Ultrasound Cell Crushing Disruption Efficiency Fragmentation 20Khz 1200w Chemical Treatment

Ultrasound Cell Crushing Disruption Efficiency Fragmentation 20Khz 1200w Chemical Treatment

Description: 

Ultrasound cell fragmentation is a process that utilizes the power of ultrasound to destroy cell structures. By transmitting high-frequency ultrasound into cells, the mechanical action of ultrasound can cause the rupture of cell membranes and the release of substances inside the cells.

Ultrasound damages cells by producing cavitation effects. During the propagation of ultrasound, the pressure change of sound waves can cause a change in the solubility of gas in the liquid, thereby promoting the transformation of gas from a dissolved state to a bubbly state. When the bubble continues to be affected by sound waves, the pressure inside the bubble will continue to increase until it ruptures and releases energy. The rupture and release of energy from these bubbles can have a destructive effect on cells.

Parameters:

Application:

1. Ultrasonic cell fragmentation can be used to extract various substances within cells, including proteins, nucleic acids, organelles, and metabolites. Here are some specific applications:

2. Protein extraction: Ultrasonic cell fragmentation can be used to destroy cell membranes and release intracellular proteins. This is very useful for protein research, enzyme activity analysis, immunological research, and proteomics.

3. Nucleic acid extraction: Ultrasonic cell fragmentation can destroy the nucleus and cell membrane, releasing nucleic acids inside the cell. This is very important for the extraction of DNA and RNA, as well as genetic research, gene expression analysis, and so on.

4. Extracellular organelle extraction: Ultrasonic cell fragmentation can destroy cell membranes and organelle membranes, releasing intracellular organelles such as mitochondria and endoplasmic reticulum. This is of great significance for the separation and purification of organelles, functional research, and the study of organelle diseases.

5. Metabolite extraction: Ultrasonic cell fragmentation can disrupt cell structure and release intracellular metabolites such as enzymes, metabolites, and signaling molecules. This has practical value for metabolomics research, drug screening, and biosynthesis research.

6. The advantages of ultrasonic cell fragmentation in the above applications include simple operation, fast speed, large sample processing capacity, and the ability to maintain the activity and integrity of the sample.

Ultrasound Cell Crushing Disruption Efficiency Fragmentation 20Khz 1200w Chemical Treatment