| P50 | author | Elizabeth L Ostler | Q57321170 |
| | Richard G.A. Faragher | Q63388271 |
| | Alison Willows | Q80980281 |
| P2093 | author name string | Anne McArdle | |
| P2860 | cites work | Extension of life-span by introduction of telomerase into normal human cells | Q24336088 |
| | A biomarker that identifies senescent human cells in culture and in aging skin in vivo | Q24562644 |
| | A new description of cellular quiescence | Q25257330 |
| | Naturally occurring p16(Ink4a)-positive cells shorten healthy lifespan | Q28005547 |
| | Clearance of p16Ink4a-positive senescent cells delays ageing-associated disorders | Q28252088 |
| | Accumulation of senescent cells in mitotic tissue of aging primates | Q28274849 |
| | Mediation of endogenous antioxidant enzymes and apoptotic signaling by resveratrol following muscle disuse in the gastrocnemius muscles of young and old rats | Q28385398 |
| | Senescent intimal foam cells are deleterious at all stages of atherosclerosis | Q28595661 |
| | Oxygen sensitivity severely limits the replicative lifespan of murine fibroblasts | Q29618748 |
| | The senescence-associated secretory phenotype: the dark side of tumor suppression | Q29620106 |
| | Should we treat aging as a disease? The consequences and dangers of miscategorisation. | Q30377435 |
| | Unexpected pieces to the senescence puzzle | Q33345683 |
| | A human-like senescence-associated secretory phenotype is conserved in mouse cells dependent on physiological oxygen | Q33532644 |
| | How might replicative senescence contribute to human ageing? | Q33536849 |
| | A comparison of oncogene-induced senescence and replicative senescence: implications for tumor suppression and aging | Q33848611 |
| | Identification of a novel senolytic agent, navitoclax, targeting the Bcl-2 family of anti-apoptotic factors | Q34045737 |
| | Mitochondria are required for pro-ageing features of the senescent phenotype. | Q34046100 |
| | Chronic senolytic treatment alleviates established vasomotor dysfunction in aged or atherosclerotic mice. | Q34046144 |
| | Hypoxia suppresses conversion from proliferative arrest to cellular senescence | Q34291377 |
| | Inflammation, But Not Telomere Length, Predicts Successful Ageing at Extreme Old Age: A Longitudinal Study of Semi-supercentenarians | Q34503839 |
| | Simvastatin suppresses breast cancer cell proliferation induced by senescent cells | Q34504829 |
| | Sensitive detection and monitoring of senescence-associated secretory phenotype by SASP-RAP assay | Q34526096 |
| | Keeping the senescence secretome under control: Molecular reins on the senescence-associated secretory phenotype | Q34528652 |
| | Synergistic chondroprotective effects of curcumin and resveratrol in human articular chondrocytes: inhibition of IL-1beta-induced NF-kappaB-mediated inflammation and apoptosis | Q34613489 |
| | Ndy1/KDM2B immortalizes mouse embryonic fibroblasts by repressing the Ink4a/Arf locus | Q34940029 |
| | The relationship between in vitro cellular aging and in vivo human age | Q35030773 |
| | Replicative senescence and the art of counting | Q35617912 |
| | Variation in the life-span of clones derived from human diploid cell strains | Q36196012 |
| | Mitochondrial Dysfunction Induces Senescence with a Distinct Secretory Phenotype | Q36568015 |
| | The gene responsible for Werner syndrome may be a cell division "counting" gene | Q36740224 |
| | Opposing roles for p16Ink4a and p19Arf in senescence and ageing caused by BubR1 insufficiency | Q36996311 |
| | Stromal-epithelial interactions in aging and cancer: senescent fibroblasts alter epithelial cell differentiation | Q37082277 |
| | Distinct tumor suppressor mechanisms evolve in rodent species that differ in size and lifespan | Q37086921 |
| | Immortalisation of normal human urothelial cells compromises differentiation capacity. | Q53289703 |
| | Cellular senescence in aging primates. | Q53638045 |
| | Sirtuin 1 retards hyperphosphatemia-induced calcification of vascular smooth muscle cells. | Q54577710 |
| | A P53-dependent, telomere-independent proliferative life span barrier in human astrocytes consistent with the molecular genetics of glioma development. | Q55472617 |
| | Skeletal muscle mass and distribution in 468 men and women aged 18-88 yr | Q57717731 |
| | Stochastic and genetic factors influence tissue-specific decline in ageing C. elegans | Q59066689 |
| | Cellular senescence and DNA synthesis. Thymidine incorporation as a measure of population age in human diploid cells | Q69233257 |
| | Long-term caloric restriction delays age-related decline in proliferation capacity of murine lens epithelial cells in vitro and in vivo | Q73013084 |
| | Distinction between differentiation and senescence and the absence of increased apoptosis in human keratinocytes undergoing cellular aging in vitro | Q73985525 |
| | Improvements in skeletal muscle strength and cardiac function induced by resveratrol during exercise training contribute to enhanced exercise performance in rats | Q83803005 |
| | Senescence associated secretory phenotype profile from primary lung mice fibroblasts depends on the senescence induction stimuli | Q37219543 |
| | ATM kinase enables the functional axis of YAP, PML and p53 to ameliorate loss of Werner protein-mediated oncogenic senescence. | Q37219985 |
| | Changes in the expression of splicing factor transcripts and variations in alternative splicing are associated with lifespan in mice and humans. | Q37235609 |
| | Robust, universal biomarker assay to detect senescent cells in biological specimens | Q37591953 |
| | Identification of Senescent Cells in the Bone Microenvironment | Q37621816 |
| | How to become immortal: let MEFs count the ways | Q37727739 |
| | Tumour suppressors and cellular senescence | Q38306855 |
| | Cellular senescence: from growth arrest to immunogenic conversion | Q38383224 |
| | p16(Ink4a)-induced senescence of pancreatic beta cells enhances insulin secretion. | Q38788371 |
| | Metformin inhibits proliferation and proinflammatory cytokines of human keratinocytes in vitro via mTOR-signaling pathway | Q38841006 |
| | Raman and Infrared Spectroscopy Distinguishing Replicative Senescent from Proliferating Primary Human Fibroblast Cells by Detecting Spectral Differences Mainly Due to Biomolecular Alterations. | Q38963792 |
| | Telomeres are favoured targets of a persistent DNA damage response in ageing and stress-induced senescence. | Q39378063 |
| | A transcriptomic analysis of the EK1.Br strain of human fibroblastoid keratocytes: the effects of growth, quiescence and senescence | Q39904614 |
| | Reversal of senescence in mouse fibroblasts through lentiviral suppression of p53. | Q40674805 |
| | Replicative senescence of human skin fibroblasts correlates with a loss of regulation and overexpression of collagenase activity | Q41272633 |
| | Microarray analysis of replicative senescence | Q41693910 |
| | Postmitotic neurons develop a p21-dependent senescence-like phenotype driven by a DNA damage response | Q42018166 |
| | NF-κB inhibition delays DNA damage-induced senescence and aging in mice | Q42220488 |
| | Inhibitory effects of resveratrol on MCP-1, IL-6, and IL-8 production in human coronary artery smooth muscle cells | Q42438255 |
| | Resveratrol protects against physical fatigue and improves exercise performance in mice. | Q42711789 |
| | Chronic resveratrol treatment ameliorates cell adhesion and mitigates the inflammatory phenotype in senescent human fibroblasts | Q42716214 |
| | Intramitotic variation in proliferative potential: stochastic events in cellular aging | Q43508680 |
| | Microarray analysis of senescent vascular smooth muscle cells: A link to atherosclerosis and vascular calcification | Q43890491 |
| | Both Rb/p16INK4a inactivation and telomerase activity are required to immortalize human epithelial cells. | Q44816904 |
| | Resveratrol protects cortical neurons against microglia-mediated neuroinflammation | Q45468485 |
| | Rapamycin and the inhibition of the secretory phenotype | Q46422298 |
| | Cellular senescence occurred widespread to multiple selective sites in the fetal tissues and organs of mice | Q48475029 |
| | A quantitative analysis of the aging of human glial cells in culture | Q48711099 |
| | Red Grape Skin Polyphenols Blunt Matrix Metalloproteinase-2 and -9 Activity and Expression in Cell Models of Vascular Inflammation: Protective Role in Degenerative and Inflammatory Diseases. | Q50229564 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1219 | |
| P577 | publication date | 2017-07-25 | |
| P1433 | published in | F1000Research | Q27701587 |
| P1476 | title | Senescence in the aging process | |
| P478 | volume | 6 | |