• Flow cytometric analysis of Hela cells using GSK3 Beta monoclonal antibody (green) and negative control (purple).
  • Immunohistochemistry analysis of paraffin-embedded human lung cancer (left) and breast cancer tissues (right) with DAB staining using GSK3 Beta monoclonal antibody.
  • Immunofluorescence analysis of NIH/3T3 (left) and U251 (right) cells using GSK3 Beta monoclonal antibody (green). Blue: DRAQ5 fluorescent DNA dye. Red: Actin filaments have been labeled with Alexa Fluor-555 phalloidin.
  • Western blot analysis using GSK3 Beta monoclonal antibody against A549 (1) , K562 (2) , PC-12 (3) , NIH/3T3 (4) , and HEK293 (5) cell lysate.

Anti-GSK3B antibody [3D10] (STJ98120)

SKU:
STJ98120

Current Stock:
Host: Mouse
Applications: WB/IHC/IF/FC/ELISA
Reactivity: Human/Mouse/Rat/Monkey
Note: STRICTLY FOR FURTHER SCIENTIFIC RESEARCH USE ONLY (RUO). MUST NOT TO BE USED IN DIAGNOSTIC OR THERAPEUTIC APPLICATIONS.
Short Description: Mouse monoclonal antibody anti-Glycogen synthase kinase-3 beta is suitable for use in Western Blot, Immunohistochemistry, Immunofluorescence, Flow Cytometry and ELISA research applications.
Clonality: Monoclonal
Clone ID: 3D10
Conjugation: Unconjugated
Isotype: IgG2a
Formulation: Liquid in PBS containing 0.03% Sodium Azide, 0.5% BSA, 50% Glycerol.
Purification: Affinity purification
Dilution Range: WB 1:500-1:2000
IHC 1:200-1:1000
IF 1:200-1:1000
FC 1:200-1:400
ELISA 1:10000
Storage Instruction: Store at-20°C for up to 1 year from the date of receipt, and avoid repeat freeze-thaw cycles.
Gene Symbol: GSK3B
Gene ID: 2932
Uniprot ID: GSK3B_HUMAN
Specificity: GSK3 Beta Monoclonal Antibody detects endogenous levels of GSK3 Beta protein.
Immunogen: Purified recombinant fragment of human GSK3 Beta expressed in E. Coli.
Post Translational Modifications Phosphorylated by AKT1 and ILK1. Upon insulin-mediated signaling, the activated PKB/AKT1 protein kinase phosphorylates and deactivates GSK3B, resulting in the dephosphorylation and activation of GYS1. Activated by phosphorylation at Tyr-216. Inactivated by phosphorylation at Ser-9 (Probable). Phosphorylated in a circadian manner in the hippocampus. Mono-ADP-ribosylation by PARP10 negatively regulates kinase activity.
Function Constitutively active protein kinase that acts as a negative regulator in the hormonal control of glucose homeostasis, Wnt signaling and regulation of transcription factors and microtubules, by phosphorylating and inactivating glycogen synthase (GYS1 or GYS2), EIF2B, CTNNB1/beta-catenin, APC, AXIN1, DPYSL2/CRMP2, JUN, NFATC1/NFATC, MAPT/TAU and MACF1. Requires primed phosphorylation of the majority of its substrates. In skeletal muscle, contributes to insulin regulation of glycogen synthesis by phosphorylating and inhibiting GYS1 activity and hence glycogen synthesis. May also mediate the development of insulin resistance by regulating activation of transcription factors. Regulates protein synthesis by controlling the activity of initiation factor 2B (EIF2BE/EIF2B5) in the same manner as glycogen synthase. In Wnt signaling, GSK3B forms a multimeric complex with APC, AXIN1 and CTNNB1/beta-catenin and phosphorylates the N-terminus of CTNNB1 leading to its degradation mediated by ubiquitin/proteasomes. Phosphorylates JUN at sites proximal to its DNA-binding domain, thereby reducing its affinity for DNA. Phosphorylates NFATC1/NFATC on conserved serine residues promoting NFATC1/NFATC nuclear export, shutting off NFATC1/NFATC gene regulation, and thereby opposing the action of calcineurin. Phosphorylates MAPT/TAU on 'Thr-548', decreasing significantly MAPT/TAU ability to bind and stabilize microtubules. MAPT/TAU is the principal component of neurofibrillary tangles in Alzheimer disease. Plays an important role in ERBB2-dependent stabilization of microtubules at the cell cortex. Phosphorylates MACF1, inhibiting its binding to microtubules which is critical for its role in bulge stem cell migration and skin wound repair. Probably regulates NF-kappa-B (NFKB1) at the transcriptional level and is required for the NF-kappa-B-mediated anti-apoptotic response to TNF-alpha (TNF/TNFA). Negatively regulates replication in pancreatic beta-cells, resulting in apoptosis, loss of beta-cells and diabetes. Through phosphorylation of the anti-apoptotic protein MCL1, may control cell apoptosis in response to growth factors deprivation. Phosphorylates MUC1 in breast cancer cells, decreasing the interaction of MUC1 with CTNNB1/beta-catenin. Is necessary for the establishment of neuronal polarity and axon outgrowth. Phosphorylates MARK2, leading to inhibition of its activity. Phosphorylates SIK1 at 'Thr-182', leading to sustainment of its activity. Phosphorylates ZC3HAV1 which enhances its antiviral activity. Phosphorylates SNAI1, leading to its BTRC-triggered ubiquitination and proteasomal degradation. Phosphorylates SFPQ at 'Thr-687' upon T-cell activation. Phosphorylates NR1D1 st 'Ser-55' and 'Ser-59' and stabilizes it by protecting it from proteasomal degradation. Regulates the circadian clock via phosphorylation of the major clock components including BMAL1, CLOCK and PER2. Phosphorylates FBXL2 at 'Thr-404' and primes it for ubiquitination by the SCF(FBXO3) complex and proteasomal degradation. Phosphorylates CLOCK AT 'Ser-427' and targets it for proteasomal degradation. Phosphorylates BMAL1 at 'Ser-17' and 'Ser-21' and primes it for ubiquitination and proteasomal degradation. Phosphorylates OGT at 'Ser-3' or 'Ser-4' which positively regulates its activity. Phosphorylates MYCN in neuroblastoma cells which may promote its degradation. Regulates the circadian rhythmicity of hippocampal long-term potentiation and BMAL1 and PER2 expression. Acts as a regulator of autophagy by mediating phosphorylation of KAT5/TIP60 under starvation conditions, activating KAT5/TIP60 acetyltransferase activity and promoting acetylation of key autophagy regulators, such as ULK1 and RUBCNL/Pacer. Negatively regulates extrinsic apoptotic signaling pathway via death domain receptors. Promotes the formation of an anti-apoptotic complex, made of DDX3X, BRIC2 and GSK3B, at death receptors, including TNFRSF10B. The anti-apoptotic function is most effective with weak apoptotic signals and can be overcome by stronger stimulation. Phosphorylates E2F1, promoting the interaction between E2F1 and USP11, stabilizing E2F1 and promoting its activity. Phosphorylates mTORC2 complex component RICTOR at 'Thr-1695' which facilitates FBXW7-mediated ubiquitination and subsequent degradation of RICTOR. Phosphorylates FXR1, promoting FXR1 ubiquitination by the SCF(FBXO4) complex and FXR1 degradation by the proteasome. Phosphorylates interleukin-22 receptor subunit IL22RA1, preventing its proteasomal degradation.
Protein Name Glycogen Synthase Kinase-3 Beta
Gsk-3 Beta
Serine/Threonine-Protein Kinase Gsk3b
Database Links Reactome: R-HSA-195253
Reactome: R-HSA-196299
Reactome: R-HSA-198323
Reactome: R-HSA-3371453
Reactome: R-HSA-399956
Reactome: R-HSA-4641262
Reactome: R-HSA-5250924
Reactome: R-HSA-5339716
Reactome: R-HSA-5358747
Reactome: R-HSA-5358749
Reactome: R-HSA-5358751
Reactome: R-HSA-5358752
Reactome: R-HSA-5467337
Reactome: R-HSA-5467340
Reactome: R-HSA-5467348
Reactome: R-HSA-5610783
Reactome: R-HSA-5610785
Reactome: R-HSA-5674400
Reactome: R-HSA-75815
Reactome: R-HSA-8939902
Reactome: R-HSA-9683610
Reactome: R-HSA-9694631
Reactome: R-HSA-9762114
Cellular Localisation Cytoplasm
Nucleus
Cell Membrane
The Phosphorylated Form Shows Localization To Cytoplasm And Cell Membrane
The Memo1-Rhoa-Diaph1 Signaling Pathway Controls Localization Of The Phosphorylated Form To The Cell Membrane
Alternative Antibody Names Anti-Glycogen Synthase Kinase-3 Beta antibody
Anti-Gsk-3 Beta antibody
Anti-Serine/Threonine-Protein Kinase Gsk3b antibody
Anti-GSK3B antibody

Information sourced from Uniprot.org

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