about
The EH and SH3 domain Ese proteins regulate endocytosis by linking to dynamin and Eps15.PACSIN 2, a novel member of the PACSIN family of cytoplasmic adapter proteinsIdentification and characterization of a novel inositol polyphosphate 5-phosphataseMyosin 1E interacts with synaptojanin-1 and dynamin and is involved in endocytosisAmphiphysin II (SH3P9; BIN1), a member of the amphiphysin/Rvs family, is concentrated in the cortical cytomatrix of axon initial segments and nodes of ranvier in brain and around T tubules in skeletal muscleBinding specificity and in vivo targets of the EH domain, a novel protein-protein interaction moduleSynaptojanin 1: localization on coated endocytic intermediates in nerve terminals and interaction of its 170 kDa isoform with Eps15CIN85 associates with multiple effectors controlling intracellular trafficking of epidermal growth factor receptorsA PH domain within OCRL bridges clathrin-mediated membrane trafficking to phosphoinositide metabolismMixed-lineage kinase 2-SH3 domain binds dynamin and greatly enhances activation of GTPase by phospholipidExpression 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.Lowe syndrome protein OCRL1 interacts with clathrin and regulates protein trafficking between endosomes and the trans-Golgi networkThe BAR domain proteins: molding membranes in fission, fusion, and phagyEphrinB-EphB signalling regulates clathrin-mediated endocytosis through tyrosine phosphorylation of synaptojanin 1Regulation of synaptojanin 1 by cyclin-dependent kinase 5 at synapsesAmphiphysin is necessary for organization of the excitation-contraction coupling machinery of muscles, but not for synaptic vesicle endocytosis in DrosophilaSyndapin I, a synaptic dynamin-binding protein that associates with the neural Wiskott-Aldrich syndrome proteinRegulation of postsynaptic AMPA responses by synaptojanin 1Transport of mannose-6-phosphate receptors from the trans-Golgi network to endosomes requires Rab31The SH3p4/Sh3p8/SH3p13 protein family: binding partners for synaptojanin and dynamin via a Grb2-like Src homology 3 domainExpression of amphiphysin I, an autoantigen of paraneoplastic neurological syndromes, in breast cancerA novel neural Wiskott-Aldrich syndrome protein (N-WASP) binding protein, WISH, induces Arp2/3 complex activation independent of Cdc42ARF6 stimulates clathrin/AP-2 recruitment to synaptic membranes by activating phosphatidylinositol phosphate kinase type IgammaEpsinR: an AP1/clathrin interacting protein involved in vesicle traffickingPheromone-regulated genes required for yeast mating differentiationArc/Arg3.1 interacts with the endocytic machinery to regulate AMPA receptor traffickingAltered mRNA expression of genes related to nerve cell activity in the fracture callus of older rats: A randomized, controlled, microarray studyProtein interaction networks by proteome peptide scanningPodocyte endocytosis in the regulation of the glomerular filtration barrierThe function of endocytosis in podocytesPhosphoinositides: tiny lipids with giant impact on cell regulationPhosphoinositides in the mammalian endo-lysosomal networkCharacterizing the sphingolipid signaling pathway that remediates defects associated with loss of the yeast amphiphysin-like orthologs, Rvs161p and Rvs167p.Fab1p is essential for PtdIns(3)P 5-kinase activity and the maintenance of vacuolar size and membrane homeostasisPtdIns(4,5)P2 turnover is required for multiple stages during clathrin- and actin-dependent endocytic internalizationPan1p, yeast eps15, functions as a multivalent adaptor that coordinates protein-protein interactions essential for endocytosisNegative regulation of phosphatidylinositol 4,5-bisphosphate levels by the INP51-associated proteins TAX4 and IRS4.INP51, a yeast inositol polyphosphate 5-phosphatase required for phosphatidylinositol 4,5-bisphosphate homeostasis and whose absence confers a cold-resistant phenotype.SAC1-like domains of yeast SAC1, INP52, and INP53 and of human synaptojanin encode polyphosphoinositide phosphatases.
P2860
Q22009044-16D13017-91C3-4735-AF34-39A8EA6B4024Q22010462-36215B86-7510-4ACA-9778-64327DA933EFQ22253849-957F74F7-0A12-409F-B0D8-90FA498C5770Q24294756-42438B23-6FA5-4D5A-A0B7-3A1BF0A72320Q24309508-0B8C456E-AEC1-4C26-A323-62D270036E60Q24313034-E9D6924E-8A2E-4654-97FF-165848BD5852Q24320037-72A3E3EA-A09C-4EF7-A68C-BEE2CAE3CA8CQ24337144-BF6B671D-880A-4FF8-A281-86C4523C6FDBQ24338714-04AB1AE8-C70A-4F47-8444-0F93AE12DB63Q24531217-E9E4E939-E316-4C76-9072-AFCD08E0DC3DQ24532055-4ED9D5A4-70BD-4AED-A83F-C7D574C6FEA4Q24534146-D462C9C2-29C7-4FCE-ABB5-F4CB86ED75C1Q24534275-AEAFD08B-2D62-4D28-BD26-A9C7956FE33FQ24544126-54D39C3A-D2AC-4DA5-A51C-ADBC5222AD23Q24546264-84B6F041-9743-479D-8484-750A33D0C1B4Q24597922-F823E54E-9810-40EA-AC8A-0D98449838DFQ24600060-DDD52303-A9D2-40F6-82AD-57D5F87F46F2Q24642969-1EB370C5-27EC-4F99-ADD6-A63F8E6A2D43Q24643938-88295906-2D7F-4220-8549-8BDF6BCE061AQ24645802-094EE659-6CB5-488F-8B53-760EEE8A3683Q24653611-9FCE86C5-6B41-4E2F-AF3C-EC744BEFD50FQ24654263-395AE632-FAB0-4EC3-BE68-CCF6A1999F87Q24670450-CA0125A2-C9FC-4980-A293-FFC3A30793D7Q24675779-2BCE3D79-898D-410A-A128-8EF06680420EQ24675918-50E86622-5C37-4F43-9D32-0C0B049267DBQ24678064-F0CD55ED-5FE9-4458-86DD-9426A71DC3DAQ24681745-FF072DE2-6414-4E34-B3BB-5429BC9EF706Q24800378-906FBAC6-18DC-4DAF-ACD7-09EA97EF0FEDQ24804216-E5EF369D-1C8A-4FCD-A150-5467AD6550F8Q27004073-5010B51D-F900-4C40-AFBE-DCA466350E7FQ27006914-3F43B99A-8939-4C51-ADC1-5ACD86C5C217Q27012953-BAB36BD3-EFFE-4611-821F-0EC7E01D7717Q27025523-4F77D56B-8113-407D-AFE9-5A3EF52DAC3FQ27930807-37E704B8-C6DB-4165-AF8F-687817771857Q27931112-657BD0FD-B2E0-4FDB-99D5-BD0B09B7D160Q27931907-0F715676-5018-4C3D-ABE4-27DAE1C1B4ABQ27932146-CD0E832A-69E2-46EE-9171-881D43DBFAB9Q27932615-CB55CCBD-F1C5-46E0-B447-CE9063045BE6Q27933176-268C0ACD-4917-4689-AC4D-F079845A6F18Q27934132-6652A8A7-CEBF-49EB-8497-439677BA2E25
P2860
description
1996 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի հունվարին հրատարակված գիտական հոդված
@hy
article publié dans la revue scientifique Nature
@fr
artículu científicu espublizáu en 1996
@ast
scientific journal article
@en
vedecký článok (publikovaný 1996/01/25)
@sk
vědecký článek publikovaný v roce 1996
@cs
wetenschappelijk artikel (gepubliceerd op 1996/01/25)
@nl
наукова стаття, опублікована в січні 1996
@uk
مقالة علمية (نشرت في 25-1-1996)
@ar
name
A presynaptic inositol-5-phosphatase
@ast
A presynaptic inositol-5-phosphatase
@en
A presynaptic inositol-5-phosphatase
@nl
type
label
A presynaptic inositol-5-phosphatase
@ast
A presynaptic inositol-5-phosphatase
@en
A presynaptic inositol-5-phosphatase
@nl
prefLabel
A presynaptic inositol-5-phosphatase
@ast
A presynaptic inositol-5-phosphatase
@en
A presynaptic inositol-5-phosphatase
@nl
P2093
P356
P1433
P1476
A presynaptic inositol-5-phosphatase
@en
P2093
E. P. Garcia
P. De Camilli
P. S. McPherson
R. Bauerfeind
V. I. Slepnev
W. S. Sossin
P2888
P304
P356
10.1038/379353A0
P407
P577
1996-01-25T00:00:00Z
P6179
1007122986