Anti-Mouse CD45 (Clone 30-F11) – Purified No Carrier Protein

Anti-Mouse CD45 (Clone 30-F11) – Purified No Carrier Protein

Product No.: C830

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Clone
30-F11
Target
Human CD45
Formats AvailableView All
Product Type
Recombinant Monoclonal Antibody
Alternate Names
CD45
Isotype
Rat IgG2b κ
Applications
FC
,
IHC
,
IP
,
WB

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Select Product Size
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Antibody Details

Product Details

Reactive Species
Mouse
Host Species
Rat
Immunogen
Mouse thymus or spleen
Product Concentration
≥1.0 mg/ml
Purity
≥90% monomer by analytical SEC and SDS-Page
Formulation
This monoclonal antibody is aseptically packaged and formulated in 0.01 M phosphate buffered saline (150 mM NaCl) PBS pH 7.2 - 7.4 with no carrier protein, potassium, calcium or preservatives added.
State of Matter
Liquid
Storage and Handling
This antibody may be stored sterile as received at 2-8°C for up to one month. For longer term storage, aseptically aliquot in working volumes without diluting and store at -80°C. Avoid Repeated Freeze Thaw Cycles.
Regulatory Status
Research Use Only
Country of Origin
USA
Shipping
2 – 8° C Wet Ice
Additional Applications Reported In Literature ?
FC,
IHC,
IP,
WB
Each investigator should determine their own optimal working dilution for specific applications. See directions on lot specific datasheets, as information may periodically change.

Description

Description

Specificity
30-F11 recognizes all murine CD45 isoforms.
Background
CD45 is a receptor protein tyrosine phosphatase involved in immune cell activation 1 . It is a large glycoprotein (180-220 kDa) with a broad range of expression in the animal kingdom, including mammals, chicken, shark, and mosquitoes. The cytoplasmic region of CD45 is highly conserved in mammals but its extracellular region varies between species. Additionally, differential splicing leads to several CD45 isoforms which can vary in glycosylation, which in turn can affect CD45 ligand interaction and function. In T cells, isoform expression is dependent on the stage of T cell maturation, activation, and differentiation.

CD45 functions in the immunological synapse of the T cell-antigen presenting cell contact zone that is formed when T cells encounter cognate antigens presented by major histocompatibility (MHC) molecules 1. CD45 interacts with Src kinases, in particular Lck, to mediate antigen receptor signaling in T and B cells, and is required for the development and activation of lymphocytes. CD45 also interacts with CD3ζ and CD3ε chains as well as tyrosine kinase Zap 70, DAP12, the Janus kinase family, PAG, CD22, among others. With these interactions, CD45 functions to protect the host against viral, bacterial, and fungal infections.

Certain variants of CD45 are associated with autoimmune disease and dysregulation is observed in some cancers 1. CD45 has been explored as a target of therapeutic modulation for organ transplantation1, 2, autoimmune disease 1, bone marrow transfusion3, 4, 5, 6as well as cancer radioimmunotherapy7, 8, including a bispecific antibody targeting CD45 and 90 Y-DOTA for therapy of myeloid leukemia 9.

CD45 is also known as leukocyte common antigen (LCA), lymphocyte antigen 5 (Ly-5) and T20010.
Antigen Distribution
CD45 is expressed on the surface of all nucleated hematopoietic cells and their precursors, except mature erythrocytes and platelets.
Ligand/Receptor
Galectin-1, CD2, CD3, CD4, TCR, CD22, Thy-1
NCBI Gene Bank ID
UniProt.org
Research Area
Biomarker
.
Cancer
.
Immunology

References & Citations

1 Rheinländer A, Schraven B, Bommhardt U. Immunol Lett. 196:22-32. 2018.
2 Orozco JJ, Kenoyer A, Balkin ER, et al. Blood. 127(3):352-359. 2016.
3 Ruffner KL, Martin PJ, Hussell S, et al. Cancer Res. 61(13):5126-5131. 2001.
4 Matthews DC, Badger CC, Fisher DR, et al. Cancer Res. 52(5):1228-1234. 1992.
5 Matthews DC, Martin PJ, Nourigat C, et al. Blood. 93(2):737-745. 1999.
6 Koronyo-Hamaoui M, Sheyn J, Hayden EY, et al. Brain. 143(1):336-358. 2020.
7 Orozco JJ, Balkin ER, Gooley TA, et al. PLoS One. 9(12):e113601. 2014.
8 Dawicki W, Allen KJH, Garg R, et al. Oncotarget. 11(39):3571-3581. 2020.
9 Orozco JJ, Kenoyer AL, Lin Y, et al. Mol Cancer Ther. 19(12):2575-2584. 2020.
10 https://www.uniprot.org/uniprotkb/P06800/entry
11 Coles MC, Veiga-Fernandes H, Foster KE, et al. Proc Natl Acad Sci U S A. 103(36):13457- 13462. 2006.
12 Wilbur DS, Thakar MS, Hamlin DK, et al. Bioconjug Chem. 20(10):1983-1991. 2009.
Flow Cytometry
IHC
Immunoprecipitation Protocol
General Western Blot Protocol

Certificate of Analysis

Disclaimer AlertProducts are for research use only. Not for use in diagnostic or therapeutic procedures.