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Key Product Details

Species Reactivity

Human, Mouse, Rat

Applications

Immunocytochemistry/ Immunofluorescence, Western Blot

Label

Unconjugated

Antibody Source

Monoclonal Mouse IgG1 Clone # 66C1247

Concentration

1.0 mg/ml

Product Specifications

Immunogen

This monoclonal antibody was raised against a synthetic peptide corresponding to amino acid residues 119-136 (CSPTSQIDNIGEEEMDAS) of human Akt3, GenBank no. gi|4574744|gb|AAD24196.1|AF135794_1. This sequence is identical in human, mouse, rat, cow, dog, and chicken.

Localization

Cytoplasmic and membrane-associated after cell stimulation leading to its translocation.

Clonality

Monoclonal

Host

Mouse

Isotype

IgG1

Scientific Data Images for AKT3 Antibody (66C1247)

Western Blot: AKT3 Antibody (66C1247) [NB600-1298]

Western Blot: AKT3 Antibody (66C1247) [NB600-1298]

Western Blot: AKT3 Antibody (66C1247) [NB600-1298] - Analysis for AKT3 using NB600-1298 at 2 ug/ml dilution against 30 ug/lane of human kidney lysate.

Applications for AKT3 Antibody (66C1247)

Application
Recommended Usage

Western Blot

1:100-1:2000
Application Notes
Western Blot: Predicted molecular weight: 50 kDa.

Formulation, Preparation, and Storage

Purification

Protein G purified

Formulation

PBS

Preservative

0.05% Sodium Azide

Concentration

1.0 mg/ml

Shipping

The product is shipped with polar packs. Upon receipt, store it immediately at the temperature recommended below.

Stability & Storage

Store at 4C short term. Aliquot and store at -20C long term. Avoid freeze-thaw cycles.

Background: Akt3

AKT (also known as protein kinase B (PKB) and RAC (related to A and C kinases)) is a critical intracellular serine/threonine kinase that translates signals from extracellular stimuli including growth factors, cytokines and neurotransmitters (1). AKT signaling plays critical roles in cell growth, proliferation, survival and differentiation (1). It is also involved in organogenesis, angiogenesis and metabolism. Three mammalian AKT isoforms have been identified. The AKT pathway can be activated by any of the three members who share a high level of protein homology but are independently encoded by AKT1 (PKB alpha; 14q32.32), AKT2 (PKB beta; 19q13.2), or AKT3 (PKB gamma; 1q44) (1, 2). Each AKT family member contains an N-terminal pleckstrin homology (PH) domain, a central kinase domain, and a C-terminal regulatory domain. AKT mediates many of the downstream events of phosphatidylinositol 3-kinase (PI3-K), a lipid kinase activated by growth factors, cytokines and insulin. PI3-K recruits AKT to the membrane, where it is activated by PDK1 phosphorylation. AKT has two main phosphorylation sites (Ser473 and Thr308, predicted molecular weight 56 kDa) (3, 4). Once phosphorylated, AKT dissociates from the membrane and phosphorylates targets in the cytoplasm and the cell nucleus including mammalian target of rapamycin (mTOR).

The main function of AKT is to control inhibition of apoptosis and promote cell proliferation. Survival factors can activate AKT Ser473 and Thr308 phosphorylation sites in a transcription-independent manner, resulting in the inactivation of apoptotic signaling transduction through the tumor suppressor PTEN, an antagonist to PI3-K (5). PTEN exerts enzymatic activity as a phosphatidylinositol-3,4,5-trisphosphate (PIP3) phosphatase, opposing PI3K activity by decreasing availability of PIP3 to proliferating cells, leading to overexpression and inappropriate activation of AKT noted in many types of cancer.

AKT1 function has been linked to overall physiological growth and function (2). AKT1 has been correlated with proteus syndrome, a rare disorder characterized by overgrowth of various tissues caused by a mosaic variant in the AKT1 gene in humans.

AKT2 is strongly correlated with Type II diabetes, including phenotypes of insulin resistance, hyperglycemia and atherosclerosis (2, 6).

The function of AKT3 is specifically associated to brain development, where disruptions to AKT3 are correlated with microcephaly, hemimegalencephaly, megalencephaly and intellectual disabilities (2).

References

1. Ersahin, T., Tuncbag, N., & Cetin-Atalay, R. (2015). The PI3K/AKT/mTOR interactive pathway. Mol Biosyst, 11(7), 1946-1954. doi:10.1039/c5mb00101c

2. Cohen, M. M., Jr. (2013). The AKT genes and their roles in various disorders. Am J Med Genet A, 161a(12), 2931-2937. doi:10.1002/ajmg.a.36101

3. Georgescu, M. M. (2010). PTEN Tumor Suppressor Network in PI3K-Akt Pathway Control. Genes Cancer, 1(12), 1170-1177. doi:10.1177/1947601911407325

4. Mishra, P., Paital, B., Jena, S., Swain, S. S., Kumar, S., Yadav, M. K., . . . Samanta, L. (2019). Possible activation of NRF2 by Vitamin E/Curcumin against altered thyroid hormone induced oxidative stress via NFkB/AKT/mTOR/KEAP1 signalling in rat heart. Sci Rep, 9(1), 7408. doi:10.1038/s41598-019-43320-5

5. Wedel, S., Hudak, L., Seibel, J. M., Juengel, E., Oppermann, E., Haferkamp, A., & Blaheta, R. A. (2011). Critical analysis of simultaneous blockage of histone deacetylase and multiple receptor tyrosine kinase in the treatment of prostate cancer. Prostate, 71(7), 722-735. doi:10.1002/pros.21288

6. Rotllan, N., Chamorro-Jorganes, A., Araldi, E., Wanschel, A. C., Aryal, B., Aranda, J. F., . . . Fernandez-Hernando, C. (2015). Hematopoietic Akt2 deficiency attenuates the progression of atherosclerosis. Faseb j, 29(2), 597-610. doi:10.1096/fj.14-262097

Long Name

v-Akt Murine Thymoma Viral Oncogene Homolog 3

Alternate Names

PKB gamma, RAC-gamma

Entrez Gene IDs

10000 (Human); 23797 (Mouse); 29414 (Rat)

Gene Symbol

AKT3

UniProt

Additional Akt3 Products

Product Documents for AKT3 Antibody (66C1247)

Certificate of Analysis

To download a Certificate of Analysis, please enter a lot number in the search box below.

Product Specific Notices for AKT3 Antibody (66C1247)

This product is for research use only and is not approved for use in humans or in clinical diagnosis. Primary Antibodies are guaranteed for 1 year from date of receipt.

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