Low oxygen concentration extends the lifespan of cultured human diploid cells
about
The role of mitochondrial bioenergetics and reactive oxygen species in coronary collateral growthMicroengineering in cardiovascular research: new developments and translational applications.Hypoxic conditioned medium from human amniotic fluid-derived mesenchymal stem cells accelerates skin wound healing through TGF-β/SMAD2 and PI3K/Akt pathwaysAmbient oxygen promotes tumorigenesisLung cancer incidence decreases with elevation: evidence for oxygen as an inhaled carcinogenDifferential roles of hypoxia inducible factor subunits in multipotential stromal cells under hypoxic conditionThe antifibrosis effect of adrenomedullin in human lung fibroblasts.Extracellular superoxide dismutase is a major antioxidant in human fibroblasts and slows telomere shortening.Satellite cell heterogeneity revealed by G-Tool, an open algorithm to quantify myogenesis through colony-forming assaysQuiet please, do not disturb: a hypothesis of embryo metabolism and viability.Duration of senescent cell survival in vitro as a characteristic of organism longevity, an additional to the proliferative potential of fibroblasts.The role of hypoxia inducible factor-1 alpha in bypassing oncogene-induced senescenceGenome-Wide Analysis of Hypoxia-Responsive Genes in the Rice Blast Fungus, Magnaporthe oryzae.Accelerated epithelial cell senescence in IPF and the inhibitory role of SIRT6 in TGF-β-induced senescence of human bronchial epithelial cellsHormetic effect of rotenone in primary human fibroblasts.Efficient generation of patient-matched malignant and normal primary cell cultures from clear cell renal cell carcinoma patients: clinically relevant models for research and personalized medicineAn integrated view of oxidative stress in aging: basic mechanisms, functional effects, and pathological considerations.Membrane Oxidation Enables the Cytosolic Entry of Polyarginine Cell-penetrating Peptides.p19(Arf) is required for the cellular response to chronic DNA damageEffect of low oxygen tension on the biological characteristics of human bone marrow mesenchymal stem cells.Cellular senescence: its role in tumor suppression and aging.Oncogene-induced senescence and its role in tumor suppression.Senescence suppressors: their practical importance in replicative lifespan extension in stem cells.Senescence-associated secretory phenotype and its possible role in chronic obstructive pulmonary disease.Low oxygen tension stimulates collagen synthesis and COL1A1 transcription through the action of TGF-beta1.Foxp3 is a key downstream regulator of p53-mediated cellular senescence.Human Cells Cultured under Physiological Oxygen Utilize Two Cap-binding Proteins to recruit Distinct mRNAs for Translation.Chemical and Physical Approaches to Extend the Replicative and Differentiation Potential of Stem Cells.Cellular lifespan and senescence: a complex balance between multiple cellular pathways.Phosphoproteomic comparison of Pik3ca and Pten signalling identifies the nucleotidase NT5C as a novel AKT substrate.The toxicology of molecular oxygen.Morphogenic protein epimorphin protects intestinal epithelial cells from oxidative stress by the activation of EGF receptor and MEK/ERK, PI3 kinase/Akt signals.Manganese superoxide dismutase protects the proliferative capacity of confluent normal human fibroblasts.Bcl-xL and E1B-19K proteins inhibit p53-induced irreversible growth arrest and senescence by preventing reactive oxygen species-dependent p38 activation.Posttranslational inactivation of human xanthine oxidoreductase by oxygen under standard cell culture conditions.Reversal of senescence in mouse fibroblasts through lentiviral suppression of p53.Time Course Expression Analysis of 1[2-cyano-3,12-dioxooleana-1,9(11)-dien-28-oyl]imidazole Induction of Cytoprotection in Human Endothelial Cells.Cultivation of rat marrow-derived mesenchymal stem cells in reduced oxygen tension: effects on in vitro and in vivo osteochondrogenesis.Hypoxia regulates the proliferation and osteogenic differentiation of human periodontal ligament cells under cyclic tensile stress via mitogen-activated protein kinase pathways.Differentiation and Functionality of Bone Marrow-Derived Mast Cells Depend on Varying Physiologic Oxygen Conditions.
P2860
Q26851520-A6A70482-C1B6-48DF-8AC0-B873BA1504A1Q27015747-CD6992FF-E7D1-4653-B59D-36764B66EE2CQ28395211-3FA76B2A-E4DF-4E4C-9D01-31D3C71EB6F4Q28478127-C1255E95-018D-4086-B675-3E686CA765B2Q28651596-155CE08A-C6D6-4574-87C3-926FB0B0C8E1Q33950008-BD947298-A257-4C53-8925-84236E0035A3Q34075792-1A711D6A-432B-460F-873D-E2000E4AE08DQ34163867-FAE32E1E-A575-423E-BD4F-F935340D7067Q34306421-08CFDD2C-83FC-46C7-9CC6-310EABD01AC5Q34811456-F4800DCA-762A-4494-BDF3-EC401F09C7CDQ35111546-90F7423C-87EF-47AD-8B57-A8A750DBAF21Q35199324-7664E14C-22A6-4F3F-A447-DBD76FEB4242Q35737591-22230B48-BFBB-49FF-9302-9F9CD90A058EQ35771616-A8284AB7-DCD4-403D-B9DA-F08FE4921FAAQ36067056-CEC08E2B-2BC4-4F8E-AE3B-795491BB53D9Q36079074-1D98B154-4A73-4E06-AC48-5E4AC1B817C3Q36569112-3DAEA57C-BAB7-49D8-B874-AA4FE64A98F2Q36778764-3ACF89FC-4BA4-4D92-89E2-F5EDD5753F4DQ37062834-03172C6A-DAEF-4EE0-816E-14828F936E48Q37372975-87DB0C5A-0257-475E-B384-CF2FDA297783Q37419484-C4957920-C9FB-449B-B68C-42C12206592BQ37890974-42BF8D01-809C-47A7-94E0-DB2676CCCC03Q38232804-F1FA4B12-0B23-4404-9719-36C7D988AE2EQ38244614-3E477042-D0C8-4ADE-B0F4-0212FDE38271Q38290740-B6891AD9-74DF-41CE-AE63-60B62B57992FQ38413956-3EC38A0B-A91F-4080-8BAD-E83768910EC9Q38784269-BEC30615-0C8C-4ED5-9A11-F405EED7979DQ38809993-56F8F2DC-72A0-44D1-837B-871A7D7DD096Q38896922-112DB98B-E58D-48E9-AB4D-2CD4F6AE2F4BQ39036639-EE6CFA35-305C-4EAD-967B-07FFFD3BE832Q40110790-5249CB0E-7A94-48D5-A411-B12BF15AFEE7Q40246878-CE2F8485-E85C-4FCA-BD09-C0D35E6C60B3Q40451759-BE705624-B79F-42FD-ADEC-D187F497E741Q40592246-3BF58676-5E9A-48ED-B6A4-A22F4BEF46ACQ40664041-F3EB2F59-CF40-4F98-9F4F-7D511FEADEC7Q40674805-BA71D493-3D4E-4A8D-B37A-E672D18FB4DEQ42114458-54CAB9BE-0B9A-4F0C-9EC7-2A8E63DD597DQ42503360-3A3A71A0-D818-46BE-ACA9-7528962C01EFQ45059645-7B8465C9-6E88-4C0F-BD73-52540D289885Q46237877-0C8DAAE6-1E72-43F7-9B79-6B8CE88B2957
P2860
Low oxygen concentration extends the lifespan of cultured human diploid cells
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в червні 1977
@uk
name
Low oxygen concentration extends the lifespan of cultured human diploid cells
@en
Low oxygen concentration extends the lifespan of cultured human diploid cells
@nl
type
label
Low oxygen concentration extends the lifespan of cultured human diploid cells
@en
Low oxygen concentration extends the lifespan of cultured human diploid cells
@nl
prefLabel
Low oxygen concentration extends the lifespan of cultured human diploid cells
@en
Low oxygen concentration extends the lifespan of cultured human diploid cells
@nl
P356
P1433
P1476
Low oxygen concentration extends the lifespan of cultured human diploid cells
@en
P2093
P2888
P304
P356
10.1038/267423A0
P407
P577
1977-06-01T00:00:00Z
P6179
1032828917