In vitro binding of clathrin adaptors to sorting signals correlates with endocytosis and basolateral sorting.
about
The highly conserved C-terminal dileucine motif in the cytosolic domain of the human immunodeficiency virus type 1 envelope glycoprotein is critical for its association with the AP-1 clathrin adaptor [correction of adapter]Interleukin-6-type cytokine signalling through the gp130/Jak/STAT pathwayA di-leucine-based motif in the cytoplasmic tail of LIMP-II and tyrosinase mediates selective binding of AP-3.Identification of a motif in the carboxyl terminus of CXCR2 that is involved in adaptin 2 binding and receptor internalizationEndocytic clathrin-coated pit formation is independent of receptor internalization signal levelsNef-mediated clathrin-coated pit formationMannose 6-phosphate receptors regulate the formation of clathrin-coated vesicles in the TGNInteraction of HIV-1 Nef with the cellular dileucine-based sorting pathway is required for CD4 down-regulation and optimal viral infectivitySmall GTPase regulation of GPCR anterograde traffickingAtomic structure of clathrin: a beta propeller terminal domain joins an alpha zigzag linkerCompounds with anti-influenza activity: present and future of strategies for the optimal treatment and management of influenza. Part I: Influenza life-cycle and currently available drugsThe adaptor protein AP-3 is required for CD1d-mediated antigen presentation of glycosphingolipids and development of Valpha14i NKT cellsNef-induced CD4 and major histocompatibility complex class I (MHC-I) down-regulation are governed by distinct determinants: N-terminal alpha helix and proline repeat of Nef selectively regulate MHC-I trafficking.Targeting of the synaptic vesicle protein synaptobrevin in the axon of cultured hippocampal neurons: evidence for two distinct sorting steps.Mutations in ap1b1 cause mistargeting of the Na(+)/K(+)-ATPase pump in sensory hair cells.Tight junctional localization of claudin-16 is regulated by syntaxin 8 in renal tubular epithelial cells.Trafficking to the apical and basolateral membranes in polarized epithelial cellsDileucine-based sorting signals bind to the beta chain of AP-1 at a site distinct and regulated differently from the tyrosine-based motif-binding site.A dileucine-like sorting signal directs transport into an AP-3-dependent, clathrin-independent pathway to the yeast vacuoleRab8 interacts with distinct motifs in alpha2B- and beta2-adrenergic receptors and differentially modulates their transport.Characterization of a di-leucine-based signal in the cytoplasmic tail of the nucleotide-pyrophosphatase NPP1 that mediates basolateral targeting but not endocytosisOligomerization and dissociation of AP-1 adaptors are regulated by cargo signals and by ArfGAP1-induced GTP hydrolysis.ARF1.GTP, tyrosine-based signals, and phosphatidylinositol 4,5-bisphosphate constitute a minimal machinery to recruit the AP-1 clathrin adaptor to membranes.Regulation of G protein-coupled receptor export trafficking.The tyrosine-based lysosomal targeting signal in lamp-1 mediates sorting into Golgi-derived clathrin-coated vesicles.Chemokine receptor internalization and intracellular trafficking.Protein targeting by tyrosine- and di-leucine-based signals: evidence for distinct saturable componentsA dominant-negative clathrin mutant differentially affects trafficking of molecules with distinct sorting motifs in the class II major histocompatibility complex (MHC) pathwayAcidic di-leucine motif essential for AP-3-dependent sorting and restriction of the functional specificity of the Vam3p vacuolar t-SNARE.The LDL receptor clustering motif interacts with the clathrin terminal domain in a reverse turn conformationADP-Ribosylation factor 1 (ARF1) regulates recruitment of the AP-3 adaptor complex to membranes.The sequence NPFXD defines a new class of endocytosis signal in Saccharomyces cerevisiae.Phosphoinositide-AP-2 interactions required for targeting to plasma membrane clathrin-coated pits.Regulation of post-Golgi traffic of G protein-coupled receptors.A dileucine motif in the C terminus of the beta2-adrenergic receptor is involved in receptor internalization.Cluster of differentiation antigen 4 (CD4) endocytosis and adaptor complex binding require activation of the CD4 endocytosis signal by serine phosphorylationA role for cargo in Arf-dependent adaptor recruitmentHepatocyte polarityAnterograde trafficking of G protein-coupled receptors: function of the C-terminal F(X)6LL motif in export from the endoplasmic reticulumCellular endocytosis and gene delivery
P2860
Q24530181-78104DF7-0F15-4EE6-963B-3EF53094F844Q24531184-8170B890-8A8D-4A4F-B436-3D4A44025715Q24533159-28A5B634-C56B-4C71-A53F-B0A52189DEEEQ24647523-60BEA21E-FF9A-40CF-BEF2-63A366ED2E05Q24651514-378D824A-E1C7-43BE-A73A-591885E7101BQ24678715-6EC9DFF1-91FC-41C1-87E9-DDABE2E7EF36Q24678853-4EF2E39F-E0FC-482F-8294-D08C18AEEAC2Q24682806-C72D570C-5C7A-438D-AB89-E40DBDF27953Q26858975-62267B2E-747E-459B-8CF3-690EE8C2A420Q27766075-AC5705E0-13AF-409B-A0D6-39B64B3EE280Q28085400-4AA0A17B-49FC-4063-8D5E-74A8FA78A324Q28593372-C9FF1512-CAB1-44D5-992F-A9F2C6D38FC7Q30175880-DBB2876F-31EF-4463-8987-71519996CCD0Q30442138-0467434F-0862-4AC0-9011-9A8AA67E74DBQ30455441-22DE1CB9-40F6-4366-925D-E06BF65EB52FQ33676584-D8F84D6F-EDBA-4C97-9352-0B8E7F9EA00DQ33814910-45AC618B-8FA5-457B-BC9C-940E726970CEQ33888654-A8D25CE2-8218-4372-B081-AA75B1BFD08AQ33888752-07100F31-6A04-49CD-946C-FB901AA181C9Q33924469-7A5125E1-1C04-4105-8A95-D5ED2B0C5BD6Q33948220-481FEEAC-2870-45D7-A8F5-5802F2533544Q34049781-6D3E7E19-947D-4534-A72C-64CEEF64FE69Q34168576-D7970A02-75D4-4C86-A444-AA2E3EB10A3BQ35827970-B0A10BF0-99FB-400C-937C-5182642F0AA4Q35909761-54441637-BAC8-4CA6-A25D-730EB40EE678Q36184275-4CCCFD09-B28F-4112-BEB7-61AD7EDAF836Q36237576-A7D12658-369B-415C-BE62-DACC83EA8E8BQ36255192-1ECA130E-4209-406C-93D4-81BCC1640459Q36255662-3458BC88-14B7-43B0-A25E-7B17DB6D2B16Q36256170-6282A945-0724-44B0-9384-F55CFE6F6D85Q36256311-240F3D0A-F45D-47F4-8DF7-1C005804DB06Q36257695-BF5E8EF4-13C0-4813-A382-68BE41BD9DD7Q36301471-AA4EE11C-0D7F-44BA-A848-FF5F8F0F4F14Q36701400-38CFE0D9-27C3-4067-840A-C70D9A5893AEQ36799040-24AC5CC2-6A5A-49E9-9F14-E74E73AC9234Q36845470-B9735172-9881-455E-B4C9-32D56B72BE06Q36873576-4A9FD184-F911-48B1-B776-4D1D0DD507AEQ36972087-6A32D3D1-7BA2-4125-9A63-1B699702FF81Q37199131-4562982E-B189-4AFA-B11A-A2F78766636AQ37747047-ABDA6EB6-B7C7-4F67-B050-60D8D10A5D75
P2860
In vitro binding of clathrin adaptors to sorting signals correlates with endocytosis and basolateral sorting.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
1996年论文
@zh
1996年论文
@zh-cn
name
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@ast
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@en
type
label
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@ast
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@en
prefLabel
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@ast
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@en
P2093
P2860
P1433
P1476
In vitro binding of clathrin a ...... tosis and basolateral sorting.
@en
P2093
Manning-Krieg U
P2860
P304
P407
P577
1996-06-01T00:00:00Z