about
Breast cancer-derived K172N, D301V mutations abolish Na+/H+ exchanger regulatory factor 1 inhibition of platelet-derived growth factor receptor signalingCaught in the cross fire: p53 in inflammation.The intersection between DNA damage response and cell death pathwaysp63+ ureteric bud tip cells are progenitors of intercalated cells.Combining Oncolytic Virotherapy with p53 Tumor Suppressor Gene TherapyHepatic p63 regulates steatosis via IKKβ/ER stressClinical update on cancer: molecular oncology of head and neck cancerp53 and TAp63 participate in the recombination-dependent pachytene arrest in mouse spermatocytes.p53/p63/p73 in the epidermis in health and diseaseArginine methylation of hnRNPK negatively modulates apoptosis upon DNA damage through local regulation of phosphorylation.p53 Family and Cellular Stress Responses in Cancer.Essential role of the zinc finger transcription factor Casz1 for mammalian cardiac morphogenesis and developmentRegulation of cell adhesion in the testis: a new role for p73.Functional divergence of the brain-size regulating gene MCPH1 during primate evolution and the origin of humans.Promoter methylation of tumor suppressor genes in pre-neoplastic lesions; potential marker of disease recurrence.TAp73 promotes anti-senescence-anabolism not proliferation.p53 selectively regulates developmental apoptosis of rod photoreceptors.Mathematical Modelling of Molecular Pathways Enabling Tumour Cell Invasion and Migration.p53-independent structure-activity relationships of 3-ring mesogenic compounds' activity as cytotoxic effects against human non-small cell lung cancer lines.miR-205-5p-mediated downregulation of ErbB/HER receptors in breast cancer stem cells results in targeted therapy resistance.Mechanisms, function and clinical applications of DNp73.Metabolic regulation by p53 family members.Pirh2: an E3 ligase with central roles in the regulation of cell cycle, DNA damage response, and differentiationING1 and ING2: multifaceted tumor suppressor genes.Mapping genetic alterations causing chemoresistance in cancer: identifying the roads by tracking the drivers.Battle of the eternal rivals: restoring functional p53 and inhibiting Polo-like kinase 1 as cancer therapy.The role of the TP73 gene and its transcripts in neuro-oncology.Role of the nucleus in apoptosis: signaling and execution.Regulation of Cellular Metabolism and Hypoxia by p53.Restoration of wild-type p53 in drug-resistant mouse breast cancer cells leads to differential gene expression, but is not sufficient to overcome the malignant phenotype.TAp73 loss favors Smad-independent TGF-β signaling that drives EMT in pancreatic ductal adenocarcinoma.Depletion of runt-related transcription factor 2 (RUNX2) enhances SAHA sensitivity of p53-mutated pancreatic cancer cells through the regulation of mutant p53 and TAp63.A pro-apoptotic function of iASPP by stabilizing p300 and CBP through inhibition of BRMS1 E3 ubiquitin ligase activity.TAp73 is a marker of glutamine addiction in medulloblastoma.Cyclin-dependent kinase control of motile ciliogenesis
P2860
Q24323184-53F7D5FF-81E6-4563-A5A7-43628B6222E8Q27692076-142B1345-81C9-4A77-95F6-298F712AD25CQ28611423-CE98538F-EF74-4B9B-BF7C-D1689C9FEAF8Q33631065-D0874E7E-FAE4-4DBC-81F6-123D1CB89276Q33633277-5EB285D5-C048-489B-8094-9D87E317F5F0Q33654494-62C16152-AD37-4EA9-9E06-E40951A1CD2AQ33695197-A08B7E10-82F8-4518-8A38-53E587A00185Q33853843-2B7566FB-DECD-4C76-8898-1C7B1220E141Q33944382-8777B98D-FF9B-4986-8769-91804B91C060Q34115543-3A0C5F2E-237F-4094-9DC6-1129D59910ADQ34377287-D9BF1C28-B408-4E7F-A29B-0657555BB647Q34396850-73239B06-80B2-40AD-84A2-07056F4EECA2Q34536797-BC940233-9DD5-4AB4-B282-CFCDDE7558AEQ34734401-90176618-9A95-4181-BA85-CAD085089E70Q34762217-224EE2EA-88B6-4404-9083-CF397276049EQ34774270-8074D411-7E7B-41AD-B559-772B142FC795Q34807262-799F0597-B0CD-4A83-BA50-F29E4DC08C16Q35830233-417E5FA1-868D-4A6C-B36E-C2FC7EBB7809Q36085351-29433A4C-4A6C-4888-A204-B7643E9F76D3Q36293886-854B8E9B-AB0E-428C-A1E5-B27FFE9A1FC2Q37075900-47CCA7E6-1247-47A5-8A71-FBD40C467845Q37298047-599589F4-B5D0-4A29-8CE7-6DD584BA83CDQ37505495-DD708008-5FF9-452F-BD0D-E6FF5D6C706EQ38081784-E8544768-7B74-45C8-B7C5-BAD05533B2A2Q38087850-809D278B-6A04-4B95-AF66-18792952B69DQ38129174-50E8019C-36BB-400E-9773-684CF0D43F38Q38205270-014F2868-74ED-438C-BEAA-1AC7F0FB6684Q38582491-9DEB2FBA-D52C-402A-A5FC-3964D111E530Q38884003-3081A831-506B-4D07-87A5-C58981525711Q39169881-ABBAB7AB-9C01-4CC4-8E9D-819FB7BDC483Q39947989-2B8B271B-4184-46AB-8BFA-6F583BE70205Q40975866-99BA5FDE-3DDA-4161-8E2D-6E24CE5B0DB6Q43143405-6B35A52E-F9E6-4E0E-9BBD-60728FEB78F4Q47161374-6CB7E641-ED38-411D-BD66-2CE828D35780Q58697477-58C228FF-72FC-4075-B4AB-69DB45112029
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
p63/p73 in the control of cell cycle and cell death.
@en
p63/p73 in the control of cell cycle and cell death.
@nl
type
label
p63/p73 in the control of cell cycle and cell death.
@en
p63/p73 in the control of cell cycle and cell death.
@nl
prefLabel
p63/p73 in the control of cell cycle and cell death.
@en
p63/p73 in the control of cell cycle and cell death.
@nl
P1476
p63/p73 in the control of cell cycle and cell death
@en
P2093
P304
P356
10.1016/J.YEXCR.2012.01.023
P407
P577
2012-02-03T00:00:00Z