All SIRP gamma reagents are produced in house and quality controlled, including 3 SIRP gamma Antibody, 28 SIRP gamma Gene, 4 SIRP gamma Lysate, 4 SIRP gamma Protein, 1 SIRP gamma qPCR. All SIRP gamma reagents are ready to use.
Recombinant SIRP gamma proteins are expressed by HEK293 Cells with fusion tags as C-His, C-human IgG1-Fc.
SIRP gamma antibodies are validated with different applications, which are WB, ELISA.
SIRP gamma cDNA clones are full length sequence confirmed and expression validated. There are 13 kinds of tags for each SIRP gamma of different species, especially GFP tag, OFP tag, FLAG tag and so on. There are three kinds of vectors for choice, cloning vector, expression vector and lentivrial expression vector.
Signal-regulatory protein gamma (SIRPG/SIRP gamma) also known as CD172 antigen-like family member B, CD172g, and CD172g antigen, is a member of the signal-regulatory protein (SIRP) family, and also belongs to the immunoglobulin superfamily. SIRP family members are receptor-type transmembrane glycoproteins known to be involved in the negative regulation of receptor tyrosine kinase-coupled signaling processes. SIRPG/SIRP gamma/CD172g is probable immunoglobulin-like cell surface receptor. On binding with CD47, SIRPG can mediate cell-cell adhesion. SIRPG/SIRP gamma is engagement on T-cells by CD47 on antigen-presenting cells results in enhanced antigen-specific T-cell proliferation and costimulates T-cell activation. SIRPG/SIRP gamma/CD172g is detected in liver, and at very low levels in brain, heart, lung, pancreas, kidney, placenta and skeletal muscle. Expressed on CD4+ T-cells, CD8+ T-cells, CD56-bright natural killer (NK) cells, CD2+ cells, and all activated NK cells. This cytokine is mainly present in the paracortical T-cell area of lymph nodes, with only sparse positive cells in the mantle and in the germinal center of B-cell follicles. In the thymus, SIRPG is primarily expressed in the medulla on mature T-lymphocytes that have undergone thymic selection.
SIRP gamma References
Meador JA, et al. (2011) p53-independent downregulation of histone gene expression in human cell lines by high- and low-let radiation. Radiat Res. 175(6): 689-99.
Reddy MV, et al. (2011) Association between type 1 diabetes and GWAS SNPs in the southeast US Caucasian population. Genes Immun. 12(3): 208-12.
Kawasaki M, et al. (2009) Changes in the gene expression of peripheral blood mononuclear cells during the menstrual cycle of females is associated with a gender bias in the incidence of systemic lupus erythematosus. Clin Exp Rheumatol. 27(2): 260-6.