about
Screening for active small molecules in mitochondrial complex I deficient patient's fibroblasts, reveals AICAR as the most beneficial compoundStimulation of autophagy improves endoplasmic reticulum stress-induced diabetesDual role of proapoptotic BAD in insulin secretion and beta cell survivalThe histone deacetylase Sirt6 regulates glucose homeostasis via Hif1alphaBiophysical properties of mitochondrial fusion events in pancreatic beta-cells and cardiac cells unravel potential control mechanisms of its selectivity.A novel high-throughput assay for islet respiration reveals uncoupling of rodent and human islets.Beta-cell uncoupling protein 2 regulates reactive oxygen species production, which influences both insulin and glucagon secretionFatty acids suppress autophagic turnover in β-cellsA bioenergetic profile of non-transformed fibroblasts uncovers a link between death-resistance and enhanced spare respiratory capacity.Mitochondrial networking protects beta-cells from nutrient-induced apoptosis.What can mitochondrial heterogeneity tell us about mitochondrial dynamics and autophagy?Hormone-induced mitochondrial fission is utilized by brown adipocytes as an amplification pathway for energy expenditure.AMPK regulates ER morphology and function in stressed pancreatic β-cells via phosphorylation of DRP1.Novel mutations in Darier disease and association to self-reported disease severity.-Cell Mitochondria Exhibit Membrane Potential Heterogeneity That Can Be Altered by Stimulatory or Toxic Fuel LevelsDifferences in cutaneous melanoma treatment and patient satisfactionMitochondrial Proton Leak Regulated by Cyclophilin D Elevates Insulin Secretion in Islets at Nonstimulatory Glucose LevelsImprovement of Hailey-Hailey disease with low-dose naltrexoneCorrection: A Novel High-Throughput Assay for Islet Respiration Reveals Uncoupling of Rodent and Human Islets
P50
Q28477645-53A40452-E7AE-4291-A122-28E800E68289Q28506554-D91166B4-0DCF-4E7F-899E-D20E88315967Q28586275-98A1DCB9-F73C-4D03-BACA-A8AC66D0C659Q28588941-2253D4F5-81C4-4333-B80E-1ACE2D271DF6Q34085652-57724AB9-7B63-49BD-8BCE-FD3579B62EEBQ34273442-05D0C3EC-6209-4650-9FCD-AB98CE7D917CQ35405168-55AA55AB-20FF-43B9-A5F8-2A8EAD34A0A6Q35604849-FFD89EB0-7410-4967-A687-6106FFD1373FQ37334400-9BB09BD0-B73B-4F7A-A75D-DC73302CE719Q37360471-42FA01BD-A4E9-4BC4-B73A-9423C6432E43Q37528718-6F452943-2CC6-4336-9538-CC3A3DC0ECF8Q37697959-3543C3CB-3953-444D-85FE-1346B9034899Q39104609-5756FEB7-7A00-4086-B127-1E3A6F791F3DQ42701673-5B6DD74C-F6AA-4E3C-AC01-1961B54AA3ADQ57499693-D2722AFE-B2D5-43D2-A669-192A45332E9BQ57788775-CFE59FD8-421B-4414-9768-BEDE893D2012Q91328741-19E6ADE0-0ACF-41BA-8564-728B67066F91Q92486035-2ACB9BB1-183C-43AF-9299-1B58CA126519Q94022719-F34BFDC2-0116-4214-8240-B99C6572118B
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jakob D Wikstrom
@ast
Jakob D Wikstrom
@en
Jakob D Wikstrom
@es
Jakob D Wikstrom
@nl
type
label
Jakob D Wikstrom
@ast
Jakob D Wikstrom
@en
Jakob D Wikstrom
@es
Jakob D Wikstrom
@nl
prefLabel
Jakob D Wikstrom
@ast
Jakob D Wikstrom
@en
Jakob D Wikstrom
@es
Jakob D Wikstrom
@nl
P106
P31
P496
0000-0002-4287-1774