The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
about
Cancer as a metabolic diseaseTIGAR regulates DNA damage and repair through pentosephosphate pathway and Cdk5-ATM pathwayOxidative stress and the unfulfilled promises of antioxidant agentsTo breathe or not to breathe: the haematopoietic stem/progenitor cells dilemmaQuantitative redox biology: an approach to understand the role of reactive species in defining the cellular redox environmentDisabling Mitochondrial Peroxide Metabolism via Combinatorial Targeting of Peroxiredoxin 3 as an Effective Therapeutic Approach for Malignant MesotheliomaChemiluminescence Imaging of Superoxide Anion Detects Beta-Cell Function and MassDifferential Response of Human Embryonic Stem and Somatic Cells to Non-Cytotoxic Hydrogen Peroxide Exposure: An Attempt to Model In Vitro the Effects of Oxidative Stress on the Early EmbryoRedox regulation of endothelial cell fateModulation of astrocytic mitochondrial function by dichloroacetate improves survival and motor performance in inherited amyotrophic lateral sclerosisCissus quadrangularis Linn. Stem Ethanolic Extract Liberates Reactive Oxygen Species and Induces Mitochondria Mediated Apoptosis in KB CellsPeroxiredoxin 3 is a redox-dependent target of thiostrepton in malignant mesothelioma cellsAging and the Mammalian regulatory triumvirateA possible role of microglia-derived nitric oxide by lipopolysaccharide in activation of astroglial pentose-phosphate pathway via the Keap1/Nrf2 systemPathological features in the LmnaDhe/+ mutant mouse provide a novel model of human otitis media and laminopathies.Induction of robust de novo centrosome amplification, high-grade spindle multipolarity and metaphase catastrophe: a novel chemotherapeutic approach.Arabidopsis RETINOBLASTOMA-RELATED is required for stem cell maintenance, cell differentiation, and lateral organ production.Redox Changes During the Cell Cycle in the Embryonic Root Meristem of Arabidopsis thalianaNeuroprotective effects of phenylethanoid glycosides in an in vitro model of Alzheimer's disease.Developmental arrest of Caenorhabditis elegans BRAP-2 mutant exposed to oxidative stress is dependent on BRC-1.RETRACTED: DDB2, an essential mediator of premature senescenceKeap1 modulates the redox cycle and hepatocyte cell cycle in regenerating liver.The NADPH oxidases NOX4 and DUOX2 regulate cell cycle entry via a p53-dependent pathway.Effects of chronic caloric restriction on kidney and heart redox status and antioxidant enzyme activities in Wistar ratsAndrogen receptor drives cellular senescence.Growth signaling promotes chronological aging in budding yeast by inducing superoxide anions that inhibit quiescenceA genome-wide screen in yeast identifies specific oxidative stress genes required for the maintenance of sub-cellular redox homeostasis.Phosphorylation and subcellular localization of p27Kip1 regulated by hydrogen peroxide modulation in cancer cellsCellular redox imbalance and changes of protein S-glutathionylation patterns are associated with senescence induced by oncogenic H-rasNuclear cytoplasmic trafficking of proteins is a major response of human fibroblasts to oxidative stressQuantitative proteomics reveals a "poised quiescence" cellular state after triggering the DNA replication origin activation checkpoint.Subcellular proteomics reveals a role for nucleo-cytoplasmic trafficking at the DNA replication origin activation checkpointComputational modelling of the regulation of Insulin signalling by oxidative stress.Distinct redox regulation in sub-cellular compartments in response to various stress conditions in Saccharomyces cerevisiaeRole of DNA methylation in cell cycle arrest induced by Cr (VI) in two cell lines.Proteomics study of N-acetylcysteine response in H1N1-infected cells by using mass spectrometry.A colloidal singularity reveals the crucial role of colloidal stability for nanomaterials in-vitro toxicity testing: nZVI-microalgae colloidal system as a case studyMultimodality Imaging of Cancer Superoxide Anion Using the Small Molecule Coelenterazine.Redox-modulating agents target NOX2-dependent IKKε oncogenic kinase expression and proliferation in human breast cancer cell linesActivated AMPK boosts the Nrf2/HO-1 signaling axis--A role for the unfolded protein response.
P2860
Q21245061-9FB9500C-5A8A-43BA-8912-F934FCB8E305Q24337162-CE69EECC-7876-4A8B-84E7-41E22D8FFEC4Q26797300-F1FD8018-F97A-471F-B5CF-93028FA87A18Q26825809-FCBF345E-4377-4C9E-94A1-EA8F1FB32D21Q27015003-C839E33D-1CDC-4C25-B460-DEB467E2A097Q27306784-2F2F7D59-4A28-4907-B35E-0F9ABB3BEEDBQ27331913-F96369C6-3D1E-44F7-A1A0-98A502431EE8Q28392180-CA61575B-A13B-4C6F-8462-18070A330B13Q28392484-4C4901EC-8073-4054-B462-EC31FE118C84Q28482111-B370A54B-EC0E-4930-8F6C-ADC2DE5E0857Q28550020-3AF1CACD-4673-4E68-A183-70D6BB974D39Q28728015-7509BBB2-BDA9-4126-93B3-26740FC62710Q28731496-C717B189-A9E1-4F0C-81D4-B4CD048F151CQ28833599-304B92ED-1376-4670-8D9E-121E5AC15822Q30449841-A1F4E240-DEFD-4001-B72A-041ACB898ABEQ30523067-FE2949FD-0138-4A88-A951-2633200E4375Q33349206-E38DB60E-117D-497A-9DCE-AF047516BA55Q33365322-255035CD-4B2E-4707-B5B1-251D327BD38CQ33723958-13F72D39-258E-4C5F-B46F-5AF9428383BAQ33809937-455452F5-7C3B-4915-8CEA-C47F6AF52F06Q33876992-A2CA3C2A-9A84-4341-9A57-521ECC4F4ADFQ34028523-4E4BC919-DA75-481F-8C60-715B9B4A4385Q34047799-A92EDD95-CB39-4550-9F51-6C500166C1C6Q34049160-EB0659D3-08D5-4464-A08C-C5E616F35848Q34189267-06A69935-6D7A-4A6A-B26E-A57D2E10636CQ34361242-6E8AB329-2642-4B9E-A975-134AF1B8046DQ34412343-B4A3D00E-DAD5-4076-934F-E631CDFF1036Q34412491-FF161EE9-53E1-4F4F-8947-E371025825CFQ34533152-AE0582AF-5F5E-452F-B1DF-E3B62881515CQ34651070-F50133FF-469B-4CD4-A829-E337B575E7B1Q34667720-B4AE069D-4F0F-4A24-9281-198014D77C01Q34667732-EB83EEFF-23AB-4EAC-AF69-FE3E3AD22D3DQ34738870-D76D70ED-3BC5-4197-8856-4C825AF42219Q34769727-E521570C-2759-4B6D-B569-2EC5C1D5DBDAQ34936658-5472C9C6-FC07-4E54-B03B-AF74D7FA521CQ35103612-7D7963CF-7AC3-4641-A10E-27003B4F5302Q35361266-E735A42A-98E2-4331-A94E-AEA3BDF4122BQ35792733-520AFFF1-F879-44B7-BA80-03C5148D3DC7Q35880182-4F4A5B48-FFB3-4E6B-9F1F-92B4DC9AD073Q36055760-738F0FEE-90A2-4A5A-ABF0-595BB564F974
P2860
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 29 May 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@en
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@nl
type
label
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@en
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@nl
prefLabel
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@en
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@nl
P1476
The cell cycle is a redox cycle: linking phase-specific targets to cell fate.
@en
P2093
Nicholas H Heintz
William C Burhans
P304
P356
10.1016/J.FREERADBIOMED.2009.05.026
P577
2009-05-29T00:00:00Z