FBS Exosome Depleted, 500 ml
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Delivery time approx. 5 working days
- Article number FBS.EXD.0500
FBS Exosome Depleted
For our FBS Exosome Depleted, exosomes were efficiently removed from natural FBS (origin: South America) using a gentle method. The exosome content has been reduced by 90% and is ideal for research into intercellular communication and exosome secretion.
Properties
Reduced exosome content - exosome content < 10%
Consistent performance - Comparable performance in cell culture applications as untreated FBS
Very low endotoxin level - Ultra low endotoxin
Low IgG content - Low IgG
Good to know
Exosomes are small vesicles (approx. 30 - 90 nm) secreted by the cell that contain nucleic acids or proteins. They serve the cell as a transport vehicle, for intercellular communication and for the removal of defective cell components. Exosomes are mainly formed by immune cells, nerve cells and tumor cells and play an important role in the immune response and in the development of tumors. It has been shown that tumors modulate their tumor microenvironment through the secretion of exosomes. Therefore, the study of exosome secretion and cell-cell communication is an important part of tumor research.
In order to create in vivo conditions for in vitro cell culture, serum is often added to the cell culture medium. Serum serves as a source of growth factors, lipids, hormones and minerals for the cells. Fetal bovine serum (FBS) is particularly rich in growth factors and contains few antibodies that could interfere with cell cultivation. This unique composition makes FBS one of the most important supplements for cell proliferation in in-vitro cell culture.
FBS is naturally rich in exosomes. Therefore, the mixing of cellular secreted exosomes and serum exosomes is a critical problem in exosome research. Our FBS Exosome Depleted has been treated with a special method that gently and efficiently removes exosomes (> 90%). FBS Exosome Depleted nevertheless shows comparable, outstanding performance in cell culture applications as untreated FBS and is therefore ideally suited for research into exosome secretion and the investigation of intercellular communication.