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CyFlow™ CD56 PE

CyFlow™ CD56 PE
Antigen: CD56
Alternative Name: NCAM
Clone: MEM-188
Application: Flow cytometry
Format/Fluorochrome: PE
Laser: Blue, Green, Yellow
Target Species: Human, Non-Human Primates
Field of Interest: Immunophenotyping
Species of Origin: Mouse
Regulatory Status: RUO
Clonality: monoclonal
Emission Maximum: 576 nm
Excitation Maximum: 496 nm, 565 nm
Isotype: IgG2a
Order number: CT856605

For Research Use Only
Not for use in diagnostic or therapeutic procedures.

Quantity 100 tests Volume 2 Immunogen Human Acute Myelogenous Leukemia (AML) KG-1... more
CyFlow™ CD56 PE
Quantity100 tests
Volume2
ImmunogenHuman Acute Myelogenous Leukemia (AML) KG-1 cells
Background InformationCD56 (NCAM; neural cell adhesion molecule) is a transmembrane glycoprotein of immunoglobulin family serving as adhesive molecule which is ubiquitously expressed in nervous system, usually as 120 kDa, 140 kDa or 180 kDa isoform, and it is also found on T cells and NK cells. Polysialic modification results in reduction of CD56-mediated cell adhesion and is involved in cell migration, axonal growth, pathfinding and synaptic plasticity. CD56 is a widely used neuroendocrine marker with a high sensitivity for neuroendocrine tumours and ovarian granulosa cell tumors.
UsageThe reagent is designed for Flow Cytometry analysis of human blood cells. Recommended usage is 20·µl reagent·/ 100·µl of whole blood or 10^6 cells in a suspension. The content of a vial (2 ml) is sufficient for 100 tests.
Storage BufferThe reagent is provided in stabilizing phosphate buffered saline (PBS) solution, pH ≈7.4, containing 0.09% (w/v) sodium azide.
StorageAvoid prolonged exposure to light. Store in the dark at 2-8°C. Do not freeze.
StabilityDo not use after expiration date stamped on vial label.

Specific References

| Lanier LL, Chang C, Azuma M, Ruitenberg JJ, Hemperly JJ, Phillips JH: Molecular and functional analysis of human natural killer cell‑associated neural cell adhesion molecule (N‑CAM/CD56). J·Immunol. 1991·Jun·15; 146(12):4421‑6. <·PMID:·1710251·> | Kishimoto T, Goyert S, Kikutani H, Mason D, Miyasaka M, Moretta L, Ohno T, Okumura K, Shaw S, Springer TA, Sugamura K, Sugawara H, von dem Borne AEGK, Zola H (Eds): Leucocyte Typing VI. Garland·Publishing·Inc,·New·York. 1997; 1‑1342. <·NLM·ID:·9712219·> | Mason D, Simmons D, Buckley C, Schwartz-Albiez R, Hadam M, Saalmuller A, Clark E, Malavasi F, Morrissey JA (Eds): Leucocyte Typing VII. Oxford·University·Press. 2002; 1‑945. <·NLM·ID:·101177131·> | Brdicka T, Imrich M, Angelisová P, Brdicková N, Horváth O, Spicka J, Hilgert I, Lusková P, Dráber P, Novák P, Engels N, Wienands J, Simeoni L, Osterreicher J, Aguado E, Malissen M, Schraven B, Horejsí V: Non‑T cell activation linker (NTAL): a transmembrane adaptor protein involved inimmunoreceptor signaling. J·Exp·Med. 2002·Dec·16; 196(12):1617‑26. <·PMID:·12486104·> | Brdicková N, Brdicka T, Angelisová P, Horváth O, Spicka J, Hilgert I, Paces J, Simeoni L, Kliche S, Merten C, Schraven B, Horejsí V: LIME: a new membrane Raft‑associated adaptor protein involved in CD4 and CD8 coreceptor signaling. J·Exp·Med. 2003·Nov·17; 198(10):1453‑62. <·PMID:·14610046·> | Lin CW, Liu TY, Chen SU, Wang KT, Medeiros LJ, Hsu SM: CD94 1A transcripts characterize lymphoblastic lymphoma/leukemia of immature natural killer cell origin with distinct clinical features. Blood. 2005·Nov·15; 106(10):3567‑74. <·PMID:·16046525·> | Drbal K, Moertelmaier M, Holzhauser C, Muhammad A, Fuertbauer E, Howorka S, Hinterberger M, Stockinger H, Schütz GJ: Single‑molecule microscopy reveals heterogeneous dynamics of lipid raft components upon TCR engagement. Int·Immunol. 2007·May; 19(5):675‑84. <·PMID:·17446208·> | Yates J, Rovis F, Mitchell P, Afzali B, Tsang JY, Garin M, Lechler RI, Lombardi G, Garden OA: The maintenance of human CD4+ CD25+ regulatory T cell function: IL‑2, IL‑4, IL‑7 and IL‑15 preserve optimal suppressive potency in vitro. Int·Immunol. 2007·Jun; 19(6):785‑99. <·PMID:·17545278·> | McCluggage WG, McKenna M, McBride HA: CD56 is a sensitive and diagnostically useful immunohistochemical marker of ovarian sex cord‑stromal tumors. Int·J·Gynecol·Pathol. 2007·Jul; 26(3):322‑7. <·PMID:·17581419·> | Ohishi Y, Kaku T, Oya M, Kobayashi H, Wake N, Tsuneyoshi M: CD56 expression in ovarian granulosa cell tumors, and its diagnostic utility and pitfalls. Gynecol·Oncol. 2007·Oct; 107(1):30‑8. <·PMID:·17583777·> | Jakovcevski I, Mo Z, Zecevic N: Down‑regulation of the axonal polysialic acid‑neural cell adhesion molecule expression coincides with the onset of myelination in the human fetal forebrain. Neuroscience. 2007·Oct·26; 149(2):328‑37. <·PMID:·17900814·> | Olsen I, Tollefsen S, Aagaard C, Reitan LJ, Bannantine JP, Andersen P, Sollid LM, Lundin KE: Isolation of Mycobacterium avium subspecies paratuberculosis reactive CD4 T cells from intestinal biopsies of Crohn's disease patients.. PLoS·One. 2009·May·22; 4(5):e5641. <·PMID:·19479064·> | Hovden AO, Karlsen M, Jonsson R, Aarstad HJ, Appel S: Maturation of monocyte derived dendritic cells with OK432 boosts IL‑12p70 secretion and conveys strong T‑cell responses. BMC·Immunol. 2011·Jan·5; 12:2. <·PMID:·21208424·> | Kanderova V, Kuzilkova D, Stuchly J, Vaskova M, Brdicka T, Fiser K, Hrusak O, Lund‐Johansen F, Kalina T: High‐resolution antibody array analysis of childhood acute leukemia cells. Mol·Cell·Proteomics. 2016·Apr·1; 15(4):1246‐61. <·PMID:·26785729·>