about
Coupling between endocytosis and sphingosine kinase 1 recruitment.Environmental and genetic factors support the dissociation between α-synuclein aggregation and toxicity.Endophilin-A Deficiency Induces the Foxo3a-Fbxo32 Network in the Brain and Causes Dysregulation of Autophagy and the Ubiquitin-Proteasome System.TORC1-mediated sensing of chaperone activity alters glucose metabolism and extends lifespan.Acute and chronic mitochondrial respiratory chain deficiency differentially regulate lysosomal biogenesis.PICK1 regulates AMPA receptor endocytosis via direct interactions with AP2 α-appendage and dynamin.YKL-40 in the brain and cerebrospinal fluid of neurodegenerative dementias.Revisiting the Role of Clathrin-Mediated Endoytosis in Synaptic Vesicle Recycling.Clathrin coat controls synaptic vesicle acidification by blocking vacuolar ATPase activity.Heat-induced longevity in budding yeast requires respiratory metabolism and glutathione recyclingMembrane binding, internalization, and sorting of alpha-synuclein in the cellMitochondrial biogenesis is transcriptionally repressed in lysosomal lipid storage diseasesImpaired lysosomal acidification triggers iron deficiency and inflammation in vivoEndophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectinThe Synaptic Vesicle Cycle Revisited: New Insights into the Modes and MechanismsSpatial and Temporal Aspects of Phosphoinositides in Endocytosis Studied in the Isolated Plasma MembranesEndophilin-A regulates presynaptic Ca2+ influx and synaptic vesicle recycling in auditory hair cellsAP180 promotes release site clearance and clathrin-dependent vesicle reformation in mouse cochlear inner hair cellsCells Control BIN1-Mediated Membrane Tubulation by Altering the Membrane ChargeMitochondrial respiratory chain deficiency inhibits lysosomal hydrolysisMitochondrial fission requires DRP1 but not dynaminsRegulation of synaptic vesicle acidification at the neuronal synapsePI(4,5)P2-dependent regulation of exocytosis by amisyn, the vertebrate-specific competitor of synaptobrevin 2
P50
Q34505523-4DE19E61-C7B6-4D51-AE87-6ACDF9E282D8Q37369400-C9D5355F-F47F-424F-A6D9-29E1132D3D18Q41581798-2F00C2C5-32D5-4856-A8EB-2E0425C7112DQ41628978-9CE67541-E957-4070-B61A-DA2676A2AB1CQ41928343-9AB7F665-8EC8-4B03-A3A4-140C59521E61Q42099817-5F644D0F-EB2D-4C40-BCEB-49FBA27AB808Q45811351-B914A56C-7A10-4A33-9BFE-376BEE4BF866Q50329948-DFBF92DC-F362-4313-89F0-0F0CA9B1857FQ52590222-43F72D61-0CAF-405F-B090-625AE07282F8Q58728767-A902ECC7-9404-461F-8081-A4007ABDD819Q58783524-8484B481-DC02-4E21-A5FE-8BDB295D35F1Q61795799-555C9348-6D92-469E-9097-5DEE94A603D0Q83225617-605EF5B7-6FE1-42A6-88F4-8C151175DED5Q90170161-DA3368D0-542E-44E1-96DD-8019829456D9Q90753157-0F6D84D0-82B7-4C7F-AA6B-6C7F185D016DQ91056686-EFD3EC3D-CE1A-4C35-956E-22D5CA464BACQ91408946-AAC10E77-1A6F-40D5-9576-863D1BFF2785Q92022456-0D54210E-2BE1-404C-BB38-0D0DAC742DE3Q92129799-C420B7DD-A32E-48E4-9490-F0E2CC403B6EQ92655834-8DB74FA3-56BA-4A5D-A43F-EDCF66DBC393Q92886099-6FFEAE70-B5A4-4916-A08D-2175510540F4Q92936167-3363328B-421E-4C1F-861F-1908CAF4CD5BQ95935034-F3861A0F-8586-418C-9BB1-99404EC07603
P50
description
researcher
@en
name
Ira Milosevic
@en
type
label
Ira Milosevic
@en
prefLabel
Ira Milosevic
@en
P31
P496
0000-0001-6440-3763