UCP2 KO cell line available to order. Free of charge wild type control provided.
A549
Human
Lung
Liquid
BMIQ4, Mitochondrial uncoupling protein 2, SLC25A8, Solute carrier family 25 member 8, UCP2_HUMAN, UCPH, Uncoupling protein 2, Uncoupling protein 2 mitochondrial proton carrier
UCP2 KO cell line available to order. Free of charge wild type control provided.
A549
Human
Lung
Liquid
Carcinoma
UCP2
Knockout
CRISPR technology
EU: 1 US: 1
Adherent
Male
Upon arrival, the vial should be stored in liquid nitrogen vapor phase and not at -80°C. Storage at -80°C may result in loss of viability.
1. Thaw the vial in 37°C water bath for approximately 1-2 minutes.
2. Transfer the cell suspension (0.8 mL) to a 15 mL/50 mL conical sterile polypropylene centrifuge tube containing 8.4 mL pre-warmed culture medium, wash vial with an additional 0.8 mL culture medium (total volume 10 mL) to collect remaining cells, and centrifuge at 201 x g (rcf) for 5 minutes at room temperature. 10 mL represents minimum recommended dilution. 20 mL represents maximum recommended dilution.
3. Resuspend the cell pellet in 5 mL pre-warmed culture medium and count using a haemocytometer or alternative cell counting method seed all remaining cells into a T25.
4. Incubate the culture at 37°C incubator with 5% CO2. Check the culture one day after revival and continue to check until 80% confluent. Media change can be given if needed.
5. Once confluent passage into an appropriate flask at a density of 2x104 cells/cm2. Seeding density is given as a guide only and should be scaled to align with individual lab schedules. Cultures should be monitored daily.
Cell Freezing Medium-DMSO Serum free media, contains 8.7% DMSO in MEM supplemented with methyl cellulose.
Dry Ice
-196°C
Although we aim to provide customers with a homozygous clone, feasibility will be dependent on the biology of the protein. Should only heterozygous edits be achieved, you will be notified of the outcome and be asked to confirm whether the cell line is acceptable. All clones will be accompanied with DNA sequencing data, and the mutation description.
Recommended control: Human wild-type A549 cell line (Human wild-type A549 cell line ab288558). Please note a wild-type cell line is not automatically included with a knockout cell line order, if required please add recommended wild-type cell line at no additional cost using the code WILDTYPE-TMTK1.
We will provide viable cells that proliferate on revival.
This product is subject to limited use licenses from The Broad Institute and ERS Genomics Limited, and is developed with patented technology. For full details of the limited use licenses and relevant patents please refer to our limited use license and patent pages.
This supplementary information is collated from multiple sources and compiled automatically.
UCP2 also known as Uncoupling Protein 2 is a mitochondrial protein that plays a role in regulating the production of heat by uncoupling oxidative phosphorylation from ATP synthesis. It has a molecular mass of approximately 33 kDa. UCP2 can be found in various tissues like the brain pancreas heart and adipose tissue. This protein facilitates the transport of protons across the inner mitochondrial membrane which dissipates the proton gradient leading to a reduction in ATP synthesis efficiency.
UCP2 influences energy balance and metabolism in cells. It is not part of a complex but it functions independently as a transporter within the mitochondrial membrane. UCP2 modulates reactive oxygen species (ROS) production impacting antioxidant defenses and influencing insulin secretion. Its role in decreasing ROS is particularly important for protecting cells from oxidative damage and helping in the maintenance of cellular homeostasis.
UCP2 is critical to thermogenesis and energy expenditure mechanisms. It is involved in the oxidative phosphorylation pathway affecting how cells produce energy. The protein is related to others in its family such as UCP1 and UCP3 which have similar functions but are expressed differently. UCP2 also intersects with pathways involving glucose metabolism where it influences insulin function and glucose uptake indirectly through its regulatory action.
UCP2 has links to obesity and diabetes. Its role in energy regulation and control of ROS offers insights into how imbalances can lead to metabolic syndromes. In obesity altered UCP2 expression may contribute to changes in energy expenditure and fat storage regulation. For diabetes UCP2 is closely connected to insulin signaling where its function impacts insulin secretion from pancreatic beta-cells. These connections underline the potential of UCP2 as a therapeutic target for metabolic diseases.
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