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Invitrogen
Acetyl-p53 (Lys381) Polyclonal Antibody
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FIGURE: 1 / 12
Acetyl-p53 (Lys381) Antibody (PA5-105110) in IHC (P)
Immunohistochemistry analysis of Acetyl-p53 (Lys381) in human pancreatic cancer. The sample was formaldehyde fixed and a heat mediated antigen retrieval step in citrate buffer was performed. Samples were incubated with Acetyl-p53 (Lys381) polyclonal antibody (Product # PA5-105110) using a dilution of 1:100 (4°C overnight) followed by HRP conjugated anti-Rabbit secondary antibody.
Please note: We are reviewing Western blot images included in the antibody testing data in our catalog, including those provided by third parties. Unless expressly labeled or annotated as “raw-unedited”, Western blot images included in the antibody testing data in our catalog may have been edited, optimized or otherwise adjusted for presentation.
Product Details
PA5-105110
Applications
Tested Dilution
Publications
Product Specifications
Species Reactivity
Human,
Mouse,
Rat
Host/Isotype
Rabbit
/ IgG
Class
Polyclonal
Type
Antibody
Immunogen
A synthesized peptide derived from human TP53(Accession P04637), corresponding to amino acid residues L369-G389.
Conjugate
Unconjugated
Unconjugated
Unconjugated
Form
Liquid
Concentration
1 mg/mL
Amount
100 µg
Purification
Affinity chromatography
Storage buffer
PBS, pH 7.4, with 50% glycerol
Contains
0.02% sodium azide
Storage conditions
-20°C
Shipping conditions
Ambient (domestic); Wet ice (international)
RRID
Product Specific Information
Antibody detects endogenous levels of Acetyl-p53 only when acetylated at Lys381.
Target Information
The tumor suppressor protein, p53, is a sequence specific transcription factor that is activated by cellular stress. p53 mediates cell cycle arrest or apoptosis in response to DNA damage or starvation for pyrimidine nucleotides. p53 is up-regulated in response to stress signals and stimulated to activate transcription of specific genes, resulting in expression of p21waf1 and other proteins involved in G1 or G2/M arrest. The structure of p53 comprises an N-terminal transactivation domain, a central DNA-binding domain, an oligomerisation domain, and a C-terminal regulatory domain. There are various phosphorylation sites on p53, of which the phosphorylation at Ser15 is important for p53 activation and stabilization. p53 has been characterized to play a role in blocking the proliferative action of damaged cells and act as an anticancer agent. Phosphorylation of Ser392 in p53 has been shown to associate with the formation of human tumors. In addition, p53 has also been linked to the effects of aging and oxidative stress and an increase in p53 has been linked to deficits in LTP (Long Term Potentiation) in learning and memory. p53 is found in very low levels in normal cells, however, in a variety of transformed cell lines, it is expressed in high amounts, and believed to contribute to transformation and malignancy. Mutants of p53 that frequently occur in a number of different human cancers fail to bind the consensus DNA binding site, and cause the loss of tumor suppressor activity. Alterations of the TP53 gene occur not only as somatic mutations in human malignancies, but also as germline mutations in some cancer-prone families such as Li-Fraumeni syndrome.
For Research Use Only. Not for use in diagnostic procedures. Not for resale without express authorization.
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Bioinformatics
Protein Aliases: Antigen NY-CO-13; Cellular tumor antigen p53; Cys 51 Stop; FLJ92943; HGNC11998; mutant p53; mutant tumor protein 53; OTTMUSP00000006194; p53 antigen; p53 cellular tumor antigen; Phosphoprotein p53; transcription factor; transcription factor; truncated protein; transformation related protein 53; transformation-related protein 53; tumor protein 53; tumor protein p53 (Li-Fraumeni syndrome); tumor suppressor; Tumor suppressor p53; tumor supressor p53; Tumour Protein p53; unnamed protein product
Gene Aliases: bbl; BCC7; bfy; bhy; BMFS5; LFS1; p44; P53; TP53; TRP53
UniProt ID: (Rat) P10361, (Mouse) P02340
Entrez Gene ID: (Human) 7157, (Rat) 24842, (Mouse) 22059
transcription regulatory region sequence-specific DNA binding
RNA polymerase II regulatory region sequence-specific DNA binding
RNA polymerase II core promoter proximal region sequence-specific DNA binding
RNA polymerase II transcription factor activity, sequence-specific DNA binding
core promoter proximal region sequence-specific DNA binding
core promoter sequence-specific DNA binding
TFIID-class transcription factor binding
transcription coactivator binding
transcriptional repressor activity, RNA polymerase II transcription regulatory region sequence-specific binding
transcriptional activator activity, RNA polymerase II transcription regulatory region sequence-specific binding
protease binding
p53 binding
DNA binding
chromatin binding
transcription factor activity, sequence-specific DNA binding
mRNA 3'-UTR binding
copper ion binding
protein binding
zinc ion binding
enzyme binding
receptor tyrosine kinase binding
ubiquitin protein ligase binding
histone deacetylase regulator activity
annealing helicase activity
identical protein binding
histone deacetylase binding
protein heterodimerization activity
chaperone binding
protein phosphatase 2A binding
RNA polymerase II sequence-specific DNA binding transcription factor binding
14-3-3 protein binding
MDM2/MDM4 family protein binding
disordered domain specific binding
general transcription initiation factor binding
molecular function activator activity
molecular condensate scaffold activity
promoter-specific chromatin binding
RNA polymerase II core promoter sequence-specific DNA binding
transcriptional activator activity, RNA polymerase II core promoter proximal region sequence-specific binding
RNA polymerase II transcription factor binding
transcription cofactor binding
damaged DNA binding
double-stranded DNA binding
ATP binding
protein C-terminus binding
transcription factor binding
protein kinase binding
protein phosphatase binding
histone acetyltransferase binding
sequence-specific DNA binding
transcription regulatory region DNA binding
protein N-terminus binding
protein self-association
metal ion binding
P53-like transcription factor
negative regulation of transcription from RNA polymerase II promoter
hematopoietic progenitor cell differentiation
nucleotide-excision repair
regulation of transcription, DNA-templated
regulation of transcription from RNA polymerase II promoter
autophagy
apoptotic process
cellular response to DNA damage stimulus
response to oxidative stress
ER overload response
Ras protein signal transduction
circadian rhythm
protein localization
negative regulation of cell proliferation
determination of adult lifespan
mRNA transcription
response to xenobiotic stimulus
response to UV
response to ionizing radiation
response to gamma radiation
positive regulation of gene expression
viral process
negative regulation of cell growth
DNA damage response, signal transduction by p53 class mediator
mitotic G1 DNA damage checkpoint
negative regulation of telomere maintenance via telomerase
tumor necrosis factor-mediated signaling pathway
cellular response to UV
cellular response to glucose starvation
intrinsic apoptotic signaling pathway in response to DNA damage by p53 class mediator
regulation of apoptotic process
positive regulation of apoptotic process
negative regulation of apoptotic process
entrainment of circadian clock by photoperiod
positive regulation of gene expression, epigenetic
negative regulation of transcription, DNA-templated
positive regulation of transcription, DNA-templated
positive regulation of RNA polymerase II transcriptional preinitiation complex assembly
positive regulation of transcription from RNA polymerase II promoter
response to antibiotic
negative regulation of fibroblast proliferation
circadian behavior
bone marrow development
negative regulation of DNA metabolic process
negative regulation of helicase activity
protein tetramerization
regulation of cell cycle
hematopoietic stem cell differentiation
interferon-gamma-mediated signaling pathway
positive regulation of programmed necrotic cell death
protein-containing complex assembly
intrinsic apoptotic signaling pathway in response to endoplasmic reticulum stress
positive regulation of thymocyte apoptotic process
cellular response to hypoxia
cellular response to xenobiotic stimulus
cellular response to ionizing radiation
cellular response to gamma radiation
signal transduction by p53 class mediator
intrinsic apoptotic signaling pathway by p53 class mediator
cellular response to actinomycin D
positive regulation of release of cytochrome c from mitochondria
cellular senescence
replicative senescence
oxidative stress-induced premature senescence
apoptotic signaling pathway
intrinsic apoptotic signaling pathway
oligodendrocyte apoptotic process
positive regulation of execution phase of apoptosis
regulation of cell cycle G2/M phase transition
positive regulation of pri-miRNA transcription from RNA polymerase II promoter
negative regulation of G1 to G0 transition
negative regulation of pentose-phosphate shunt
positive regulation of reactive oxygen species metabolic process
positive regulation of cellular senescence
regulation of intrinsic apoptotic signaling pathway
positive regulation of intrinsic apoptotic signaling pathway
protein import into nucleus, translocation
DNA strand renaturation
in utero embryonic development
somitogenesis
release of cytochrome c from mitochondria
T cell proliferation involved in immune response
B cell lineage commitment
T cell lineage commitment
positive regulation of leukocyte migration
response to ischemia
double-strand break repair
transcription from RNA polymerase II promoter
protein complex assembly
DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest
DNA damage response, signal transduction by p53 class mediator resulting in transcription of p21 class mediator
cell cycle arrest
transforming growth factor beta receptor signaling pathway
multicellular organism development
gastrulation
negative regulation of neuroblast proliferation
central nervous system development
aging
cell aging
negative regulation of DNA replication
rRNA transcription
response to salt stress
embryo development ending in birth or egg hatching
response to inorganic substance
response to metal ion
response to X-ray
response to UV-B
response to organonitrogen compound
positive regulation of cardiac muscle cell apoptotic process
response to organic cyclic compound
cerebellum development
negative regulation of transforming growth factor beta receptor signaling pathway
response to caffeine
positive regulation of histone deacetylation
chromatin assembly
positive regulation of protein oligomerization
response to retinoic acid
T cell differentiation in thymus
response to vitamin B3
response to cytokine
regulation of tissue remodeling
cellular response to heat
cellular protein localization
multicellular organism growth
cellular response to drug
positive regulation of mitochondrial membrane permeability
wound healing
regulation of cell proliferation
response to drug
response to amino acid
mitochondrial DNA repair
regulation of neuron apoptotic process
positive regulation of neuron apoptotic process
positive regulation of cell cycle
negative regulation of proteolysis
negative regulation of mitotic cell cycle
embryonic organ development
negative regulation of smooth muscle cell proliferation
positive regulation of peptidyl-tyrosine phosphorylation
regulation of catalytic activity
chromosome organization
neuron apoptotic process
regulation of intracellular pH
response to hyperoxia
regulation of thymocyte apoptotic process
necroptotic process
positive regulation of cell cycle arrest
cellular response to organonitrogen compound
mitotic cell cycle arrest
positive regulation of cell aging
negative regulation of macromitophagy
regulation of mitochondrial membrane permeability involved in apoptotic process
regulation of intrinsic apoptotic signaling pathway by p53 class mediator
regulation of hydrogen peroxide-induced cell death
regulation of fibroblast apoptotic process
negative regulation of DNA biosynthetic process
negative regulation of reactive oxygen species metabolic process
regulation of cellular senescence
transcription, DNA-templated
cell cycle
programmed cell death
chromosome breakage
rhythmic process
positive regulation of transcription from RNA polymerase II promoter in response to hypoxia
cellular response to UV-C
regulation of glycolytic process by positive regulation of transcription from RNA polymerase II promoter
negative regulation of glucose catabolic process to lactate via pyruvate
intrinsic apoptotic signaling pathway in response to hypoxia
positive regulation of transcription from RNA polymerase II promoter in response to endoplasmic reticulum stress
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