Identification of a family of endocytic proteins that define a new alpha-adaptin ear-binding motif
about
Functional dissection of an AP-2 beta2 appendage-binding sequence within the autosomal recessive hypercholesterolemia proteinCharacterization of a gamma-adaptin ear-binding motif in enthoprotinFunctional dissection of the interactions of stonin 2 with the adaptor complex AP-2 and synaptotagminThe clavesin family, neuron-specific lipid- and clathrin-binding Sec14 proteins regulating lysosomal morphologyBinding of Vac14 to neuronal nitric oxide synthase: Characterisation of a new internal PDZ-recognition motifThe NECAP PHear domain increases clathrin accessory protein binding potentialEvolving nature of the AP2 alpha-appendage hub during clathrin-coated vesicle endocytosisNECAP 1 regulates AP-2 interactions to control vesicle size, number, and cargo during clathrin-mediated endocytosisSolitary and repetitive binding motifs for the AP2 complex alpha-appendage in amphiphysin and other accessory proteinsDual engagement regulation of protein interactions with the AP-2 adaptor alpha appendageThe Connecdenn DENN domain: a GEF for Rab35 mediating cargo-specific exit from early endosomesThe trans-Golgi network accessory protein p56 promotes long-range movement of GGA/clathrin-containing transport carriers and lysosomal enzyme sorting.Interaction of amphiphysins with AP-1 clathrin adaptors at the membrane.Definition of the consensus motif recognized by gamma-adaptin ear domains.Aftiphilin is a component of the clathrin machinery in neurons.A novel subtype of AP-1-binding motif within the palmitoylated trans-Golgi network/endosomal accessory protein Gadkin/gamma-BARThe gamma/sigma1 and alpha/sigma2 hemicomplexes of clathrin adaptors AP-1 and AP-2 harbor the dileucine recognition site.Fluoxetine increases plasticity and modulates the proteomic profile in the adult mouse visual cortex.Canonical interaction of cyclin G associated kinase with adaptor protein 1 regulates lysosomal enzyme sortingIdentification of Differentially-Expressed Genes in Response to Mycosphaerella fijiensis in the Resistant Musa Accession 'Calcutta-4' Using Suppression Subtractive Hybridization.Proteomics of organelles and large cellular structures.The synaptic vesicle proteome.Tandem MS analysis of brain clathrin-coated vesicles reveals their critical involvement in synaptic vesicle recycling.Proteomic analysis of clathrin-coated vesicles.The connecdenn family, Rab35 guanine nucleotide exchange factors interfacing with the clathrin machinery.Two WXXF-based motifs in NECAPs define the specificity of accessory protein binding to AP-1 and AP-2.Recognition of the tryptophan-based endocytosis signal in the neonatal Fc Receptor by the mu subunit of adaptor protein-2.Gadkin: A novel link between endosomal vesicles and microtubule tracks.Weak Molecular Interactions in Clathrin-Mediated Endocytosis.Maternal perinatal undernutrition has long-term consequences on morphology, function and gene expression of the adrenal medulla in the adult male rat.NECAPs are negative regulators of the AP2 clathrin adaptor complex.Recruitment of AP-2 complex and clathrinNECAP1 loss of function leads to a severe infantile epileptic encephalopathy
P2860
Q24296418-E2F792BC-A609-40E3-9684-DB8F5043FB73Q24301915-C16DC65B-E7C7-4777-8F09-F503BD8B2FB6Q24305087-E52EE605-EF55-4EA1-8A83-A3D029A3BFCAQ24319966-A7E371D6-A301-4AA5-BED6-BB7E227D7F96Q24336059-0091386B-0372-4A5A-BA02-E3D53316321EQ24338811-F93F399A-7B15-4339-9BBF-D9CDE7CF5EC0Q24561365-163F13B9-8622-4D21-9038-80EC1AE5F2A6Q27316709-5F963339-BA21-4C49-B84D-78019EF54ADCQ27648973-13B736D1-D22A-4D4B-A4B5-A3A3C9160E2CQ28275468-A54C0D43-7F0F-430B-BBFC-3C49BBF75556Q28504575-A4022A2D-BBE7-4B32-8A71-7FDC7B61F25EQ29465779-021F82C7-E401-424A-A262-326BE45C06F5Q30009966-4497B608-150C-4C49-8D4B-B1D39122A660Q33195798-662EB2E0-89C6-4E22-BBE9-196EA5FF22BCQ33288815-DDC34822-11D2-428E-A3C4-DB86DC660283Q33662294-DCB8A994-9FF5-431E-BBEE-A45D2F0BE827Q35757401-E837738B-BAA6-4F60-9974-1CC8F1EDB960Q35884555-0A18C6D7-E9AF-4C6A-8552-593F4A045348Q35942419-96059E30-2963-42C2-B529-396053DED2B7Q36093944-DF3EDC02-CCE7-43D0-878E-0B79261295D1Q36289104-2AC9EC8F-D284-4C99-B3DF-23E22578F685Q36758608-4F69213A-64B8-4B09-9E4A-D1DB65018D5FQ37094960-3771A516-5932-49F6-A9ED-929B57D1198FQ37809830-5D2387D1-AC2B-4847-BDFB-9D122A1E9420Q40075586-88649C8E-C26D-46F5-9817-EE26B6D141FBQ40197173-178E8759-566D-4D74-9AA0-347C7828A2B0Q40480782-E0296935-AB29-4817-8F3F-9FB76A301EB9Q42481163-6C845A13-F2B8-4F04-BE18-8FAC3990B167Q45723157-350DAB5F-C904-4DFA-A25E-D56192E397FEQ48136594-CEB3C00D-C076-477C-8D5E-0F9C81B8A9E4Q48219671-D8899BBA-9DEA-42B6-8025-E177E46FB0F1Q50299940-141ADD69-4C20-47B1-B2FB-EFDC63007676Q55670475-FC177C78-E96E-4724-925C-A9EC4FBE0AA2
P2860
Identification of a family of endocytic proteins that define a new alpha-adaptin ear-binding motif
description
2003 nî lūn-bûn
@nan
2003 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Identification of a family of ...... lpha-adaptin ear-binding motif
@ast
Identification of a family of ...... lpha-adaptin ear-binding motif
@en
Identification of a family of ...... lpha-adaptin ear-binding motif
@nl
type
label
Identification of a family of ...... lpha-adaptin ear-binding motif
@ast
Identification of a family of ...... lpha-adaptin ear-binding motif
@en
Identification of a family of ...... lpha-adaptin ear-binding motif
@nl
prefLabel
Identification of a family of ...... lpha-adaptin ear-binding motif
@ast
Identification of a family of ...... lpha-adaptin ear-binding motif
@en
Identification of a family of ...... lpha-adaptin ear-binding motif
@nl
P2093
P2860
P921
P3181
P356
P1433
P1476
Identification of a family of ...... lpha-adaptin ear-binding motif
@en
P2093
Brigitte Ritter
Elaine C Tung
Francois Blondeau
Jacynthe Philie
Martine Girard
Peter S McPherson
P2860
P304
P3181
P356
10.1038/SJ.EMBOR.7400004
P407
P577
2003-11-01T00:00:00Z