about
Cardiac-specific overexpression of caveolin-3 attenuates cardiac hypertrophy and increases natriuretic peptide expression and signalingIL-6 mediated degeneration of forebrain GABAergic interneurons and cognitive impairment in aged mice through activation of neuronal NADPH oxidaseFrom Human Mesenchymal Stem Cells to Insulin-Producing Cells: Comparison between Bone Marrow- and Adipose Tissue-Derived Cells.Mitochondria-localized caveolin in adaptation to cellular stress and injury.Loss of caveolin-1 accelerates neurodegeneration and aging.Metabolic depression and increased reactive oxygen species production by isolated mitochondria at moderately lower temperatures.Hypoxia-adaptation involves mitochondrial metabolic depression and decreased ROS leakageNeuron-targeted caveolin-1 protein enhances signaling and promotes arborization of primary neurons.An in vitro ischemic penumbral mimic perfusate increases NADPH oxidase-mediated superoxide production in cultured hippocampal neurons.Hydrogen Sulfide--Mechanisms of Toxicity and Development of an Antidote.A kinase interacting protein (AKIP1) is a key regulator of cardiac stress.SOD activity of carboxyfullerenes predicts their neuroprotective efficacy: a structure-activity study.AMPK dysregulation promotes diabetes-related reduction of superoxide and mitochondrial functionEpicatechin regulation of mitochondrial structure and function is opioid receptor dependent.Interleukin-6 mediates the increase in NADPH-oxidase in the ketamine model of schizophrenia.Resolving Contributions of Oxygen-Consuming and ROS-Generating Enzymes at the Synapse.Traumatic brain injury enhances neuroinflammation and lesion volume in caveolin deficient miceDoes hyperoxia selection cause adaptive alterations of mitochondrial electron transport chain activity leading to a reduction of superoxide production?Bardoxolone-methyl inhibits migration and metabolism in MCF7 cells.The diabetic brain and cognition.Copper influx transporter 1 is required for FGF, PDGF and EGF-induced MAPK signaling.Gender differences in free radical homeostasis during aging: shorter-lived female C57BL6 mice have increased oxidative stress.A biologically effective fullerene (C60) derivative with superoxide dismutase mimetic properties.Distinct pathways of cholesterol biosynthesis impact on insulin secretion.Physiological and pathophysiological reactive oxygen species as probed by EPR spectroscopy: the underutilized research window on muscle ageing.Hypoxia-inducible factor-1α activation improves renal oxygenation and mitochondrial function in early chronic kidney disease.Prolonged alpha-tocopherol deficiency decreases oxidative stress and unmasks alpha-tocopherol-dependent regulation of mitochondrial function in the brain.Photosensitized generation of singlet oxygen from rhenium(I) and iridium(III) complexes.A carboxyfullerene SOD mimetic improves cognition and extends the lifespan of mice.Corrigendum to "Resolving Contributions of Oxygen-Consuming and ROS-Generating Enzymes at the Synapse".Role of mitochondria in rescuing glycolytically inhibited subpopulation of triple negative but not hormone-responsive breast cancer cellsDesign, synthesis and cytotoxic activity of water-soluble quinones with dibromo-p-benzoquinone cores and amino oligo(ethylene glycol) side chains against MCF-7 breast cancer cells
P50
Q24629099-5EB073CD-86C5-4747-BAE1-B5AACCDB5850Q27349298-039D007E-2F93-4541-9ECD-F13490C96A2CQ33726367-C48C2888-6E04-49F1-B38B-B5FEB426CEEBQ33729738-C83404D2-6993-4E1B-A3E9-905C2A4E8013Q33784520-E082BED8-C443-47A3-BB6F-267D3E906532Q34186636-029BD7A3-3FA8-476C-9253-93DE3D6D6954Q34264979-B7DBBD6E-9D6D-4112-86ED-A35B4D5082AEQ35312895-E7617D62-863F-4505-9787-FB771A704D25Q35888456-F957B463-DC74-463C-A78C-2F812DF14100Q35923856-ACC37159-5257-48F6-84F1-41FC6DA14159Q36583071-E17C2A26-8202-49DC-8596-8EB5CCC56820Q37118859-0A08C65A-FDF1-4FFC-A07E-191275BF8AD2Q37259208-FF0600D8-B4EB-4470-8334-9DD041B62A6AQ37330216-FE68D986-5A59-4D4C-BBB4-4C511401605BQ37364399-56046FC7-DBB1-4379-B72B-852E43713BE2Q37492608-61A831F8-91EE-4290-A14B-8155B90FE21AQ37685036-F3B51EB5-8358-4AA0-B04E-3492188CB6C5Q37974328-05590D32-4BB2-4F13-8DCC-B24D0177C8E5Q38712952-88F77F9A-D136-41AB-804F-7C9D0E3F78CAQ40098573-B3853319-C71F-4220-ABEB-5EE82CD0D311Q42063000-DE2988A1-3F5F-49EA-8120-BAA53C7E5B58Q44761053-75CC5236-845E-4ACF-82A5-AB4E941A9912Q45080405-3059DE59-F49C-4CAD-812C-60403D7E8DF0Q46445949-3CC29678-AE2C-4BA8-A676-0276F288883AQ46606292-1B6A6602-1A8B-4F77-A1D6-5D0989F1A0A2Q46744839-9D8ADD1F-AF6E-4C3A-94A4-9EBD9C0E75EBQ46819051-86221DDA-F186-46AB-BA0F-A69EEEC0EC6AQ46872638-0B6F6579-EEDD-468F-9032-8B4987E01166Q48381277-F5E14ED6-D414-4DD1-9DFA-7659DCAEA476Q49215565-3F7253D0-D847-4120-A441-CD1FF937B6B9Q90262361-B714E265-4E51-414B-9F4A-1996E6BEC58CQ90949604-3EC7D896-FB21-441E-85A9-BC052C6EF1FB
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Sameh S Ali
@nl
Sameh S Ali
@sl
Sameh S. Ali
@en
Sameh S. Ali
@es
type
label
Sameh S Ali
@nl
Sameh S Ali
@sl
Sameh S. Ali
@en
Sameh S. Ali
@es
prefLabel
Sameh S Ali
@nl
Sameh S Ali
@sl
Sameh S. Ali
@en
Sameh S. Ali
@es
P106
P1153
8365910300
P31
P496
0000-0002-0339-6106
P569
2000-01-01T00:00:00Z