Cluster of differentiation antigen 4 (CD4) endocytosis and adaptor complex binding require activation of the CD4 endocytosis signal by serine phosphorylation
about
Trafficking of the HIV coreceptor CXCR4. Role of arrestins and identification of residues in the c-terminal tail that mediate receptor internalizationCloning of ACP33 as a novel intracellular ligand of CD4Recognition of dileucine-based sorting signals from HIV-1 Nef and LIMP-II by the AP-1 gamma-sigma1 and AP-3 delta-sigma3 hemicomplexesConstitutive internalization of the leucine-rich G protein-coupled receptor-5 (LGR5) to the trans-Golgi networkClathrin-dependent endocytosisSubunit H of the V-ATPase involved in endocytosis shows homology to beta-adaptinsThe AP-3 complex required for endosomal synaptic vesicle biogenesis is associated with a casein kinase Ialpha-like isoformTRUSS, a novel tumor necrosis factor receptor 1 scaffolding protein that mediates activation of the transcription factor NF-kappaBA conserved dileucine motif mediates clathrin and AP-2-dependent endocytosis of the HIV-1 envelope proteinPhorbol esters and cAMP differentially regulate the expression of CD4 and CD8 in human thymocytesControl of protein trafficking by reversible masking of transport signals.A structural explanation for the binding of endocytic dileucine motifs by the AP2 complexConformation of the dileucine-based sorting motif in HIV-1 Nef revealed by intermolecular domain assemblyStructural and Functional Characterization of Cargo-Binding Sites on the μ4-Subunit of Adaptor Protein Complex 4Proteomic-based identification of CD4-interacting proteins in human primary macrophagesVaried mechanisms underlie the free sialic acid storage disordersThe vesicular acetylcholine transporter interacts with clathrin-associated adaptor complexes AP-1 and AP-2An Evolution-Guided Analysis Reveals a Multi-Signaling Regulation of Fas by Tyrosine Phosphorylation and its Implication in Human CancersThe leucine-based sorting motifs in the cytoplasmic domain of the invariant chain are recognized by the clathrin adaptors AP1 and AP2 and their medium chainsRegulated movement of CD4 in and out of the immunological synapseBinding of AP2 to sorting signals is modulated by AP2 phosphorylation.Tryptophan- and dileucine-based endocytosis signals in the neonatal Fc receptor.HIV-induced type I interferon and tryptophan catabolism drive T cell dysfunction despite phenotypic activationChemokine receptor trafficking and viral replication.Golgi-to-late endosome trafficking of the yeast pheromone processing enzyme Ste13p is regulated by a phosphorylation site in its cytosolic domainRegulation of neuronal function by protein trafficking: a role for the endosomal pathway.Immune dysregulation in human immunodeficiency virus infection: know it, fix it, prevent it?HIV-1 Nef binds a subpopulation of MHC-I throughout its trafficking itinerary and down-regulates MHC-I by perturbing both anterograde and retrograde trafficking.Endocytosis in viral replication.Cargo recognition in clathrin-mediated endocytosisGenome-wide shRNA screening identifies host factors involved in early endocytic events for HIV-1-induced CD4 down-regulation.Adaptor protein complex-2 (AP-2) and epsin-1 mediate protease-activated receptor-1 internalization via phosphorylation- and ubiquitination-dependent sorting signals.Dileucine and YXXL motifs in the cytoplasmic tail of the bovine leukemia virus transmembrane envelope protein affect protein expression on the cell surfaceCD4 Receptor is a Key Determinant of Divergent HIV-1 Sensing by Plasmacytoid Dendritic Cells.Plasticity of polyubiquitin recognition as lysosomal targeting signals by the endosomal sorting machinery.A tandem Di-hydrophobic motif mediates clathrin-dependent endocytosis via direct binding to the AP-2 ασ2 subunitsChronic innate immune activation as a cause of HIV-1 immunopathogenesisProtein kinase C and NF-κB-dependent CD4 downregulation in macrophages induced by T cell-derived soluble factors: consequences for HIV-1 infectionPhosphorylation on Ser-279 and Ser-282 of connexin43 regulates endocytosis and gap junction assembly in pancreatic cancer cellsDi-leucine signals mediate targeting of tyrosinase and synaptotagmin to synaptic-like microvesicles within PC12 cells.
P2860
Q22010658-EB99ADFF-ED41-4CF3-A5D6-FE11601A56DBQ24290610-EA1F6F5D-63ED-4A84-A4AF-E79330EF3673Q24302853-356455C2-C6B6-4897-81B4-3F0867D68A04Q24320381-31288AE9-25E7-459A-B6C7-BF6F7250E720Q24530597-1791DB41-3E61-4FEA-8CE4-ED3A4F466D30Q24531411-4C22CB72-8766-4896-99D0-880C3624BC46Q24550559-2420B38A-E1FD-419D-ADCA-783715B1AE60Q24649790-4BCF12CE-CB16-4C5A-A0D0-0A4DEB120F42Q24681865-ECD20A7A-BDBC-4C77-9DBF-4648A34AA1B4Q24801026-A4A6E19B-34EF-4A8A-995C-FCEBD9A38FB2Q27305279-A9635B2F-6086-44CA-88CF-F56706BB8D1BQ27653407-D0918C85-3AA7-4817-B4DC-2A9784ACBA68Q27667185-A1AD6600-682E-4913-BB1A-F24C39DE58AEQ27681590-694D7C61-65C3-422B-BC3D-92E605705AA0Q28477747-2E57918C-45AA-484E-9304-E110A08C6939Q28564816-F08D823D-4671-4572-B670-8F094A40CA1CQ28571417-22D402AF-78F2-44B9-B3FC-FBFD85C16FD3Q28603264-BFDC337C-D176-4049-BC53-E8CA8A7F3A92Q28611906-01B87D65-0E1E-4EB3-8FAF-8A3A86652679Q30494182-D99DAC23-F729-40DB-A8A5-700FA3336D56Q31485561-846D3975-6AE1-4DB5-9266-2497446326E4Q31628526-4E0EFA0D-8417-4375-9E0C-5DE3E6C95F88Q33359564-764F1F26-FD75-40A2-B852-6A609EF6E62BQ33683322-60B48605-CF3A-432D-9741-46E311CAAB91Q33914482-47EE3006-C241-4779-969D-158BA829D84BQ33919090-58DE38B0-BA80-44F2-873A-C0ACF33C5728Q33992829-11DA0093-0C8C-4C4A-93BE-15CADDB9CD08Q34155403-92F669BE-9DC5-4BD1-B5DF-5957FF08AF76Q34156695-83C60077-9724-451F-BB38-4BFD81338480Q34382206-1CC685AF-0044-4BD3-BE3B-AF6DFBF4A830Q34728079-50AB8509-D47D-428A-98F8-19BEEA340C60Q35562523-D587C6F3-F9A3-4E84-A6F3-3AF4ED5E4924Q35705524-EC973EA3-9CDC-4838-8A7D-8FB9C909B39DQ35991137-B48E06F5-11B6-4EAD-9C17-45C89466A122Q36017039-A435DBFE-CCBB-48F9-8B6D-3EF8E7BA3C7AQ36137429-326B8210-E846-4500-9884-248A6CF4631DQ36510689-C09F574E-7985-4497-ACCA-9B86FD1183D2Q36655072-8AEBC320-90AD-49A1-B798-B16A51B24A42Q36680544-6380F3C6-B565-40B4-9482-A85EC2CB827FQ36941351-CDB655B3-7AA1-494D-88D2-82D3E45685C5
P2860
Cluster of differentiation antigen 4 (CD4) endocytosis and adaptor complex binding require activation of the CD4 endocytosis signal by serine phosphorylation
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Cluster of differentiation ant ...... gnal by serine phosphorylation
@en
type
label
Cluster of differentiation ant ...... gnal by serine phosphorylation
@en
prefLabel
Cluster of differentiation ant ...... gnal by serine phosphorylation
@en
P2093
P2860
P356
P1476
Cluster of differentiation ant ...... gnal by serine phosphorylation
@en
P2093
P2860
P304
P356
10.1091/MBC.10.3.677
P50
P577
1999-03-01T00:00:00Z