Potter-Elveyem Homogenizer

Potter-Elveyem homogenizer - a device used for homogenization (grinding and mixing) of biological tissues and cells.

The homogenizer is named after the American biochemist Conrad Elvehjem (1901-1962) and microbiologist Nathaniel Potter (1911-2002), who together developed the device in the late 1930s.

The operating principle of the homogenizer is to rotate the pestle inside the beaker with the sample. The pestle rotates at high speed, crushing the tissues and cells of the sample through mechanical action and friction. This allows you to obtain a homogeneous homogeneous mixture from the original sample.

The Potter-Elveyem homogenizer is widely used in biochemical and molecular biology research for the extraction of proteins, nucleic acids and other components of cells and tissues. It allows you to effectively destroy rigid cellular structures and isolate intracellular molecules for further analysis.

The Potter-Elvehjem homogenizer is a device developed in the 20th century by the American biochemist Potter and his colleague, the American biologist S. A. Elvehjem. This homogenizer is one of the most efficient and versatile devices for homogenizing biological samples such as cells, tissues, organs, etc.

The operating principle of the Potter-Elveyem homogenizer is based on the use of centrifugal force to destroy cells and tissues into small fragments. The device consists of a rotating rotor containing several blades that break the samples into small particles. These particles then pass through holes in the rotor and into a liquid reservoir where they are finally homogenized.

Homogenizing biological samples using a Potter-Elveyem homogenizer produces a more homogeneous mixture, which makes research results more accurate and reliable. This method is widely used in various fields of biology such as genetics, immunology, pharmacology, etc., where homogenization of samples is required for further analysis.

Overall, the Potter-Elveyem homogenizer is an efficient and versatile device for homogenizing samples in biology and medicine. It allows you to obtain more homogeneous mixtures, which improves the quality of research and makes the results more accurate.