Aging by epigenetics--a consequence of chromatin damage?
about
Genome-environment interactions that modulate aging: powerful targets for drug discoveryEpigenetics and agingThe role of DNA methylation in aging, rejuvenation, and age-related diseaseHeterochromatin formation promotes longevity and represses ribosomal RNA synthesisLoss of ATRX does not confer susceptibility to osteoarthritisTissue- and age-dependent expression of RNA-binding proteins that influence mRNA turnover and translationEpigenetic oxidative redox shift (EORS) theory of aging unifies the free radical and insulin signaling theories.Scoring of senescence signalling in multiple human tumour gene expression datasets, identification of a correlation between senescence score and drug toxicity in the NCI60 panel and a pro-inflammatory signature correlating with survival advantage inA Fine-Tune Role of Mir-125a-5p on Foxn1 During Age-Associated Changes in the Thymus.An epigenetic hypothesis of aging-related cognitive dysfunctionA role for SUV39H1-mediated H3K9 trimethylation in the control of genome stability and senescence in WI38 human diploid lung fibroblastsWI-38 senescence is associated with global and site-specific hypomethylation.Chromatin remodeling in the aging genome of Drosophila.Stem cells and aging: a chicken-or-the-egg issue?Epigenetics across the human lifespan.Epigenetic changes play critical role in age-associated dysfunctions of the liver.Age-associated increase in heterochromatic marks in murine and primate tissues.Manifestations and mechanisms of stem cell aging.Asthma in the elderly: Current understanding and future research needs--a report of a National Institute on Aging (NIA) workshop.Disease- and age-related changes in histone acetylation at gene promoters in psychiatric disorders.A Mutation in Plant-Specific SWI2/SNF2-Like Chromatin-Remodeling Proteins, DRD1 and DDM1, Delays Leaf Senescence in Arabidopsis thaliana.Basic concepts of epigenetics: impact of environmental signals on gene expression.Global heterochromatin loss: a unifying theory of aging?Correlated alterations in genome organization, histone methylation, and DNA-lamin A/C interactions in Hutchinson-Gilford progeria syndrome.H3K9me3 Inhibition Improves Memory, Promotes Spine Formation, and Increases BDNF Levels in the Aged Hippocampus.Genomes of replicatively senescent cells undergo global epigenetic changes leading to gene silencing and activation of transposable elements.Aging-dependent upregulation of IL-23p19 gene expression in dendritic cells is associated with differential transcription factor binding and histone modifications.Effects of hyperglycemia and aging on nuclear sirtuins and DNA damage of mouse hepatocytesHigh tandem repeat content in the genome of the short-lived annual fish Nothobranchius furzeri: a new vertebrate model for aging research.Epigenetic changes in gliomas.Epigenetic modifications in rheumatoid arthritis.Doxycycline, metronidazole and isotretinoin: Do they modify microRNA/mRNA expression profiles and function in murine T-cells?Nuclear functions of the HMG proteins.The role of CUGBP1 in age-dependent changes of liver functions.The great unravelling: chromatin as a modulator of the aging process.Senescence bypass in mesenchymal stem cells: a potential pathogenesis and implications of pro-senescence therapy in sarcomas.Causes and Consequences of Age-Related Changes in DNA Methylation: A Role for ROS?The emerging role of senescent cells in tissue homeostasis and pathophysiology.Histone modifications contribute to cellular replicative and hydrogen peroxide-induced premature senescence in human embryonic lung fibroblasts.Heterochromatin marks HP1γ, HP1α and H3K9me3, and DNA damage response activation in human testis development and germ cell tumours.
P2860
Q24615803-FD241082-28F0-432C-84B4-182E43821ABEQ26740029-ACC489AF-38D3-435B-8F8D-3598484729FDQ27025194-1F0EB3C4-8123-4D1C-BA20-C753D1C93902Q27334993-B50D07E7-E493-40DA-B6FC-F87384B32414Q28592780-D86DC922-9710-4F75-93A8-29F511EAEF31Q33588805-06DC1500-0949-46ED-9980-88759523C932Q33679242-4C397F25-4FD7-40AA-A4D5-D2555E8B5228Q33710045-4D8DD08B-4BC5-4E01-ABCE-4C6C9F417E80Q33714246-AC2B2C6E-E9C4-4D02-883E-C8A0E4E29CA8Q33868359-1A292882-0F61-436D-9C9C-58A12D2C8FC4Q34128604-2C27C2C1-52EC-40BB-86B4-E8AD4E42B911Q34128610-6BA966F2-FF33-4689-A009-2C9CE189059DQ34306290-D38395D8-6A14-4D18-BF47-28CD11D15C4EQ34314546-79656B1B-59BB-4BC8-A2B0-81E3C4F6FF90Q34391404-778B6F0C-5997-4CCD-A5F8-201C7B4DE67DQ34613442-8FA651DF-0B41-4C49-834C-36BB24C7BCC3Q34813527-26C39F04-C472-40F0-8FA6-C6494F63DB73Q34825281-4ABE0CF7-EA75-4A17-BF0A-E09429062626Q35190242-85E94CD8-88B6-4D3A-9F0C-DC0E814F8545Q35835236-832BA351-D41A-4286-96C5-C0860F85CC18Q35890720-10A92A72-BEB9-42BE-9F03-91E4022FCB9FQ35911124-B5DF517D-5563-46D5-AEC6-EF67D5829169Q36149209-07048CEA-5F12-4205-AAF4-FC550FFF44ECQ36580567-7603CDF4-0DF5-4164-9112-3EFA365CE8FAQ36718683-8BF61470-FCD4-44C7-AFE9-1BBCD3A54959Q36745810-4985EBED-1C7A-4223-8532-C0010583CBE3Q36958316-D1028545-2DF1-4CB0-AE2F-58750E488011Q37056639-EFD8C017-EBE3-46EC-8044-1B77020F90F8Q37207148-B7D47731-CECB-4041-A16A-EA6180FEC3D0Q37287032-398272C3-6376-492C-B723-BB9A312483ECQ37306838-7A2661A5-F76B-46BF-A0F4-D198E6168DC7Q37419922-9E152DB2-4A86-4D70-96D7-CA81498687DEQ37596093-E6FD4FE6-64A8-45B0-BC99-2955957B15E2Q37996811-84D7261B-3CFD-4136-9DB3-4E3102103E49Q38041831-404D94BE-67D4-49E5-88C7-EDFB29C3EE9AQ38132245-6253A810-ABE9-490C-A7E7-BD67D7733B9FQ38221517-488ECEB6-4474-4647-B4BC-76D13826DF0BQ38494393-C7EABB14-7A85-4A87-AD32-1B10DB41E80DQ39627130-FD9FBFFB-55FB-4F35-8C87-D2824042D184Q39669544-2D36FD1A-59ED-4CF9-B38F-ED3411296166
P2860
Aging by epigenetics--a consequence of chromatin damage?
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Aging by epigenetics--a consequence of chromatin damage?
@ast
Aging by epigenetics--a consequence of chromatin damage?
@en
type
label
Aging by epigenetics--a consequence of chromatin damage?
@ast
Aging by epigenetics--a consequence of chromatin damage?
@en
prefLabel
Aging by epigenetics--a consequence of chromatin damage?
@ast
Aging by epigenetics--a consequence of chromatin damage?
@en
P2093
P2860
P1476
Aging by epigenetics--a consequence of chromatin damage?
@en
P2093
Gowrishankar Banumathy
John M Sedivy
Peter D Adams
P2860
P304
P356
10.1016/J.YEXCR.2008.02.023
P407
P577
2008-03-12T00:00:00Z