal and carbon films for freeze-fractured samples | Involves making a platinum-carbon replica of the fracture face through frozen cells |
Performed by breaking the frozen biological sample | Performed by making a platinum-carbon replica of the fracture face through frozen cells |
Both techniques are used in conjunction with each other, as freeze fracturing is followed by freeze etching to further reveal the details of the fractured surface.
- Cleavage vs Fracture
- Freezing Microtome vs Cryostat
- Fracture vs Break
- Melting Point vs Freezing Point
- Condensation vs Freezing
- X-ray Diffraction vs X-ray Fluorescence
- Crystallization vs Recrystallization
- Fission vs Fragmentation
- Heat of Fusion vs Crystallization
- Electrofuge vs Nucleofuge
- Fusion vs Solidification
- X Ray Diffraction vs Electron Diffraction
- X-ray Crystallography vs X-ray Diffraction
- Electrophoretic Deposition vs Electrodeposition
- Fraunhofer vs Fresnel Diffraction
- Flame Atomization vs Electrothermal Atomization
- Electroplating vs Electrolysis
- Evaporation vs Crystallization
- Electrophoresis vs Dielectrophoresis