TP53 sirna
TP53 siRNA (Mouse)
NCBI and Uniprot Product Information
NCBI Description
This gene encodes tumor protein p53, which responds to diverse cellular stresses to regulate target genes that induce cell cycle arrest, apoptosis, senescence, DNA repair, or changes in metabolism. p53 protein is expressed at low level in normal cells and at a high level in a variety of transformed cell lines, where it's believed to contribute to transformation and malignancy. p53 is a DNA-binding protein containing transcription activation, DNA-binding, and oligomerization domains. It is postulated to bind to a p53-binding site and activate expression of downstream genes that inhibit growth and/or invasion, and thus function as a tumor suppressor. Mice deficient for this gene are developmentally normal but are susceptible to spontaneous tumors. Evidence to date shows that this gene contains one promoter, in contrast to alternative promoters of the human gene, and transcribes a few of splice variants which encode different isoforms, although the biological validity or the full-length nature of some variants has not been determined. [provided by RefSeq, Jul 2008]
Uniprot Description
p53: a transcription factor and major tumor suppressor that plays a major role in regulating cellular responses to DNA damage and other genomic aberrations. Activation of p53 can lead to either cell cycle arrest and DNA repair or apoptosis. More than 50 percent of human tumors contain a mutation or deletion of the TP53 gene. p53 is modified post-translationally at multiple sites. DNA damage induces phosphorylation of p53 at S15, S20 and S37, reducing its interaction with the oncoprotein MDM2. MDM2 inhibits p53 accumulation by targeting it for ubiquitination and proteasomal degradation. Phosphorylated by many kinases including Chk2 and Chk1 at S20, enhancing its tetramerization, stability and activity. The phosphorylation by CAK at S392 is increased in human tumors and has been reported to influence the growth suppressor function, DNA binding and transcriptional activation of p53. Phosphorylation of p53 at S46 regulates the ability of p53 to induce apoptosis. The acetylation of p53 appears to play a positive role in the accumulation of p53 during the stress response. Following DNA damage, p53 becomes acetylated at K382, enhancing its binding to DNA. Deacetylation of p53 can occur through interaction with SIRT1, a deacetylase that may be involved in cellular aging and the DNA damage response. p53 regulates the transcription of a set of genes encoding endosomal proteins that regulate endosomal functions. These include STEAP3 and CHMP4C, which enhance exosome production, and CAV1 and CHMP4C, which produce a more rapid endosomal clearance of the EGFR from the plasma membrane. DNA damage regulates a p53-mediated secretory pathway, increasing the secretion of some proteins such as Hsp90, SERPINE1, SERPINB5, NKEF-A, and CyPA, and inhibiting the secretion of others including CTSL and IGFBP-2. Two alternatively spliced human isoforms have been reported. Isoform 2 is expressed in quiescent lymphocytes. Seems to be non-functional. May be produced at very low levels due to a premature stop codon in the mRNA, leading to nonsense-mediated mRNA decay.
Protein type: DNA-binding; Transcription factor; Motility/polarity/chemotaxis; Activator; Tumor suppressor; Nuclear receptor co-regulator
Cellular Component: transcription factor TFIID complex; PML body; protein complex; nuclear matrix; mitochondrion; endoplasmic reticulum; replication fork; cytosol; nucleoplasm; nuclear body; transcription factor complex; mitochondrial matrix; nuclear chromatin; cytoplasm; nucleolus; intracellular; chromatin; nucleus
Molecular Function: protein C-terminus binding; identical protein binding; protease binding; protein phosphatase 2A binding; p53 binding; metal ion binding; protein N-terminus binding; receptor tyrosine kinase binding; protein kinase binding; transcription factor binding; protein phosphatase binding; histone acetyltransferase binding; protein binding; enzyme binding; histone deacetylase regulator activity; copper ion binding; DNA binding; protein heterodimerization activity; sequence-specific DNA binding; chaperone binding; ubiquitin protein ligase binding; double-stranded DNA binding; damaged DNA binding; chromatin binding; transcription factor activity; ATP binding
Biological Process: central nervous system development; regulation of cell cycle; positive regulation of apoptosis; positive regulation of leukocyte migration; positive regulation of transcription, DNA-dependent; multicellular organismal development; programmed cell death; T cell differentiation in the thymus; gastrulation; determination of adult life span; DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest; regulation of apoptosis; cellular response to glucose starvation; protein localization; negative regulation of neuroblast proliferation; transforming growth factor beta receptor signaling pathway; regulation of neuron apoptosis; cerebellum development; negative regulation of mitotic cell cycle; protein complex assembly; cell cycle arrest; ER overload response; response to UV; response to X-ray; response to drug; somitogenesis; release of cytochrome c from mitochondria; transcription, DNA-dependent; cell aging; chromatin assembly; positive regulation of cell cycle; circadian behavior; rRNA transcription; regulation of transcription from RNA polymerase II promoter; positive regulation of peptidyl-tyrosine phosphorylation; negative regulation of fibroblast proliferation; negative regulation of DNA replication; regulation of intracellular pH; embryonic organ development; positive regulation of transcription from RNA polymerase II promoter; response to oxidative stress; negative regulation of transcription, DNA-dependent; regulation of tissue remodeling; negative regulation of apoptosis; G1 DNA damage checkpoint; transcription from RNA polymerase II promoter; DNA damage response, signal transduction by p53 class mediator; negative regulation of smooth muscle cell proliferation; apoptosis; negative regulation of transcription from RNA polymerase II promoter; chromosome organization and biogenesis; response to salt stress; entrainment of circadian clock by photoperiod; positive regulation of protein oligomerization; negative regulation of cell proliferation; embryonic development ending in birth or egg hatching; positive regulation of histone deacetylation; DNA damage response, signal transduction by p53 class mediator resulting in transcription of p21 class mediator; regulation of transcription, DNA-dependent; regulation of catalytic activity; T cell proliferation during immune response; double-strand break repair; positive regulation of neuron apoptosis; response to gamma radiation; DNA damage response, signal transduction by p53 class mediator resulting in induction of apoptosis; protein tetramerization; negative regulation of proteolysis; mitochondrial DNA repair; in utero embryonic development; B cell lineage commitment; multicellular organism growth; cell cycle; regulation of cell proliferation; T cell lineage commitment; neuron apoptosis; protein import into nucleus, translocation; nucleotide-excision repair; DNA strand renaturation; negative regulation of cell growth; negative regulation of transforming growth factor beta receptor signaling pathway; response to DNA damage stimulus
Research Articles on TP53
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Product Notes
The TP53 tp53 (Catalog #AAA8239623) is a siRNA produced from Synthetic and is intended for research purposes only. The product is available for immediate purchase. The TP53 siRNA (Mouse) reacts with Mouse and may cross-react with other species as described in the data sheet. AAA Biotech's TP53 can be used in a range of immunoassay formats including, but not limited to, RNA Interference (RNAi). Researchers should empirically determine the suitability of the TP53 tp53 for an application not listed in the data sheet. Researchers commonly develop new applications and it is an integral, important part of the investigative research process. It is sometimes possible for the material contained within the vial of "TP53, siRNA" to become dispersed throughout the inside of the vial, particularly around the seal of said vial, during shipment and storage. We always suggest centrifuging these vials to consolidate all of the liquid away from the lid and to the bottom of the vial prior to opening. Please be advised that certain products may require dry ice for shipping and that, if this is the case, an additional dry ice fee may also be required.Precautions
All products in the AAA Biotech catalog are strictly for research-use only, and are absolutely not suitable for use in any sort of medical, therapeutic, prophylactic, in-vivo, or diagnostic capacity. By purchasing a product from AAA Biotech, you are explicitly certifying that said products will be properly tested and used in line with industry standard. AAA Biotech and its authorized distribution partners reserve the right to refuse to fulfill any order if we have any indication that a purchaser may be intending to use a product outside of our accepted criteria.Disclaimer
Though we do strive to guarantee the information represented in this datasheet, AAA Biotech cannot be held responsible for any oversights or imprecisions. AAA Biotech reserves the right to adjust any aspect of this datasheet at any time and without notice. It is the responsibility of the customer to inform AAA Biotech of any product performance issues observed or experienced within 30 days of receipt of said product. To see additional details on this or any of our other policies, please see our Terms & Conditions page.Item has been added to Shopping Cart
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