about
"Sentinel" circulating tumor cells allow early diagnosis of lung cancer in patients with chronic obstructive pulmonary diseaseCollaborator of ARF (CARF) regulates proliferative fate of human cells by dose-dependent regulation of DNA damage signalingHuman RECQ helicases: roles in DNA metabolism, mutagenesis and cancer biologyROS, Cell Senescence, and Novel Molecular Mechanisms in Aging and Age-Related DiseasesCancer research in need of a scientific revolution: Using 'paradigm shift' as a method of investigationMacroautophagy and the oncogene-induced senescenceBiomarkers and molecular probes for cell death imaging and targeted therapeuticsRoles and mechanisms of cellular senescence in regulation of tissue homeostasisImmune surveillance of unhealthy cells by natural killer cellsMiz1 is a critical repressor of cdkn1a during skin tumorigenesisDynamic modelling of pathways to cellular senescence reveals strategies for targeted interventionsDynamics between cancer cell subpopulations reveals a model coordinating with both hierarchical and stochastic conceptsToward precision medicine of breast cancerRetinoids induce cellular senescence in breast cancer cells by RAR-β dependent and independent pathways: Potential clinical implications (Review)Senescence from G2 arrest, revisitedAccelerated cellular senescence phenotype of GAPDH-depleted human lung carcinoma cellsRal GTPase down-regulation stabilizes and reactivates p53 to inhibit malignant transformationAstrocyte elevated gene-1 promotes hepatocarcinogenesis: novel insights from a mouse modelGrowth arrest and DNA damage 45G down-regulation contributes to Janus kinase/signal transducer and activator of transcription 3 activation and cellular senescence evasion in hepatocellular carcinomaCell fusion induced by ERVWE1 or measles virus causes cellular senescenceSenescent cells in growing tumors: population dynamics and cancer stem cellsAssociations between HIV and human pathways revealed by protein-protein interactions and correlated gene expression profilesDexamethasone reduces sensitivity to cisplatin by blunting p53-dependent cellular senescence in non-small cell lung cancerGenome-wide transcriptional reorganization associated with senescence-to-immortality switch during human hepatocellular carcinogenesisUpregulation of SOX4 antagonizes cellular senescence in esophageal squamous cell carcinomaThe Impacts of Cellular Senescence in Elderly Pneumonia and in Age-Related Lung Diseases That Increase the Risk of Respiratory Infections.NORE1A is a Ras senescence effector that controls the apoptotic/senescent balance of p53 via HIPK2.The yin-yang of DNA damage response: roles in tumorigenesis and cellular senescence.Self-Renewal Signalling in Presenescent Tetraploid IMR90 Cells.Non-cell-autonomous tumor suppression by p53.Identification of human HK genes and gene expression regulation study in cancer from transcriptomics data analysis.Senescent cells communicate via intercellular protein transfer.Serotonergic modulation of suicidal behaviour: integrating preclinical data with clinical practice and psychotherapy.Modelling mutational landscapes of human cancers in vitro.NORE1A is a double barreled Ras senescence effector that activates p53 and Rb.Immunosurveillance of senescent cancer cells by natural killer cellsRepression of PLA2R1 by c-MYC and HIF-2alpha promotes cancer growthmiR-125b induces cellular senescence in malignant melanoma.Senescence is an endogenous trigger for microRNA-directed transcriptional gene silencing in human cells.Egg antigen p40 of Schistosoma japonicum promotes senescence in activated hepatic stellate cells via SKP2/P27 signaling pathway.
P2860
Q21131903-7825D248-8B7E-4B9E-B276-BE0A3FA20EABQ24297805-6AB3B6A4-CA98-422A-8B3D-E710F24476C0Q24620195-47E8A059-A654-4A5B-B0A1-B8D245993915Q26744325-815B2F38-410C-4E74-A4C1-A8E9CD67CC04Q26786406-B4B4160D-F996-47B6-B474-D13F639C63A1Q26863440-3891A589-A00F-4D08-8228-10EBBE91B223Q26866387-6B055E87-1367-4FF7-BD5A-F5A750CB0145Q26999018-07A68656-6984-49BD-88B9-66D8E71396B6Q27003079-BF32F858-E49F-4D62-9305-3F56B8C74A9DQ27304900-5AD28091-B00F-42CB-8015-16DF20410E03Q27321555-793245D5-9BE0-4E40-AEF7-E449916F2C35Q27334912-EDFF3648-87F0-453E-B462-A9EFC4AA3D2EQ28073967-5C1A1101-839C-4042-8277-E65DB099ADF8Q28081010-1FA7B0FF-7D93-41E9-8486-7A73ACE9F0F0Q28088672-A5E3605E-D730-4DCB-B740-8591D0402DBFQ28243076-91660A70-6DC0-46AC-9ACF-33C710AF5AD9Q28247699-BC82DCE7-B98D-41AF-8DEF-2E4641140BABQ28268632-D9AF479A-8E74-48A2-983B-15D6636A55AEQ28295550-190B0BA3-D1CB-4D0A-9B68-2B1FF633DA44Q28301290-5A0AED1E-5B08-4034-8001-064C6FF97BF7Q28478991-7168313D-FFE2-49F8-98FA-8F82A1B6695EQ28481666-E224C85D-CA35-4F62-B5A5-34EC4E4424D6Q28484432-9B046478-E136-4064-B298-4A002823C88FQ28488081-46F6EAF5-A79F-467F-9F47-AA65E3939567Q28596095-88205625-2237-4FCD-9A0D-DD39ABAA538AQ30235520-0F205D0A-A5F4-4FBD-9A5D-870ADE425080Q30370843-BE99C447-DAB8-4FA0-B0C6-548607D74271Q30426400-B0A440F4-7202-4CCC-BA3D-2EE2F267C996Q30500386-E33B8F83-B483-4ED5-AA97-D91FE75BD5BBQ30541182-8743D3BE-16EC-4169-AAFA-CF23BDA89DB7Q30587052-ADF22246-B780-427B-8673-D552E56A65E8Q30641176-BF24731E-EAA7-488B-B4B0-10D843C42CCDQ30663345-19136E33-AF28-4CA9-B4E6-67D4DE7A4378Q30836093-29151613-94A3-47F5-AF61-D84F7451D165Q33362660-BB7E19E0-67B0-4053-B668-BC94329E2A40Q33553537-8A5D6B7C-1120-4097-86F5-E4E3C4043858Q33572229-D71F18BB-A317-4356-B9DD-47328AA5F72AQ33613408-03049BF8-7DE9-4339-8520-9B5CFC24B99FQ33652889-40F4F55A-19BC-47EC-8B8F-8E7A749B8F65Q33670909-548DDFF9-008D-432C-B091-7B95F03AD44F
P2860
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Senescence in tumours: evidence from mice and humans
@en
type
label
Senescence in tumours: evidence from mice and humans
@en
prefLabel
Senescence in tumours: evidence from mice and humans
@en
P2860
P356
P1476
Senescence in tumours: evidence from mice and humans
@en
P2093
Manuel Collado
Manuel Serrano
P2860
P2888
P356
10.1038/NRC2772
P407
P577
2010-01-01T00:00:00Z