CD8 Alpha antibody | MIL12
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|Mouse anti Pig wCD8 alpha antibody, clone MIL12 recognizes an epitope on the alpha chain of porcine wCD8. Clone MIl12 was clustered at the Third International Swine CD Workshop (Haverson et al. 2001). Mouse anti Pig wCD8 alpha antibody, clone MIL12 was determined to bind to the CD8a epitope on the alpha chain based on its staining pattern on T lymphocytes and on its ability to block binding of the previously characterized CD8a antibody clone 76-2-11 to T lymphocytes (Saalmuller et al.2001).|
- Target Species
- Product Form
- Purified IgG conjugated to R. Phycoerythrin (RPE) - lyophilized
- Reconstitute with 1.0 ml distilled water
- Purified IgG prepared by affinity chromatography on Protein A from tissue culture supernatant
- Buffer Solution
- Phosphate buffered saline
- Preservative Stabilisers
0.09% Sodium Azide 1% Bovine Serum Albumin 5% Sucrose
- Porcine mesenteric lymphocytes.
- Fusion Partners
- Spleen cells from immunised BALB/c mice were fused with cells of the P3 - X63 - Ag.653 myeloma cell line.
- Max Ex/Em
Fluorophore Excitation Max (nm) Emission Max (nm) RPE 488nm laser 496 578
- For research purposes only
- 12 months from date of despatch
DO NOT FREEZE.
This product should be stored undiluted. This product is photosensitive and should be protected from light. Should this product contain a precipitate we recommend microcentrifugation before use.
|Application Name||Verified||Min Dilution||Max Dilution|
- Flow Cytometry
- Use 10ul of the suggested working dilution to label 106 cells in 100ul.
How to Use the SpectraviewerWatch the Tool Tutorial Video ▸
- Start by selecting the application you are interested in, with the option to select an instrument from the drop down menu or create a customized instrument
- Select the fluorophores or fluorescent proteins you want to include in your panel to check compatibility
- Select the lasers and filters you wish to include
- Select combined or multi-laser view to visualize the spectra
References for CD8 Alpha antibody
Sarradell, J. et al. (2003) A morphologic and immunohistochemical study of the bronchus-associated lymphoid tissue of pigs naturally infected with Mycoplasma hyopneumoniae.
Vet Pathol. 40: 395-404.
Kick, A.R. et al. (2011) Evaluation of peripheral lymphocytes after weaning and vaccination for Mycoplasma hyopneumoniae.
Res Vet Sci. 91 (3): e68-72.
Tambuyzer, B.R. et al. (2012) Osteopontin alters the functional profile of porcine microglia in vitro.
Cell Biol Int. 36 (12): 1233-8.
Cao, D. et al. (2010) Synthetic innate defence regulator peptide enhances in vivo immunostimulatory effects of CpG-ODN in newborn piglets.
Vaccine. 28: 6006-13.
Clapperton, M. et al. (2005) Innate immune traits differ between Meishan and Large White pigs.
Vet Immunol Immunopathol. 104: 131-44.
Goujon, J.M. et al. (2000) Influence of cold-storage conditions on renal function of autotransplanted large pig kidneys.
Kidney Int. 58: 838-50.
Piva, A. et al. (2005) Activated carbon does not prevent the toxicity of culture material containing fumonisin B1 when fed to weanling piglets.
J Anim Sci. 83 (8): 1939-47.
Hauet, T. et al. (2002) Polyethylene glycol reduces the inflammatory injury due to cold ischemia/reperfusion in autotransplanted pig kidneys.
Kidney Int. 62: 654-67.
View The Latest Product References
Kick, A.R. et al. (2012) Effects of stress associated with weaning on the adaptive immune system in pigs.
J Anim Sci. 90: 649-56.
Shi, K. et al. (2008) Changes in peripheral blood leukocyte subpopulations in piglets co-infected experimentally with porcine reproductive and respiratory syndrome virus and porcine circovirus type 2.
Vet Microbiol. 129: 367-77.
Spreeuwenberg, M.A. et al. (2001) Small intestine epithelial barrier function is compromised in pigs with low feed intake at weaning.
J Nutr. 131: 1520-7.
Clapperton, M. et al. (2008) Pig peripheral blood mononuclear leucocyte subsets are heritable and genetically correlated with performance.
Animal. 2: 1575-84.
Leifer, I. et al. (2012) Characterization of C-strain "Riems" TAV-epitope escape variants obtained through selective antibody pressure in cell culture.
Vet Res. 43: 33.
Tuchscherer, M. et al. (2012) Effects of inadequate maternal dietary protein:carbohydrate ratios during pregnancy on offspring immunity in pigs.
BMC Vet Res. 8: 232.
Lu, X. et al. (2012) Genome-wide association study for T lymphocyte subpopulations in swine.
BMC Genomics. 13: 488.
Swamy, H.V. et al. (2003) Effects of feeding a blend of grains naturally contaminated with Fusarium mycotoxins on growth and immunological measurements of starter pigs, and the efficacy of a polymeric glucomannan mycotoxin adsorbent.
J Anim Sci. 81: 2792-803.
Monroy-Salazar, H.G. et al. (2012) Effects of a live yeast dietary supplement on fecal coliform counts and on peripheral blood CD4+ and CD8+ lymphocyte subpopulations in nursery pigs.
J Swine Health Prod. 20: 276–282.
Ostrowska, E. et al. (2004) Effects of dietary conjugated linoleic acid on haematological and humoral responses in the grower pig.
Australian Journal of Agricultural Research 55: 711–718
Carter, D.B. et al. (2002) Phenotyping of transgenic cloned piglets.
Cloning Stem Cells. 4: 131-45.
Stenfeldt, C. et al. (2014) Morphologic and phenotypic characteristics of myocarditis in two pigs infected by foot-and mouth disease virus strains of serotypes O or A.
Acta Vet Scand. 56: 42.
Zeigler, B.M. et al. (2015) The development and validation of methods for evaluating the immune system in preweaning piglets.
Food Chem Toxicol. 84: 197-207.
Pasternak, J. A. (2014) Grouping Pig-Specific Responses to Mitogen with Similar Responder Animals may Facilitate the Interpretation of Results Obtained in an Out-Bred Animal Model
Journal of Vaccines & Vaccination. 05 (05).
Marinaro M et al. (2015) Changes in peripheral blood leucocytes of sheep experimentally infected with Mycoplasma agalactiae.
Vet Microbiol. 175 (2-4): 257-64.
Liermann, W. et al. (2016) Effects of two commercial diets and technical feed treatment on stomach lesions and immune system of fattening pigs.
J Anim Physiol Anim Nutr (Berl). Nov 2. [Epub ahead of print]
Hemmink, J.D. et al. (2016) Distinct immune responses and virus shedding in pigs following aerosol, intra-nasal and contact infection with pandemic swine influenza A virus, A(H1N1)09.
Vet Res. 47 (1): 103.
López, E. et al. (2019) Identification of very early inflammatory markers in a porcine myocardial infarction model.
BMC Vet Res. 15 (1): 91.
Hu, Z. et al. (2019) Genomic variant in porcine TNFRSF1A gene and its effects on TNF signaling pathway in vitro.
Gene. 700: 105-9.
Fogle, J.E. et al. (2019) Antibiotic Therapy Does Not Alter the Humoral Response to Vaccination for Porcine Circovirus 2 in Weaned Pigs.
Vet Sci. 6 (2)May 30 [Epub ahead of print].
Nielsen, O.L. et al. (2021) A porcine model of subcutaneous Staphylococcus aureus. infection: a pilot study.
APMIS. Mar 01 [Epub ahead of print].
Maciag, S.S. et al. (2022) The influence of source of porcine colostrum in development of early immune ontogeny in the piglet
Ref Sq. Mar 24 [Epub ahead of print].
Piriou-Guzylack, L. (2008) Membrane markers of the immune cells in swine: an update.
Vet Res. 39: 54.
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