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Mouse Anti-CEBPA Recombinant Antibody (CBFYC-1694) (CBMAB-C1756-FY)

This product is mouse antibody that recognizes CEBPA. The antibody CBFYC-1694 can be used for immunoassay techniques such as: WB, IF.
See all CEBPA antibodies

Summary

Host Animal
Mouse
Specificity
Human, Mouse
Clone
CBFYC-1694
Antibody Isotype
IgG2a, k
Application
WB, IF

Basic Information

Immunogen
Synthetic peptide (AKQLALAGLFPYQPPPP) conjugated to KLH
Specificity
Human, Mouse
Antibody Isotype
IgG2a, k
Clonality
Monoclonal
Application Notes
The COA includes recommended starting dilutions, optimal dilutions should be determined by the end user.

Formulations & Storage [For reference only, actual COA shall prevail!]

Format
Liquid
Buffer
PBS, pH 7.2
Preservative
0.09% Sodium azide
Concentration
0.5 mg/mL
Storage
Store at +4°C short term (1-2 weeks). Aliquot and store at-20°C long term. Avoid repeated freeze/thaw cycles.

Target

Full Name
CCAAT/Enhancer Binding Protein Alpha
Introduction
This intronless gene encodes a transcription factor that contains a basic leucine zipper (bZIP) domain and recognizes the CCAAT motif in the promoters of target genes. The encoded protein functions in homodimers and also heterodimers with CCAAT/enhancer-binding proteins beta and gamma. Activity of this protein can modulate the expression of genes involved in cell cycle regulation as well as in body weight homeostasis. Mutation of this gene is associated with acute myeloid leukemia. The use of alternative in-frame non-AUG (GUG) and AUG start codons results in protein isoforms with different lengths. Differential translation initiation is mediated by an out-of-frame, upstream open reading frame which is located between the GUG and the first AUG start codons.
Entrez Gene ID
Human1050
Mouse12606
UniProt ID
HumanP49715
MouseP53566
Alternative Names
CCAAT/Enhancer Binding Protein Alpha; CCAAT/Enhancer Binding Protein (C/EBP), Alpha; CEBP; CCAAT/Enhancer-Binding Protein Alpha; C/EBP-Alpha; C/EBP Alpha
Function
Transcription factor that coordinates proliferation arrest and the differentiation of myeloid progenitors, adipocytes, hepatocytes, and cells of the lung and the placenta. Binds directly to the consensus DNA sequence 5'-T[TG]NNGNAA[TG]-3' acting as an activator on distinct target genes (PubMed:11242107).
During early embryogenesis, plays essential and redundant functions with CEBPB. Essential for the transition from common myeloid progenitors (CMP) to granulocyte/monocyte progenitors (GMP). Critical for the proper development of the liver and the lung (By similarity).
Necessary for terminal adipocyte differentiation, is required for postnatal maintenance of systemic energy homeostasis and lipid storage (By similarity).
To regulate these different processes at the proper moment and tissue, interplays with other transcription factors and modulators. Downregulates the expression of genes that maintain cells in an undifferentiated and proliferative state through E2F1 repression, which is critical for its ability to induce adipocyte and granulocyte terminal differentiation. Reciprocally E2F1 blocks adipocyte differentiation by binding to specific promoters and repressing CEBPA binding to its target gene promoters. Proliferation arrest also depends on a functional binding to SWI/SNF complex (PubMed:14660596).
In liver, regulates gluconeogenesis and lipogenesis through different mechanisms. To regulate gluconeogenesis, functionally cooperates with FOXO1 binding to IRE-controlled promoters and regulating the expression of target genes such as PCK1 or G6PC1. To modulate lipogenesis, interacts and transcriptionally synergizes with SREBF1 in promoter activation of specific lipogenic target genes such as ACAS2. In adipose tissue, seems to act as FOXO1 coactivator accessing to ADIPOQ promoter through FOXO1 binding sites (By similarity).
Isoform 3:
Can act as dominant-negative. Binds DNA and have transctivation activity, even if much less efficiently than isoform 2. Does not inhibit cell proliferation (PubMed:14660596).
Isoform 4:
Directly and specifically enhances ribosomal DNA transcription interacting with RNA polymerase I-specific cofactors and inducing histone acetylation.
Biological Process
Brown fat cell differentiation Source: Ensembl
Cell maturation Source: Ensembl
Cellular response to lithium ion Source: Ensembl
Cellular response to organic cyclic compound Source: Ensembl
Cellular response to tumor necrosis factor Source: Ensembl
Cholesterol metabolic process Source: Ensembl
Cytokine-mediated signaling pathway Source: UniProtKB
Embryonic placenta development Source: Ensembl
Fat cell differentiation Source: UniProtKB
Generation of precursor metabolites and energy Source: ProtInc
Glucose homeostasis Source: UniProtKB
Granulocyte differentiation Source: UniProtKB
Inner ear development Source: Ensembl
Interleukin-6-mediated signaling pathway Source: ARUK-UCL
Lipid homeostasis Source: UniProtKB
Liver development Source: UniProtKB
Lung development Source: UniProtKB
Macrophage differentiation Source: Ensembl
Mitochondrion organization Source: Ensembl
Myeloid cell differentiation Source: GO_Central
Negative regulation of cell population proliferation Source: UniProtKB
Negative regulation of cyclin-dependent protein serine/threonine kinase activity Source: ParkinsonsUK-UCL
Negative regulation of transcription, DNA-templated Source: UniProtKB
Negative regulation of transcription by RNA polymerase II Source: Ensembl
Notch signaling pathway Source: Ensembl
Positive regulation of DNA-templated transcription, initiation Source: UniProtKB
Positive regulation of fat cell differentiation Source: Ensembl
Positive regulation of gene expression Source: Ensembl
Positive regulation of inflammatory response Source: ARUK-UCL
Positive regulation of macrophage activation Source: ARUK-UCL
Positive regulation of osteoblast differentiation Source: Ensembl
Positive regulation of proteasomal ubiquitin-dependent protein catabolic process Source: ParkinsonsUK-UCL
Positive regulation of transcription by RNA polymerase II Source: BHF-UCL
Positive regulation of transcription by RNA polymerase III Source: UniProtKB
Regulation of transcription, DNA-templated Source: UniProtKB
Regulation of transcription by RNA polymerase II Source: GO_Central
Transcription by RNA polymerase I Source: UniProtKB
Urea cycle Source: Ensembl
viral process Source: UniProtKB-KW
white fat cell differentiation Source: Ensembl
Cellular Location
Nucleus
Isoform 4: Nucleolus
Involvement in disease
Leukemia, acute myelogenous (AML): A subtype of acute leukemia, a cancer of the white blood cells. AML is a malignant disease of bone marrow characterized by maturational arrest of hematopoietic precursors at an early stage of development. Clonal expansion of myeloid blasts occurs in bone marrow, blood, and other tissue. Myelogenous leukemias develop from changes in cells that normally produce neutrophils, basophils, eosinophils and monocytes.
PTM
Phosphorylation at Ser-190 is required for interaction with CDK2, CDK4 and SWI/SNF complex leading to cell cycle inhibition. Dephosphorylated at Ser-190 by protein phosphatase 2A (PP2A) through PI3K/AKT signaling pathway regulation (PubMed:15107404). Phosphorylation at Thr-226 and Thr-230 by GSK3 is constitutive in adipose tissue and lung. In liver, both Thr-226 and Thr-230 are phosphorylated only during feeding but not during fasting. Phosphorylation of the GSK3 consensus sites selectively decreases transactivation activity on IRE-controlled promoters.
Sumoylated, sumoylation blocks the inhibitory effect on cell proliferation by disrupting the interaction with SMARCA2.
Ubiquitinated by COP1 upon interaction with TRIB1.

KABASAKAL, T., AY, M. E., ÇEVİK, K., TOMBAK, A., Özlem, İ. Z. C. İ., & ERDAL, M. E. (2022). CCAAT Enhancer-binding Protein Alpha (CEBPA) Gene Expression in a Cohort of Turkish Patients with Multiple Myeloma. TURKISH JOURNAL OF ONCOLOGY, 1(1).

Hassan, N. M., Said, F., Shafik, R. E., & Abdellateif, M. S. (2021). Dysregulation of CCAAT/enhancer binding protein-alpha (CEBPA) expression in the bone marrow of acute myeloid leukemia patients. Egyptian Journal of Medical Human Genetics, 22(1), 1-10.

Zhang, L. M., Li, M., Tian, C. C., Wang, T. T., & Mi, S. F. (2021). CCAAT enhancer binding protein α suppresses proliferation, metastasis, and epithelial-mesenchymal transition of ovarian cancer cells via suppressing the Wnt/β-catenin signaling. Neoplasma, 68(3), 602-612.

Wilhelmson, A. S., & Porse, B. T. (2020). CCAAT enhancer binding protein alpha (CEBPA) biallelic acute myeloid leukaemia: cooperating lesions, molecular mechanisms and clinical relevance. British journal of haematology, 190(4), 495-507.

Lange, A. P., Almeida, L. Y., Araújo Silva, C. L., Scheucher, P. S., Chahud, F., Krause, A., ... & Rego, E. M. (2019). CCAAT/enhancer-binding protein alpha (CEBPA) gene haploinsufficiency does not alter hematopoiesis or induce leukemia in Lck-CALM/AF10 transgenic mice. Brazilian Journal of Medical and Biological Research, 52.

Minner, S., Lutz, J., Hube‐Magg, C., Kluth, M., Simon, R., Höflmayer, D., ... & Schroeder, C. (2019). Loss of CCAAT‐enhancer‐binding protein alpha (CEBPA) is linked to poor prognosis in PTEN deleted and TMPRSS2: ERG fusion type prostate cancers. The Prostate, 79(3), 302-311.

Wang, W., Xia, X., Mao, L., & Wang, S. (2019). The CCAAT/enhancer-binding protein family: its roles in MDSC expansion and function. Frontiers in immunology, 10, 1804.

Salarpour, F., Goudarzipour, K., Mohammadi, M. H., Ahmadzadeh, A., Faraahi, S., & Farsani, M. A. (2017). Evaluation of CCAAT/Enhancer Binding Protein (C/EBP) Alpha (CEBPA) and Runt‐Related Transcription Factor 1 (RUNX1) Expression in Patients with De Novo Acute Myeloid Leukemia. Annals of human genetics, 81(6), 276-283.

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For research use only. Not intended for any clinical use.

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