scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.YEXCR.2011.02.015 |
P698 | PubMed publication ID | 21376036 |
P2093 | author name string | Matthias Meyer | |
Michael Nerlich | |||
Peter Angele | |||
Volker Bechmann | |||
Anita Brandl | |||
P2860 | cites work | hSIR2(SIRT1) functions as an NAD-dependent p53 deacetylase | Q24291829 |
Telomere shortening triggers senescence of human cells through a pathway involving ATM, p53, and p21(CIP1), but not p16(INK4a) | Q24293520 | ||
A biomarker that identifies senescent human cells in culture and in aging skin in vivo | Q24562644 | ||
Oxidative damage in telomeric DNA disrupts recognition by TRF1 and TRF2 | Q24793970 | ||
Multilineage potential of adult human mesenchymal stem cells | Q27860737 | ||
Oxidative stress shortens telomeres | Q29615533 | ||
How shelterin protects mammalian telomeres | Q29615744 | ||
A DNA damage checkpoint response in telomere-initiated senescence | Q29615919 | ||
Diverse and dynamic functions of the Sir silencing complex | Q33764672 | ||
Role of oxidative stress in telomere length regulation and replicative senescence | Q33981567 | ||
The illusion of cell immortality | Q34022020 | ||
Cellular and molecular mechanisms of stress-induced premature senescence (SIPS) of human diploid fibroblasts and melanocytes | Q34106524 | ||
Replicative aging, telomeres, and oxidative stress | Q34614407 | ||
Telomere attrition and Chk2 activation in human heart failure | Q34983035 | ||
The mammalian XRCC genes: their roles in DNA repair and genetic stability | Q35136164 | ||
The XRCC genes: expanding roles in DNA double-strand break repair | Q35848511 | ||
The signals and pathways activating cellular senescence | Q36060167 | ||
The telosome/shelterin complex and its functions | Q37284026 | ||
Up-regulation of telomere-binding TRF1, TRF2 related to reactive oxygen species induced by As(2)O(3) in MGC-803 cells | Q40420235 | ||
Telomere length mediates the effects of telomerase on the cellular response to genotoxic stress | Q40537821 | ||
Uncoupling the senescent phenotype from telomere shortening in hydrogen peroxide-treated fibroblasts | Q40812808 | ||
Influence of the growth factors PDGF-BB, TGF-beta1 and bFGF on the replicative aging of human articular chondrocytes during in vitro expansion | Q43268178 | ||
Subcytotoxic H2O2 stress triggers a release of transforming growth factor-beta 1, which induces biomarkers of cellular senescence of human diploid fibroblasts | Q43438241 | ||
Telomere states and cell fates | Q46830116 | ||
Oxidative stress induces senescence in chondrocytes. | Q53270994 | ||
The use of telomere biology to identify and develop superior nitrone based anti-oxidants. | Q53612670 | ||
Telomere-driven replicative senescence is a stress response | Q60284656 | ||
Replikative Seneszenz als Alternsmodell: Die Rolle von oxidativem Streß und Telomerenverkürzung - eine übersicht | Q60284703 | ||
White cell telomere length and risk of premature myocardial infarction | Q73154540 | ||
Telomere shortening in atherosclerosis | Q74402888 | ||
Role of oxidative stress in telomere shortening in cultured fibroblasts from normal individuals and patients with ataxia-telangiectasia | Q78850608 | ||
Irreversible cellular senescence induced by prolonged exposure to H2O2 involves DNA-damage-and-repair genes and telomere shortening | Q81655315 | ||
P433 | issue | 11 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1541-1547 | |
P577 | publication date | 2011-03-02 | |
P1433 | published in | Experimental Cell Research | Q1524289 |
P1476 | title | Oxidative stress induces senescence in human mesenchymal stem cells. | |
P478 | volume | 317 |
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Q43871288 | Mesenchymal stem cells (MSCs) from scleroderma patients (SSc) preserve their immunomodulatory properties although senescent and normally induce T regulatory cells (Tregs) with a functional phenotype: implications for cellular-based therapy. |
Q36883559 | Mesenchymal stem cells, aging and regenerative medicine |
Q37527808 | Microarray expression profiles of genes in lung tissues of rats subjected to focal cerebral ischemia-induced lung injury following bone marrow-derived mesenchymal stem cell transplantation |
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Q48314148 | Oxidative stress preconditioning of mouse perivascular myogenic progenitors selects a subpopulation of cells with a distinct survival advantage in vitro and in vivo. |
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Q58699427 | Serum from patients with chronic obstructive pulmonary disease induces senescence-related phenotype in bronchial epithelial cells |
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Q92826446 | Short exposure to cold atmospheric plasma induces senescence in human skin fibroblasts and adipose mesenchymal stromal cells |
Q38687525 | Sublethal heat shock induces premature senescence rather than apoptosis in human mesenchymal stem cells. |
Q37156197 | Sublethal oxidative stress induces the premature senescence of human mesenchymal stem cells derived from endometrium |
Q35784732 | Telomere Fragment Induced Amnion Cell Senescence: A Contributor to Parturition? |
Q33952618 | Telomeres shorten in response to oxidative stress in mouse skeletal muscle fibers |
Q36781235 | Tetraploidization or autophagy: The ultimate fate of senescent human endometrial stem cells under ATM or p53 inhibition |
Q35935135 | The HIV proteins Tat and Nef promote human bone marrow mesenchymal stem cell senescence and alter osteoblastic differentiation |
Q89965591 | The Immunomodulatory Properties of the Human Amnion-Derived Mesenchymal Stromal/Stem Cells Are Induced by INF-γ Produced by Activated Lymphomonocytes and Are Mediated by Cell-To-Cell Contact and Soluble Factors |
Q37604346 | The effects of the DNA methyltranfserases inhibitor 5-Azacitidine on ageing, oxidative stress and DNA methylation of adipose derived stem cells. |
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