Electroporation: Difference between revisions

Electroporation is a microbiological technique that uses an electrical field to increase the permeability of the cell membrane. This method is commonly used in molecular biology as a way of introducing some substance into a cell, such as loading it with a molecular probe, a drug that can change the cell's function, or a piece of coding DNA.

Overview[edit]

Electroporation works by applying a high-voltage electrical pulse to a solution containing cells. The electrical pulse temporarily disrupts the phospholipid bilayer, allowing molecules like DNA to pass into the cell. Once the pulse is over, the cell membrane quickly reseals.

Applications[edit]

Electroporation has a wide range of applications in science and medicine. It is used in gene therapy, cell biology, microbiology, and cancer treatment. In gene therapy, it can be used to introduce new genes into cells. In cell biology and microbiology, it is used to introduce substances like dyes or drugs into cells. In cancer treatment, it is used to deliver chemotherapy drugs directly into tumor cells.

Advantages and Disadvantages[edit]

One of the main advantages of electroporation is that it is a non-viral method of gene transfer. This means it does not have the same safety concerns as viral methods. However, it also has some disadvantages. For example, it can cause cell damage and death if not done correctly. It also requires specialized equipment and training to perform.

See Also[edit]

• Gene therapy
• Cell biology
• Microbiology
• Cancer treatment

References[edit]

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  Electroporation cuvettes used in laboratory experiments
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  Schematic of a pore formed during electroporation
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  Electroporation