This assay is to provide B16F10-based In Vitro Boyden Chamber Assay (Migration) to accelerate our client's oncology projects. The assay will be customized according to the specific requirements. Please contact our scientists to discuss more details.
Target Cell Name
B16F10
Target Cell Organism
Mouse
Target Cell Background
B16F10 cell line (from Mus musculus C57BL/6J strain) is a convenient and widely used experimental model of highly metastatic melanoma to study cytotoxicity, migration, metastatic spread and tissue invasion. B16-F10 is a cell line exhibiting a morphology of spindle-shaped and epithelial-like cells that was isolated from skin tissue of a mouse with melanoma. Use these cells in your skin cancer research.
Target Cell Alternative Name
B16-F10
Related Diseases
Melanoma
Research Area
Oncology
Assay Name
In Vitro Boyden Chamber Assay (Migration)
Short Description
B16F10-cell based In Vitro Boyden Chamber Assay (Migration)
Assay Description
The Boyden chamber assay needs a microporous membrane that divides a culture well into two compartments. In the upper compartment, cancer cells are cultured in serum-free medium and the lower compartment contains a chemoattractant. Serum is normally used as the chemoattractant and migrated cells through the membrane can be stained and visualized. Coating the microporous membrane with type 1 collagen or matrigel mimics the ECM membrane, which can be used to study invasion. Invasive cancer cells destruct the microporous membrane and migrate to the bottom of the wells through the membrane. By comparing cell migration through coated and non-coated microporous membranes, the invasive index can easily be determined.
Assay Alternative Names
Boyden Chamber Assay (Migration)
Assay Type
Cell Migration and Invasion Assays
Assay Type Details
The movement of cancer cells and formation of tumors in neighboring tissue is a sequential cascade known as invasion-metastatic cascade, which includes cancer cell invasion through extracellular matrix (ECM), intravasation into blood and colonization at sites after they exit from blood circulation. Migration and invasion are two different processes where, cell migration involves movement of cells without passing through a barrier such as ECM, whereas cell invasion involves passing through a barrier such as ECM while destroying it.