FBS Exosome Depletion Kits
Quick and easy protocol for the depletion of bovine exosomes from FBS prior to using it as a growth supplement in your culture medium
For research use only and NOT intended for in vitro diagnostics.
FBS Exosome Depletion Kits
Quick and easy protocol for the depletion of bovine exosomes from FBS prior to using it as a growth supplement in your culture medium
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Features and Benefits
- Efficient depletion of bovine exosomes from Fetal Bovine Serum
- Deplete exosome-sized vesicles from versatile FBS volumes
- No protease treatment required
- No time-consuming ultracentrifugation
- No precipitation reagents required
- No overnight incubation required
- Exosome depletion confirmed by reduction of bovine miRNAs below detectable levels
- The depleted FBS provides the same cellular growth rates as the standard FBS
- Purification is based on Norgen’s proprietary Silicon Carbide resin matrix
Norgen's FBS Exosome Depletion Kits provides a quick and easy protocol for the depletion of bovine exosomes from FBS prior to using it as a growth supplement in your culture medium. The FBS recovered from the depletion process is exosome-depleted and does not contain any quantifiable bovine miRNAs. Moreover, the exosome-depleted FBS will support the growth of your cells of interest similar to the non-depleted FBS. Norgen's kits allow for the processing of different FBS volumes. The depletion is based on Norgen’s proprietary resin. These kits provide a clear advantage over other available kits in that they do not require ultracentrifugation, any special instrumentation, precipitation reagents or any protease treatments. More importantly, the depletion process is an inexpensive method for exosome depletion from FBS, as compared to the expensive current ready-to-use exosome-depleted media available on the market.
Background
Most culture medium used for the growth and propagation of cells in culture require the addition of fetal bovine serum (FBS) as a growth supplement to media. FBS is obtained from bovine (cow) serum, and therefore contains large quantities of bovine exosome vesicles. These exosomes may interfere with some types of studies, or may lead to unreliable results when studying the exosomes shed from your cells of interest in normal culture conditions. Therefore, the use of exosome-depleted FBS is highly recommended for many types of studies.
FBS Exosome Depletion Kit (Slurry Format)
For FBS volumes ranging from 140 mL to 280 mL.
FBS Exosome Depletion Kit (Column Format)
For FBS volumes ranging from 120 mL to 240 mL.
Details
Supporting Data
Kit Specifications
|
|
Sample Type |
Fetal Bovine Serum
|
Sample Volume Range
|
Up to 140 mL
(FBS Exosome Depletion Kit I (Slurry Format) Up to 280 mL (FBS Exosome Depletion Kit II (Slurry Format) |
Depletion
|
Deplete exosome-sized vesicle
|
Bovine miRNA | No detectable bovine miRNA |
Time to Complete 6 Purifications |
40 minutes
|
Storage Conditions and Product Stability
All buffers should be kept tightly sealed and stored at room temperature. This kit is stable for 2 years after the date of shipment.
Component | Cat. 61100 (6 preps) | Cat. 61400 (12 preps) | Cat. 61200 (6 preps) | Cat. 61300 (12 preps) |
---|---|---|---|---|
ExoC Buffer | 2 x 1.5 mL | 8 mL | 2 x 1.5 mL | 8 mL |
Slurry E | 12.5 mL | 2 x 12.5 mL | - | - |
Maxi Spin Column | - | - | 6 | 12 |
Product Insert | 1 | 1 | 1 | 1 |
Documentation
(61400) FBS Exosome Depletion Kit I & Kit II (Slurry Format) - Protocol (12 prep)
(61200) FBS Exosome Depletion Kit I & Kit II (Column Format) - Protocol (6 prep)
(61300) FBS Exosome Depletion Kit I & Kit II (Column Format) - Protocol (12 prep)
Citations
Title | Cementocyte-derived extracellular vesicles regulate osteoclastogenesis and osteoblastogenesis |
Citation | Journal of Dental Sciences 2024. |
Authors | Jiajun Li a, Yukihiko Sakisaka a, Eiji Nemoto a, Kentaro Maruyama a, Shigeki Suzuki a, Kaixin Xiong a, Hiroyuki Tada b, Taichi Tenkumo c, Satoru Yamada a |
Title | Heterozygous NF1 dermal fibroblasts modulate exosomal content to promote angiogenesis in a tissue-engineered skin model of neurofibromatosis type-1 |
Citation | Journal of neurochemistry 2023. |
Authors | Vincent Roy, Alexandre Paquet, Lydia Touzel-Deschênes, Hélène T. Khuong, Nicolas Dupré, Francois Gros-Louis |