p38 MAPK Recombinant Rabbit monoclonal Antibody IgG
Fig1: Western blot analysis of p38 MAPK on different lysates using anti-p38 MAPK antibody at 1/1,000 dilution.
Lane 1: NIH/3T3
Lane 2: Human brain
Lane 3: 293
Fig2: ICC staining p38 MAPK in Hela cells (red). The nuclear counter stain is DAPI (blue). Cells were fixed in paraformaldehyde, permeabilised with 0.25% Triton X100/PBS.
Fig3: ICC staining p38 MAPK in NIH/3T3 cells (red). The nuclear counter stain is DAPI (blue). Cells were fixed in paraformaldehyde, permeabilised with 0.25% Triton X100/PBS.
Host Species; Species ReactivityRabbit; Human, Mouse, Rat
Application SummaryWB, ICC/IF, IHC
Purification; FormulationProA affinity purified; 1*TBS (pH7.4), 1%BSA, 40%Glycerol. Preservative: 0.05% Sodium Azide.; Liquid form.
ALTnamesMitogen-activated protein kinase 14, Cytokine suppressive anti-inflammatory drug-binding protein, MAP kinase MXI2, MAX-interacting protein 2, Mitogen-activated protein kinase p38 alpha, Stress-activated protein kinase 2a
BackgroundMAP (mitogen-activated protein) kinases play a significant role in many biological processes, including cell adhesion and spreading, cell differentiation and apoptosis. p38α, p38β and p38γ, also known as MAPK14, MAPK11 and MAPK12, respectively, each contain one protein kinase domain and belong to the MAP kinase family. Expressed in different areas throughout the body with common expression patterns in heart, p38 proteins use magnesium as a cofactor to catalyze the ATP-dependent phosphorylation of target proteins. Via their catalytic activity, p38α, p38β and p38γ are involved in a variety of events throughout the cell, including signal transduction pathways, cytokine production and cell proliferation and differentiation. The p38 proteins are subject to phosphoryation on Thr and Tyr residues, an event which is thought to activate the phosphorylated protein.(ET1702-65)