Synaptojanin forms two separate complexes in the nerve terminal. Interactions with endophilin and amphiphysin
about
Gamma-synergin: an EH domain-containing protein that interacts with gamma-adaptinInteraction of the metalloprotease disintegrins MDC9 and MDC15 with two SH3 domain-containing proteins, endophilin I and SH3PX1The clavesin family, neuron-specific lipid- and clathrin-binding Sec14 proteins regulating lysosomal morphologyCIN85 associates with multiple effectors controlling intracellular trafficking of epidermal growth factor receptorsExpression and protein-binding studies of the EEN gene family, new interacting partners for dynamin, synaptojanin and huntingtin proteinsRecruitment of an alternatively spliced form of synaptojanin 2 to mitochondria by the interaction with the PDZ domain of a mitochondrial outer membrane protein.The BAR domain proteins: molding membranes in fission, fusion, and phagyThe endocytic protein intersectin is a major binding partner for the Ras exchange factor mSos1 in rat brainThe molecular physiology of activity-dependent bulk endocytosis of synaptic vesiclesSyndapin I, a synaptic dynamin-binding protein that associates with the neural Wiskott-Aldrich syndrome proteinIdentification of the endophilins (SH3p4/p8/p13) as novel binding partners for the beta1-adrenergic receptorArc/Arg3.1 interacts with the endocytic machinery to regulate AMPA receptor traffickingThe dual phosphatase activity of synaptojanin1 is required for both efficient synaptic vesicle endocytosis and reavailability at nerve terminalsTrisomy for synaptojanin1 in Down syndrome is functionally linked to the enlargement of early endosomesThe N terminus of amphiphysin II mediates dimerization and plasma membrane targetingThe SH3 domains of endophilin and amphiphysin bind to the proline-rich region of synaptojanin 1 at distinct sites that display an unconventional binding specificityEndophilin regulates JNK activation through its interaction with the germinal center kinase-like kinaseAlix (ALG-2-interacting protein X), a protein involved in apoptosis, binds to endophilins and induces cytoplasmic vacuolizationIdentification and characterization of a synaptojanin 2 splice isoform predominantly expressed in nerve terminalsEndophilin I expression is increased in the brains of Alzheimer disease patientsEvidence that dystroglycan is associated with dynamin and regulates endocytosisRole of the proline-rich domain of dynamin-2 and its interactions with Src homology 3 domains during endocytosis of the AT1 angiotensin receptorSynaptojanin cooperates in vivo with endophilin through an unexpected mechanism.Arf6 exchange factor EFA6 and endophilin directly interact at the plasma membrane to control clathrin-mediated endocytosis.Interaction of amphiphysins with AP-1 clathrin adaptors at the membrane.Interaction between the vesicular glutamate transporter type 1 and endophilin A1, a protein essential for endocytosis.Kinetics of Src homology 3 domain association with the proline-rich domain of dynamins: specificity, occlusion, and the effects of phosphorylation.Characterization of rtSH3p13 gene encoding a development protein involved in vesicular traffic in spermiogenesis.The role of dynamin and its binding partners in coated pit invagination and scission.Intersectin, a novel adaptor protein with two Eps15 homology and five Src homology 3 domains.A burst of auxilin recruitment determines the onset of clathrin-coated vesicle uncoatingTwo synaptojanin 1 isoforms are recruited to clathrin-coated pits at different stages.The kinesin-associated protein UNC-76 is required for axonal transport in the Drosophila nervous system.Alix (AIP1) is a vasopressin receptor (V2R)-interacting protein that increases lysosomal degradation of the V2R.Aftiphilin is a component of the clathrin machinery in neurons.Dynamics of dynamin during clathrin mediated endocytosis in PC12 cells.Late domain-independent rescue of a release-deficient Moloney murine leukemia virus by the ubiquitin ligase itch.Molecular mechanisms of neurotransmitter release.Endocytosis and signaling cascades: a close encounter.Mutations in synaptojanin disrupt synaptic vesicle recycling.
P2860
Q22010523-FC44C55A-2161-41B3-B6A6-16FEA0562028Q22010715-D2374720-D370-46C9-835C-1DA8AEB4F316Q24319966-0C3B2DCB-E53D-42CA-8E93-4EAF7517FEC9Q24337144-A523FEE8-22CF-4F23-B29D-E5A167C90904Q24532055-61A053FC-EBDC-4999-881A-8E6D0DE4348DQ24534146-55B07723-2116-47F5-8F6E-8DB3A7B81BBEQ24544126-AD1911E1-8750-4761-865A-D5450E9FDFFFQ24599871-D85421BC-15B2-4E1A-946B-A2F8DE85E96AQ24616029-CAD6B370-22F1-4842-8E56-E041E5B4186BQ24642969-3FCFD694-5C22-40E3-954C-51520441B699Q24653887-05636AD8-BC58-4AF6-B94A-E83DB8F6BF3AQ24681745-5740E03D-F333-4553-984A-4F65DC3C51DDQ28118433-31EDA1ED-555B-46FC-BA01-51D5B2FBA6C3Q28118988-164B3A2F-F08D-4B6D-87B2-07365591A2B6Q28138629-BEDF9788-923F-4F83-A909-CA49D53F1739Q28146109-81685107-1C25-42A7-8219-DA7A1B39E707Q28198246-7684C05C-F7F6-4379-826A-C51A6B2A7CF4Q28201193-319D5872-575C-470B-A668-D2190D14BB93Q28212156-6BE7AA47-0E54-4644-B9D2-C877611646C4Q28263217-1A9F4E0A-E618-4FC7-B117-386227FB060AQ28569266-62FBA68E-9A95-4A0F-A97A-FCDB22C166A9Q28582705-F3744B2C-FCE4-497E-9FA3-203A639DAF1FQ30009179-72BBE9C4-A6A7-47B9-B791-2D4EF7907E4DQ30009391-73B8197C-7BAD-4EA0-B713-FC303B41982DQ30009966-DF23CBF3-833F-4D94-A92D-2F8C32815F0DQ30159838-9256C7A4-6FC5-4C9F-AD9A-47CBD4A0C654Q30160266-23B8A671-B5FD-4E35-A284-E1BCD74A1395Q30163977-0819EB19-6C8C-4039-8391-D8ADE6F96D2EQ30168371-30B957D7-F17E-4D96-B093-C89FDFED3E47Q30175978-CE9C9DAD-A2D6-4374-9906-E05D34A37510Q30477590-5A75DC3A-D1F4-41F3-8FD4-E26339413B9CQ30478457-66A12632-41D2-426D-89D8-038FA79C40DDQ33188203-0C194861-EF32-4E73-AE97-22C2A382E84BQ33272706-3614A837-59C6-4683-9C92-1369D8C7EA92Q33288815-F6130A60-7D78-4455-88F3-ACA6EFB22F2CQ33342789-6D7B4A3F-11E7-45D3-887D-78AC18BE9134Q33558373-F5FB0858-444C-4D29-80D1-DFAADD7F50E4Q34228641-B2DAE8B6-D6CB-4FD2-AEA0-41EB044D5FE5Q34286096-69ADAC70-D771-404D-B6DF-235DBC2C31E1Q36328437-9E189D48-7FCC-4444-91E5-364D3CB1C180
P2860
Synaptojanin forms two separate complexes in the nerve terminal. Interactions with endophilin and amphiphysin
description
1997 nî lūn-bûn
@nan
1997 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@ast
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@en
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@nl
type
label
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@ast
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@en
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@nl
prefLabel
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@ast
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@en
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@nl
P2860
P356
P1476
Synaptojanin forms two separat ...... ith endophilin and amphiphysin
@en
P2093
P S McPherson
P2860
P304
27239-27245
P356
10.1074/JBC.272.43.27239
P407
P577
1997-10-01T00:00:00Z