CD16 antibody | KD1
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Mouse anti Human CD16
- Product Type
- Monoclonal Antibody
|Mouse anti Human CD16 antibody, clone KD1 recognizes human CD16, a 50-65 kDa cell surface molecule, which is the low affinity receptor for IgG (FcR III). CD16 exists as a transmembranous form (Fc gammaRIIIA, or CD16A) and a glycosyl phosphatidylinositol (GPI) anchored form (Fc gammaRIIIB, or CD16B). CD16A is expressed by NK cells, some T cells, and macrophages (Moretta et al. 1990), whereas CD16B is primarily expressed by granulocytes (Bonecchi et al. 1999). Clone KD1 recognizes both forms of CD16 and will therefore recognize all cell types expressing CD16.
Mouse anti Human CD16, clone KD1 can be used to identify CD16 in a range of species including bovine (Boysen et al. 2010) and ovine (Elhmouzi-Younes et al. 2010).
- Target Species
- Species Cross-Reactivity
Target Species Cross Reactivity Bovine Sheep Horse Weak Pig Weak Rat Dog Dolphin
- N.B. Antibody reactivity and working conditions may vary between species.
- Product Form
- Purified IgG - liquid
- Purified IgG prepared by affinity chromatography on Protein G from tissue culture supernatant
- Buffer Solution
- Phosphate buffered saline
- Preservative Stabilisers
- 0.09% Sodium Azide (NaN3)
- Carrier Free
- A polyclonal population of NK cells.
- Approx. Protein Concentrations
- IgG concentration 1.0mg/ml
- Fusion Partners
- Spleen cells from immunised mice were fused with cells of the P3U1 myeloma cell line.
- For research purposes only
- 12 months from date of despatch
Avoid repeated freezing and thawing as this may denature the antibody. Storage in frost-free freezers is not recommended.
|Application Name||Verified||Min Dilution||Max Dilution|
|Functional Assays 1|
- 1This product contains sodium azide, removal by dialysis is recommended prior to use in functional assays.
- Flow Cytometry
- Use 100ul of the suggested working dilution to label 1x106 cells in 100ul.
|Description||Product Code||Applications||Pack Size||List Price||Your Price||Quantity|
|Rabbit F(ab')2 anti Mouse IgG:RPE||STAR12A||F||1 ml||Log in|
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|Description||Rabbit F(ab')2 anti Mouse IgG:RPE|
|Rabbit F(ab')2 anti Mouse IgG:FITC||STAR9B||F||1 mg||Log in|
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|Description||Rabbit F(ab')2 anti Mouse IgG:FITC|
References for CD16 antibody
Moretta, A. et al. (1989) CD16 surface molecules regulate the cytolytic function of CD3CD16+ human natural killer cells.
Int J Cancer. 44 (4): 727-30.
Zocchi, M.R. et al. (1998) HIV-1 Tat inhibits human natural killer cell function by blocking L-type calcium channels.
J Immunol. 161: 2938-43.
Ciccone, E. et al. (1990) Specific recognition of human CD3-CD16+ natural killer cells requires the expression of an autosomic recessive gene on target cells.
J Exp Med. 172 (1): 47-52.
Boysen, P. et al. (2008) Natural killer cells in lymph nodes of healthy calves express CD16 and show both cytotoxic and cytokine-producing properties.
Dev Comp Immunol. 32: 773-83.
Hernández-Caselles, T. et al. (2006) A study of CD33 (SIGLEC-3) antigen expression and function on activated human T and NK cells: two isoforms of CD33 are generated by alternative splicing.
J Leukoc Biol. 79: 46-58.
Elhmouzi-Younes, J. et al. (2010) Ovine CD16+/CD14- blood lymphocytes present all the major characteristics of natural killer cells.
Vet Res. 41 (1): 4.
Connelley, T. et al. (2011) NKp46 defines ovine cells that have characteristics corresponding to NK cells.
Vet Res. 42: 37.
Cantón, G.J. et al. (2013) Phenotypic characterisation of the cellular immune infiltrate in placentas of cattle following experimental inoculation with Neospora caninum in late gestation.
Vet Res. 44: 60.
View The Latest Product References
Pomeroy, B. et al. (2016) Longitudinal characterization of bovine monocyte-derived dendritic cells from mid-gestation into subsequent lactation reveals nadir in phenotypic maturation and macrophage-like cytokine profile in late gestation.
J Reprod Immunol. 118: 1-8.
Pomeroy, B. et al. (2017) Counts of bovine monocyte subsets prior to calving are predictive for postpartum occurrence of mastitis and metritis.
Vet Res. 48 (1): 13.
Gibson, A.J. et al. (2016) Differential macrophage function in Brown Swiss and Holstein Friesian cattle.
Vet Immunol Immunopathol. 181: 15-23.
Elnaggar, M.M. et al. (2017) Identification of monoclonal antibodies cross-reactive with bottlenose dolphin orthologues of the major histocompatibility complex and leukocyte differentiation molecules.
Vet Immunol Immunopathol. 192: 54-9.
Elnaggar, M.M. et al. (2019) Pattern of CD14, CD16, CD163 and CD172a expression on water buffalo (Bubalus bubalis.) leukocytes.
Vet Immunol Immunopathol. 211: 1-5.
Fiorenza, M.F. et al. (2021) Neutrophils recognize and amplify IFNT signals derived from day 7 bovine embryo for stimulation of ISGs expression in vitro.: A possible implication for the early maternal recognition of pregnancy.
Biochem Biophys Res Commun. 553: 37-43.
Park, D.S. et al. (2021) Dynamic changes in blood immune cell composition and function in Holstein and Jersey steers in response to heat stress.
Cell Stress Chaperones. 26 (4): 705-20.
Kolar, Q.K. et al. (2020) Anatomical distribution of respiratory tract leukocyte cell subsets in neonatal calves.
Vet Immunol Immunopathol. 227: 110090.
Liu, J. et al. (2020) Theileria annulata. transformation altered cell surface molecules expression and endocytic function of monocyte-derived dendritic cells.
Ticks Tick Borne Dis. 11 (3): 101365.
- Entrez Gene
- GO Terms
- GO:0005886 plasma membrane
- GO:0005576 extracellular region
- GO:0004872 receptor activity
- GO:0006955 immune response
- GO:0031225 anchored to membrane
- GO:0019864 IgG binding
- GO:0016021 integral to membrane
- GO:0050776 regulation of immune response
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