Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes
about
Polar delivery in plants; commonalities and differences to animal epithelial cellsAn AGEF-1/Arf GTPase/AP-1 ensemble antagonizes LET-23 EGFR basolateral localization and signaling during C. elegans vulva inductionBasolateral BMP signaling in polarized epithelial cellsFour-dimensional live imaging of apical biosynthetic trafficking reveals a post-Golgi sorting role of apical endosomal intermediatesThe adaptor protein-1 μ1B subunit expands the repertoire of basolateral sorting signal recognition in epithelial cells.Tyrosine motifs are required for prestin basolateral membrane targeting.Basolateral sorting of chloride channel 2 is mediated by interactions between a dileucine motif and the clathrin adaptor AP-1.The polarized distribution of Na+,K+-ATPase: role of the interaction between {beta} subunitsAutosomal recessive polycystic kidney disease epithelial cell model reveals multiple basolateral epidermal growth factor receptor sorting pathways.Galectin-4-mediated transcytosis of transferrin receptor.Adaptor proteins involved in polarized sortingAquaporin-3 and aquaporin-4 are sorted differently and separately in the trans-Golgi network.Basolateral sorting signals regulating tissue-specific polarity of heteromeric monocarboxylate transporters in epithelia.LINGO-1 protein interacts with the p75 neurotrophin receptor in intracellular membrane compartments.Disruption of kv1.3 channel forward vesicular trafficking by hypoxia in human T lymphocytes.Basolateral sorting of the coxsackie and adenovirus receptor through interaction of a canonical YXXPhi motif with the clathrin adaptors AP-1A and AP-1BSignal-mediated, AP-1/clathrin-dependent sorting of transmembrane receptors to the somatodendritic domain of hippocampal neuronsDual pulse-chase microscopy reveals early divergence in the biosynthetic trafficking of the Na,K-ATPase and E-cadherinPolarization and myelination in myelinating glia.Building from the Ground up: Basement Membranes in Drosophila Development.Mechanism of polarized lysosome exocytosis in epithelial cells.The absence of a clathrin adapter confers unique polarity essential to proximal tubule functionThe clathrin adaptor AP-1A mediates basolateral polarityHepatocyte polarityRetromer maintains basolateral distribution of the type II TGF-β receptor via the recycling endosome.Role of membrane traffic in the generation of epithelial cell asymmetry.The Apical Localization of Na+, K+-ATPase in Cultured Human Retinal Pigment Epithelial Cells Depends on Expression of the β2 Subunit.Trafficking and proteolytic processing of RNF13, a model PA-TM-RING family endosomal membrane ubiquitin ligase.The Na+-K+-ATPase as self-adhesion molecule and hormone receptor.Golgi in copper homeostasis: a view from the membrane trafficking field.Organization and execution of the epithelial polarity programme.Plasma membrane protein polarity and trafficking in RPE cells: past, present and future.The Role of the Clathrin Adaptor AP-1: Polarized Sorting and Beyond.Alpha-synuclein modulates retinal iron homeostasis by facilitating the uptake of transferrin-bound iron: Implications for visual manifestations of Parkinson's disease.Directional Fluid Transport across Organ-Blood Barriers: Physiology and Cell Biology.Membrane Transport across Polarized Epithelia.N-Glycosylation instead of cholesterol mediates oligomerization and apical sorting of GPI-APs in FRT cellsIdentification of a novel mono-leucine basolateral sorting motif within the cytoplasmic domain of amphiregulin.Basolateral EGF receptor sorting regulated by functionally distinct mechanisms in renal epithelial cells.Identification of an intracellular microdomain of the P2X7 receptor that is crucial in basolateral membrane targeting in epithelial cells.
P2860
Q26862232-4F40612F-04E5-43BB-951D-7C1C546EB516Q27312214-70DB3C17-DE99-411F-B92C-5865E73D5296Q28487942-55925072-E78D-4C16-B949-AA82AFF06FF9Q30574585-4242C0D4-AD6E-46C5-9B2D-76B3621320D8Q30576385-0E7C0C34-21B3-4BEE-BB28-79F8072D638BQ30629632-05A36F8E-E1DB-4399-83FD-90E4EF50E57EQ30651030-903BED58-6F77-4B0A-873C-39D314BA9445Q33948532-12C57142-C7B2-42FA-86C6-C7FE13FCF5DFQ34029358-7CC5477B-1EF5-4BD7-B459-9E7C78B48228Q34339120-449EB607-3FF4-4A53-A37C-31C98BC51E70Q34396154-43F5D695-8D2B-4A8F-898C-443854E792A3Q34994483-F464181F-41CB-4737-A2AF-E499EA4081B3Q35093108-DB5211B6-9726-4CB1-BF38-8C622C4B5D79Q35351651-8F19B9AE-54D0-4643-84B7-86F4D6763611Q35694035-12C3D0B5-4178-48D4-BD79-D0495A766AF3Q35844858-BD3C855B-37CB-4646-B595-74153D5FCFE1Q36228221-AA23B971-A1BC-4A20-B4FB-CEDDE7C76689Q36337026-71593BDF-85F9-418B-A651-F44C81FBC361Q36530065-71247458-3544-470B-8612-4D8DFFB3A582Q36635814-BA3382CC-5E5E-4964-9548-70E6A3810630Q36648199-AB4D6BCE-CC13-436B-9BA7-1DDD00DCF81EQ36934328-BF824B1F-89FB-4BA2-901B-52852D1C116AQ36949607-FDD1A39F-B95B-494F-986B-7F9599501D67Q36972087-3F0FEF7E-85A1-4EBB-9EA8-E09885822156Q37003924-2BC4BD81-3E48-4501-826F-B21B66857611Q37167379-937537DE-733E-49A3-AAA5-ADF032C28402Q37319896-B2CC7F9D-6418-421D-BA74-CEE11C536A44Q37809581-65356037-4D0B-49FF-AF76-2C9B98BB420EQ37952164-A8AE86CE-C22A-4FBF-B6D7-63C724C3E87EQ38121020-931E1B4A-0FE3-4522-B376-57ED3D190E09Q38197884-B6CA5305-2919-419D-BDCC-CB2F524483F1Q38242786-39F72F64-3A84-42B6-A917-9DDD73ACB5D3Q38267149-DBA4F5AF-F54B-4175-AF0A-F8D8B97001A9Q38762283-E8B0DA1D-C4B4-4291-842A-9F0E3FC4EF3CQ39047497-8F52000C-BA72-4CB9-AECE-28B266D0DE75Q39141488-BAE0017B-9EDF-4875-8BA6-A8B72A4D170CQ39454359-1C69A03C-CB63-498E-B8D4-061319020BF3Q39473988-388A3185-9EE8-420F-8D6D-04C00ECF50C3Q41851578-D6812DF8-8F80-4CA3-A873-F5A46986ACFEQ42818625-19F82269-A317-43D0-AA3E-6F46D2E13810
P2860
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 October 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes
@en
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes.
@nl
type
label
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes
@en
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes.
@nl
prefLabel
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes
@en
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes.
@nl
P2860
P1433
P1476
Clathrin and AP1B: key roles in basolateral trafficking through trans-endosomal routes
@en
P2093
Alfonso Gonzalez
Enrique Rodriguez-Boulan
P2860
P304
P356
10.1016/J.FEBSLET.2009.10.050
P407
P577
2009-10-23T00:00:00Z