about
Structure of the Eps15-stonin2 complex provides a molecular explanation for EH-domain ligand specificityRegulation of endosomal membrane traffic by a Gadkin/AP-1/kinesin KIF5 complexGadkin negatively regulates cell spreading and motility via sequestration of the actin-nucleating ARP2/3 complexVesicular Synaptobrevin/VAMP2 Levels Guarded by AP180 Control Efficient NeurotransmissionVesicle uncoating regulated by SH3-SH3 domain-mediated complex formation between endophilin and intersectin at synapsesRole of AP1 and Gadkin in the traffic of secretory endo-lysosomes.Stonin1 mediates endocytosis of the proteoglycan NG2 and regulates focal adhesion dynamics and cell motility.Retrograde transport of TrkB-containing autophagosomes via the adaptor AP-2 mediates neuronal complexity and prevents neurodegenerationA novel subtype of AP-1-binding motif within the palmitoylated trans-Golgi network/endosomal accessory protein Gadkin/gamma-BARCohen syndrome-associated protein, COH1, is a novel, giant Golgi matrix protein required for Golgi integrityClathrin/AP-2 mediate synaptic vesicle reformation from endosome-like vacuoles but are not essential for membrane retrieval at central synapses.SNARE motif-mediated sorting of synaptobrevin by the endocytic adaptors clathrin assembly lymphoid myeloid leukemia (CALM) and AP180 at synapses.Overlapping functions of stonin 2 and SV2 in sorting of the calcium sensor synaptotagmin 1 to synaptic vesiclesLoss of Gadkin Affects Dendritic Cell Migration In VitroChloride channel diseases resulting from impaired transepithelial transport or vesicular functionDisruption of adaptor protein 2μ (AP-2μ) in cochlear hair cells impairs vesicle reloading of synaptic release sites and hearing.Compromised fidelity of endocytic synaptic vesicle protein sorting in the absence of stonin 2Stonins--specialized adaptors for synaptic vesicle recycling and beyond?Turning CALM into excitement: AP180 and CALM in endocytosis and disease.Relevance of presynaptic actin dynamics for synapse function and mouse behavior.On the move: endocytic trafficking in cell migration.Modes and mechanisms of synaptic vesicle recycling.ClC-5 does not affect megalin expression and function in the thyroid.Diffusional spread and confinement of newly exocytosed synaptic vesicle proteins.Cohen syndrome-associated protein COH1 physically and functionally interacts with the small GTPase RAB6 at the Golgi complex and directs neurite outgrowth.Gadkin: A novel link between endosomal vesicles and microtubule tracks.Casein kinase I delta (CKIdelta) is involved in lymphocyte physiology.Role of the vesicular chloride transporter ClC-3 in neuroendocrine tissue.Neurogenic mechanisms contribute to hypertension in mice with disruption of the K-Cl cotransporter KCC3.SnapShot: endocytic trafficking.Kidney-specific upregulation of vitamin D3 target genes in ClC-5 KO mice.ClC-3—A Granular Anion Transporter Involved in Insulin Secretion?Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectinAP180 promotes release site clearance and clathrin-dependent vesicle reformation in mouse cochlear inner hair cellsA simple 3D cellular chemotaxis assay and analysis workflow suitable for a wide range of migrating cells
P50
Q24306688-6E100CAB-51F4-4870-BCCE-3A71EBAF045DQ24309191-7650AE85-B7ED-4185-BB4C-1BD02166CD97Q24338105-D3C22168-24FD-437E-B97E-EEECBDC909B3Q28512570-9CB87E26-9525-4EE6-85F5-D21B42A085DDQ30009255-A031D83A-333D-48B4-9EF5-CDE64A3A02B2Q30501067-AF9CEF90-42EB-4AE5-8A22-A7D0F2D44AEAQ30667566-22145E8D-241A-4D82-BC66-D6909C8386DFQ30844685-61B14987-BAF0-4204-8F77-346CFAFB3F13Q33662294-50E0C491-2560-43A6-BCB6-E2D2C8424B26Q34210471-AB676C74-82A2-43A5-A493-8557603D1D84Q34423567-0E33B0D7-8983-44EF-B08B-3717A451EF44Q35170795-55CDDEB0-0226-4E95-A34D-EC3F4ECCE2FFQ35740426-7115C45F-7C49-4461-BE2C-45363A0E4955Q35856882-C020094E-9313-4A98-8400-14C5C3532CDCQ36216300-9A77E27F-5A20-4360-81BD-D5C4216A8115Q36270969-0C8F68C4-633C-4D94-BC0F-6AB23937FEB1Q36598109-4DBE979F-F66C-4992-93B5-7CCC5762E8CBQ37592318-4C35D9F9-C056-4177-828E-49FB2A3B3D51Q38013774-1727C7D7-E515-4AF2-B069-528C8D546D8DQ38314597-846B1DE9-994B-4A94-B034-F6A27710AEC5Q38355587-3F949FFB-0FF7-4BF7-A4A2-42F8E5868362Q38789772-073B817F-12A0-401E-A710-543070C98679Q40243534-51D1A121-6893-4B8E-BDD4-5267481D9E29Q40509417-752DB111-AB6C-477B-8C7B-0CFD2765C709Q41928949-69634E49-A6B7-4412-9F0E-15FC50D7EC05Q42481163-7991A49F-C866-4C81-81C8-D707C30D516DQ44553004-A3424673-00D1-4E7D-A33B-54D8D236AD4EQ45141365-9C64C534-C117-445A-8F58-AA242A1229ABQ46902342-35BAABE6-D3B7-4A64-A54F-A72B69BE8193Q47979561-5C145DE9-AFE2-4AE8-9D64-113B55325FE2Q52570628-032E9DA4-0CAC-40B0-BCD4-02A7218191FFQ56974894-0AE7474C-3204-4EB9-92D2-111DF6BE8311Q90170161-0EF1A434-E716-4B83-A0EA-2BE965CD28B7Q92022456-45D7FAAB-7A0B-40B3-BBB4-096EF5F7170FQ92222501-74EE07BB-4DF7-47E6-B0FC-2AFD091AEA06
P50
description
hulumtuese
@sq
researcher
@en
ricercatrice
@it
wetenschapper
@nl
հետազոտող
@hy
name
Tanja Maritzen
@ast
Tanja Maritzen
@en
Tanja Maritzen
@es
Tanja Maritzen
@nl
Tanja Maritzen
@sl
type
label
Tanja Maritzen
@ast
Tanja Maritzen
@en
Tanja Maritzen
@es
Tanja Maritzen
@nl
Tanja Maritzen
@sl
prefLabel
Tanja Maritzen
@ast
Tanja Maritzen
@en
Tanja Maritzen
@es
Tanja Maritzen
@nl
Tanja Maritzen
@sl
P214
P106
P21
P214
P31
P496
0000-0003-4993-0340
P7859
viaf-33114210