about
Btg1 is Required to Maintain the Pool of Stem and Progenitor Cells of the Dentate Gyrus and Subventricular ZoneCancer as a metabolic diseaseHuman single-stranded DNA binding proteins are essential for maintaining genomic stabilityGSK-3β: A Bifunctional Role in Cell Death PathwaysRegulation of DNA-damage responses and cell-cycle progression by the chromatin remodelling factor CHD4Turning the RING domain protein MdmX into an active ubiquitin-protein ligaseARF-dependent regulation of ATM and p53 associated KZNF (Apak) protein activity in response to oncogenic stressSIRT1 regulates autoacetylation and histone acetyltransferase activity of TIP60Hypoxia downregulates p53 but induces apoptosis and enhances expression of BAD in cultures of human syncytiotrophoblastsThe E3 ligase Smurf1 regulates Wolfram syndrome protein stability at the endoplasmic reticulumNovel nucleolar pathway connecting intracellular energy status with p53 activationUSP4 inhibits p53 through deubiquitinating and stabilizing ARF-BP1SUMOylation of hnRNP-K is required for p53-mediated cell-cycle arrest in response to DNA damageTranscription-independent ARF regulation in oncogenic stress-mediated p53 responsesAurora B interacts with NIR-p53, leading to p53 phosphorylation in its DNA-binding domain and subsequent functional suppressionKlf15 deficiency is a molecular link between heart failure and aortic aneurysm formationp53 inhibits tumor cell invasion via the degradation of snail protein in hepatocellular carcinomaSET1 and p300 act synergistically, through coupled histone modifications, in transcriptional activation by p53Caspase-2-mediated cleavage of Mdm2 creates a p53-induced positive feedback loopAKT-dependent phosphorylation of Niban regulates nucleophosmin- and MDM2-mediated p53 stability and cell apoptosisRepression of Puma by scratch2 is required for neuronal survival during embryonic developmentAcetylation of p53 stimulates miRNA processing and determines cell survival following genotoxic stressNutlin-3a, an MDM2 antagonist and p53 activator, helps to preserve the replicative potential of cancer cells treated with a genotoxic dose of resveratrolThe nucleolus under stressA genome-scale protein interaction profile of Drosophila p53 uncovers additional nodes of the human p53 networkNon-THC cannabinoids inhibit prostate carcinoma growth in vitro and in vivo: pro-apoptotic effects and underlying mechanismsEffects of MDM2 promoter polymorphisms and p53 codon 72 polymorphism on risk and age at onset of squamous cell carcinoma of the head and neckThe ubiquitin proteasome system in neuropathologyRedox Homeostasis and Cellular Antioxidant Systems: Crucial Players in Cancer Growth and TherapyOncogenic Intra-p53 Family Member Interactions in Human CancersNew Therapeutic Concept of NAD Redox Balance for Cisplatin NephrotoxicityRegulation of Mutant p53 Protein ExpressionMolecular mechanisms of etoposideNovel Implications of DNA Damage Response in Drug Resistance of Malignant Cancers Obtained from the Functional Interaction between p53 Family and RUNX2Physicochemical properties of cells and their effects on intrinsically disordered proteins (IDPs)Self-consumption: the interplay of autophagy and apoptosisThe functional diversity of protein lysine methylationPeptidylarginine deiminases in citrullination, gene regulation, health and pathogenesisTumor suppression in skin and other tissues via cross-talk between vitamin D- and p53-signalingClinical utility of anti-p53 auto-antibody: systematic review and focus on colorectal cancer
P2860
Q21129361-165A9BEA-B999-4A5F-ABAF-946EFBA70630Q21245061-16AC8FA4-ED61-49FA-8A23-49C0488410DFQ21263027-2064BEF3-80E9-4C4E-BF47-FE7DFAA22EBDQ21285144-F1943BF9-5396-43C9-9411-8DD7702F9D9BQ24294656-3ABDB335-E7C5-4B4B-9D86-70FF780ACF6BQ24295055-7A881572-018A-4238-827F-645D042C2EF8Q24296257-6EB79A1F-C7B0-4EC5-AC06-3CA533D599ECQ24297333-00195CCE-1EFA-47A5-B3D0-4F9B21A7F2AEQ24298359-C570A71A-D755-4F2C-AAE4-83441E45C37FQ24298474-937FFA44-0235-4E92-9AB7-166D529FE035Q24299137-2A2E4A58-9A99-425B-84E6-3126E6ED443BQ24300434-70AD866D-0BCE-47E6-90E8-9885294D0D52Q24301634-67690672-B11E-4C55-9818-149687194F0FQ24301836-A29F96C5-E813-457F-BB76-EFD6294673F7Q24303987-6FE7F702-7251-49DE-8F4E-7534494D7A35Q24306115-DF09969A-F715-4719-98D0-156D136AE354Q24306453-4DD0AB6C-F885-4E3F-930F-0B6F781B498BQ24310032-3130EA9E-001C-4A81-9670-D7DC175A0984Q24310683-1AAE9E3E-E558-4C77-85A0-F9E430841343Q24314880-16F81616-C5B2-4B0D-A5A9-A6AF0DE86F11Q24337798-62AEADCA-B7C3-4444-9358-84058C7082D8Q24339569-6A0C6CC9-F184-4A62-95F1-5F59EBE371BCQ24595171-7EA40793-E6FC-4FA6-BBC2-70C9ABA65CADQ24597470-47DF8D13-949C-491D-BE97-3C128D397F8FQ24600216-81109B32-6521-4156-84FE-1A1CBF400EBEQ24622202-7B529650-EE22-4A88-BC20-B5281EB7DF80Q24630090-CBA292FD-1551-4997-B6F6-26B1610E88F3Q24644208-9B2ECDC6-0594-4ADA-8DD0-5526A88A1A9DQ26740191-8911EF94-5D57-4379-9BB9-414F18F5F9E1Q26749382-071262EA-6933-422D-8ABF-29EB0B657829Q26765483-CDA739BC-8916-4EE5-AF53-66D7247E19BDQ26770579-8ABEC0E2-8D78-4B21-99E3-85CFF3A0C4B2Q26776299-688D4128-8A53-48C9-9C60-0160BD99A26DQ26777988-4C89BCEB-979A-4F97-8CB1-AEF6270597D6Q26823798-1A419C04-A4C1-4A3A-8DAC-78CABC19627BQ26828473-9C9FD198-0476-4594-B40F-7C2D4299FF72Q26853164-6258C28C-9EA1-45ED-8A83-56308F2EAE39Q26991867-4D4D0693-CCAF-46AE-9E7E-AF9C484FA3C0Q26992094-FF67438D-21A9-4D43-9DA3-0E69684BD411Q27002356-43F8BCD0-37EF-4153-8780-18A92FD35B73
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Modes of p53 regulation
@ast
Modes of p53 regulation
@en
type
label
Modes of p53 regulation
@ast
Modes of p53 regulation
@en
prefLabel
Modes of p53 regulation
@ast
Modes of p53 regulation
@en
P2860
P3181
P1433
P1476
Modes of p53 regulation
@en
P2860
P304
P3181
P356
10.1016/J.CELL.2009.04.050
P407
P577
2009-05-15T00:00:00Z