about
Site specificity in the interactions of synapsin 1 with tubulinn-Sec1: a neural-specific syntaxin-binding proteinBrain contains two forms of synaptic vesicle protein 2Synaptobrevin: an integral membrane protein of 18,000 daltons present in small synaptic vesicles of rat brainSynaptophysin is targeted to similar microvesicles in CHO and PC12 cellsSubunit heterogeneity of cytoplasmic dynein: Differential expression of 14 kDa dynein light chains in rat hippocampusSpatial resolution of single-cell exocytosis by microwell-based individually addressable thin film ultramicroelectrode arrays.Expression of a conserved cell-type-specific protein in nerve terminals coincides with synaptogenesisDifferential expression of the p65 gene familyThe identification of a novel synaptosomal-associated protein, SNAP-25, differentially expressed by neuronal subpopulations.A homologue of the axonally secreted protein axonin-1 is an integral membrane protein of nerve fiber tracts involved in neurite fasciculation.P29: a novel tyrosine-phosphorylated membrane protein present in small clear vesicles of neurons and endocrine cellsThe axonally secreted protein axonin-1 is a potent substratum for neurite growth.Synapsin I-mediated interaction of brain spectrin with synaptic vesicles.Association of Rab3A with synaptic vesicles at late stages of the secretory pathway.Synaptic vesicle membrane proteins interact to form a multimeric complex.Clathrin-coated vesicles in nervous tissue are involved primarily in synaptic vesicle recyclingThe calcium signal for transmitter secretion from presynaptic nerve terminals.Ionic channels and proteins in synaptic vesicles: facts and speculations.Neuronal lysosomal enzyme replacement using fragment C of tetanus toxin.Developmental expression of the 25-kDa synaptosomal-associated protein (SNAP-25) in rat brain.Neurotransmitter release.The synapsins and the regulation of synaptic function.Structure of neurosecretory granules and the chemistry of exocytosis.Synaptic vesicle traffic: rush hour in the nerve terminal.Newly synthesized synaptophysin is transported to synaptic-like microvesicles via constitutive secretory vesicles and the plasma membrane.Isolation and properties of the alpha-latrotoxin receptor.Microvesicles of the neurohypophysis are biochemically related to small synaptic vesicles of presynaptic nerve terminalsSynaptic vesicle proteins and early endosomes in cultured hippocampal neurons: differential effects of Brefeldin A in axon and dendrites.Synaptophysin binds to physophilin, a putative synaptic plasma membrane protein.Effect of tetanus toxin on oxytocin and vasopressin release from nerve endings of the neurohypophysis.Anchorage of secretion-competent dense granules on the plasma membrane of bovine platelets in the absence of secretory stimulationReversible inhibition of endocytosis in cultured neurons from the Drosophila temperature-sensitive mutant shibirets1.Simultaneous study of subcellular exocytosis with individually addressable multiple microelectrodes.
P2860
Q24529571-58D572F5-2003-4198-8ECF-FE8736C6A7F1Q24561445-7F7A5888-5D31-457D-BB36-9A3864B30589Q24563310-22A41813-1B34-40A8-A493-89B714708770Q24567532-7EF17205-914B-4715-A58C-8647B6BCBA0CQ26269968-D495A954-5AD1-4BB2-9D3F-8C64F80DBCB9Q28344715-3375A254-1966-443C-AA01-B394CFD10E4EQ30577679-AE069A17-8815-4E20-BFAE-94C0EFC4EF12Q30897473-11E2F9E2-584B-4E41-B14F-98B679E15C49Q33602421-7A7A06FB-352F-4452-8034-D359DCA8FB45Q35617869-E1C24FF2-3056-498B-A27F-818D0F545437Q36221925-7B198D7A-1585-4E9E-A1CD-EA2C75D617DDQ36222754-7E33DCEB-78BE-4166-91E3-DC7C947D29BFQ36529155-6461A128-99CA-4BC4-B3F6-50577F3D40D9Q36530019-B033BEC0-2DF7-437A-97E2-3F3EA08D5EDBQ36530411-FA33ED73-C3A7-4E5F-8B9F-7C2CC0114C10Q36530918-CF719691-1105-4D9C-80FE-F20C35A3A449Q36531890-4BB436D6-2193-4A24-95E0-59766B8EFF42Q36534579-7F31FEA7-F237-492B-A4F5-A9B538D3B2C4Q36640395-D491FB9E-7CC7-40A4-8B94-2C0D6CF75169Q36893623-470D06E5-9CFA-42E9-B831-29C235C75611Q37532535-BFF370C6-CEBD-4923-8D96-51C455B38850Q37595200-758AA9F0-3FEF-49A4-BF87-AA9CF6DC379CQ37822737-9929C1B8-02B0-453A-8303-71E42FAF0C39Q40846803-252A8D25-0285-4BC5-941F-261D613EE641Q40918904-0D7E750A-155C-45B3-93DF-BB41406EF625Q41083206-D8245658-D1B7-4F98-BEDB-A7B9F7E483A0Q41215603-CE680178-D486-40C0-86C6-7DBE38ED4789Q41263706-443C9857-4483-4A17-A31F-6692CB07E4F2Q41809757-407DA9CE-B3BA-4CCE-9EF0-7F642515C8E4Q42015278-CC580FA4-AB58-4125-8CF1-595892AE465CQ42031527-75940AE2-2C21-4E8A-A642-634B075BF6D0Q42153764-A07A4215-0B4D-4597-8831-88E9C01BDA9EQ52449021-4F04E8CD-50DF-40EE-9F92-B999F8216E88Q53572162-A153F9C9-40EA-4907-8B65-C56E489772F6
P2860
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
1988年论文
@zh
1988年论文
@zh-cn
name
The cell biology of the nerve terminal.
@en
The cell biology of the nerve terminal.
@nl
type
label
The cell biology of the nerve terminal.
@en
The cell biology of the nerve terminal.
@nl
prefLabel
The cell biology of the nerve terminal.
@en
The cell biology of the nerve terminal.
@nl
P1433
P1476
The cell biology of the nerve terminal.
@en
P2093
P304
P356
10.1016/0896-6273(88)90174-2
P407
P577
1988-08-01T00:00:00Z