about
Fatty acid synthase inhibitors induce apoptosis in non-tumorigenic melan-a cells associated with inhibition of mitochondrial respiration.Protection of rat skeletal muscle fibers by either L-carnitine or coenzyme Q10 against statins toxicity mediated by mitochondrial reactive oxygen generationActivation of the mitochondrial ATP-sensitive K+ channel reduces apoptosis of spleen mononuclear cells induced by hyperlipidemia.Mitochondrial energy metabolism and redox responses to hypertriglyceridemia.Clusianone, a naturally occurring nemorosone regioisomer, uncouples rat liver mitochondria and induces HepG2 cell death.C-Phycocyanin protects SH-SY5Y cells from oxidative injury, rat retina from transient ischemia and rat brain mitochondria from Ca2+/phosphate-induced impairment.Visualizing inhibition of fatty acid synthase through mass spectrometric analysis of mitochondria from melanoma cells.The anti-cancer agent nemorosone is a new potent protonophoric mitochondrial uncoupler.Inhibition of fatty acid synthase in melanoma cells activates the intrinsic pathway of apoptosis.Acute effect of fatty acids on metabolism and mitochondrial coupling in skeletal muscle.Hypothalamic actions of tumor necrosis factor alpha provide the thermogenic core for the wastage syndrome in cachexia.Mitochondrial ATP-sensitive K(+) channels as redox signals to liver mitochondria in response to hypertriglyceridemia.Hydrogen peroxide production regulates the mitochondrial function in insulin resistant muscle cells: effect of catalase overexpression.Hypertriglyceridemia increases mitochondrial resting respiration and susceptibility to permeability transition.Cold-induced PGC-1alpha expression modulates muscle glucose uptake through an insulin receptor/Akt-independent, AMPK-dependent pathway.Direct Visualization of Neurotransmitters in Rat Brain Slices by Desorption Electrospray Ionization Mass Spectrometry Imaging (DESI - MS).Long-chain acyl-CoA synthetase 6 regulates lipid synthesis and mitochondrial oxidative capacity in human and rat skeletal muscle.Statins induce calcium-dependent mitochondrial permeability transition.Protective action of Omega-3 on paraquat intoxication in Drosophila melanogaster.Mitochondrial structure and dynamics as critical factors in honey bee (Apis mellifera L.) caste development.The cytotoxic effects of brown Cuban propolis depend on the nemorosone content and may be mediated by mitochondrial uncoupling.Characterization of the stimulus for reactive oxygen species generation in calcium-overloaded mitochondria.Effect of lipid infusion on metabolism and force of rat skeletal muscles during intense contractions.Triglyceride depletion of brown adipose tissue enables analysis of mitochondrial respiratory function in permeabilized biopsies.Overexpression of apolipoprotein CIII increases and CETP reverses diet-induced obesity in transgenic mice.Melatonin prevents mitochondrial dysfunction and insulin resistance in rat skeletal muscle.Attenuation of Ca2+ homeostasis, oxidative stress, and mitochondrial dysfunctions in diabetic rat heart: insulin therapy or aerobic exercise?The combination of conjugated linoleic acid (CLA) and extra virgin olive oil increases mitochondrial and body metabolism and prevents CLA-associated insulin resistance and liver hypertrophy in C57Bl/6 mice.Evaluation of the cytotoxic activity of a toxin isolated from Rhinella schineideri toad poison on HepG2 cells and hepatocytesHyperlipidemic mice present enhanced catabolism and higher mitochondrial ATP-sensitive K+ channel activityRelease of NO from a nitrosyl ruthenium complex through oxidation of mitochondrial NADH and effects on mitochondriaThe anti-cancer agent guttiferone-A permeabilizes mitochondrial membrane: ensuing energetic and oxidative stress implicationsThe highly efficient powerhouse in the Wistar audiogenic rat, an epileptic rat strainPhysical training, UCP1 expression, mitochondrial density, and coupling in adipose tissue from women with obesity
P50
Q33807145-305433B1-59A8-49D2-B60B-D900598BDE4BQ36844636-F8E3E048-BB39-4F33-B558-DFC6BA702457Q36958372-420D97C4-906A-4EC5-BFA1-044AA40F50DCQ37831820-0557BC8C-141A-4736-85C3-4923AA5B0836Q39027672-155A680E-0186-4146-9D3D-2EA5C66F9995Q39277968-69C07C36-5101-4E61-AB6D-12A7B9AD5D3AQ39611046-D2C5D15F-5BBE-4EEF-96D3-803A28A9B5C5Q39636680-7EBC2637-B75B-48BD-93E3-C615191360A2Q39661482-2B518CFB-4258-41DB-AE95-BC2DBBD404FBQ42488467-64B523E6-2C4C-4EB6-A9BD-366969312CBCQ43227327-C7D518D5-F2F6-45FC-BA5C-2EA192CCD3BFQ43286918-F7DB9F5E-86C2-4BCA-A73A-F112A903F8E8Q44575724-D4B2DE65-9D64-45A4-AA85-A55F84FAF777Q44740374-6879AC4C-52DB-49BD-9FBE-E74E7913653FQ44912758-816C3952-4D21-4AD7-A38A-A627F77B2128Q46467900-CE3092D2-A7E4-4114-BAAE-8236C8770B8AQ46487641-D3CE0A55-C25B-4E00-9B77-99D17F9725DFQ46847352-4D8B9FE0-6451-4A43-A6B6-6490FCC53CC6Q47789846-807519C1-F4E0-4CA5-A298-ECECD333710BQ50219914-CD0688E2-797B-4D2E-97CC-22D03F40A28FQ50453103-43309C2F-FEE6-4933-9D7C-E42A186CBF3EQ50528561-88396499-E9ED-4CFC-B6D1-4AAF130C0D3CQ50690029-E9AF3871-A91A-49CE-9B6A-F7998715983CQ51437117-699424E9-32D5-499B-99B4-3DA9347BC744Q51472170-69C78940-B718-4905-88E7-E48D42156D3FQ51713401-13C6B35D-882F-4C78-8DC0-BB1C6A46AE0FQ52660233-3E83A59A-5094-4354-B983-06D4C56F5917Q52884732-A88205A6-5CD2-48C5-A329-48A0E4A88291Q60199529-B329CC2F-085E-4E1F-86D6-B95E6619A914Q79214419-2FC85F9A-E269-45F8-8A1D-7478129C3ADBQ83473308-922A1A80-ED8F-4925-9913-0958E291E79FQ84055874-869D1FEE-871A-4A83-905D-FB93CD08B2F7Q90275300-FC4EDF42-F23B-46BB-A741-A7F9C1AAF92DQ91698732-E99D08AB-06D9-4D3A-83AB-74AB1062A984
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Luciane C Alberici
@ast
Luciane C Alberici
@en
Luciane C Alberici
@es
Luciane C Alberici
@nl
Luciane C Alberici
@sl
type
label
Luciane C Alberici
@ast
Luciane C Alberici
@en
Luciane C Alberici
@es
Luciane C Alberici
@nl
Luciane C Alberici
@sl
prefLabel
Luciane C Alberici
@ast
Luciane C Alberici
@en
Luciane C Alberici
@es
Luciane C Alberici
@nl
Luciane C Alberici
@sl
P1053
J-3013-2015
P106
P31
P3829
P496
0000-0002-7464-9385