A 20-nm step toward the cell membrane preceding exocytosis may correspond to docking of tethered granules.
about
Docking of LDCVs is modulated by lower intracellular [Ca2+] than primingResident CAPS on dense-core vesicles docks and primes vesicles for fusionModel of SNARE-mediated membrane adhesion kinetics.Quantitative analysis of the native presynaptic cytomatrix by cryoelectron tomography.BAIAP3, a C2 domain-containing Munc13 protein, controls the fate of dense-core vesicles in neuroendocrine cellsMapping dynamic protein interactions to insulin secretory granule behavior with TIRF-FRET.Cdc42 controls the dilation of the exocytotic fusion pore by regulating membrane tension.Properties of ribbon and non-ribbon release from rod photoreceptors revealed by visualizing individual synaptic vesiclesDifferential Regulation of Synaptic Vesicle Tethering and Docking by UNC-18 and TOM-1.Interactive, computer-assisted tracking of speckle trajectories in fluorescence microscopy: application to actin polymerization and membrane fusion.Statistical Frailty Modeling for Quantitative Analysis of Exocytotic Events Recorded by Live Cell Imaging: Rapid Release of Insulin-Containing Granules Is Impaired in Human Diabetic β-cellsA Programmable DNA Origami Platform to Organize SNAREs for Membrane FusionThe proteins of exocytosis: lessons from the sperm model.Coupling amperometry and total internal reflection fluorescence microscopy at ITO surfaces for monitoring exocytosis of single vesicles.Reconstitution of calcium-mediated exocytosis of dense-core vesicles.High Throughput NPY-Venus and Serotonin Secretion Assays for Regulated Exocytosis in Neuroendocrine Cells.
P2860
Q27303636-9EAAC813-7AAD-47B4-8958-799425C00836Q27305246-319F7F95-1BFC-40C5-9C0A-1A2683FC21B2Q33489548-5D4C4E88-97CD-470F-9793-AD94B3B9930FQ33523242-6C39F570-4664-41A3-A93E-ED671384BE61Q33870065-068781B6-A716-4768-BF47-A2EFC0A272D6Q34062343-02F18CD6-ECE0-488D-931B-A34B42492AF2Q34338005-CA57B0A0-C505-4123-9520-90A660D3AA33Q34568061-3CDA1C54-BC6E-48D2-A138-8BE42C7602E9Q34689861-67E5F2FE-66E0-4D19-BB7C-47744A8338E9Q35246222-F5ABB806-A6E8-4F5C-89CE-D69F434F1A06Q36209905-AB55FA82-CD81-47E2-BC5C-8EC395EB1396Q37107629-883ED871-4C98-4152-A261-62A8E3AAE4CFQ38327408-66035FDD-B126-4045-80F4-25F8A818D0E1Q39552220-07D74FF9-3485-4D7D-8564-FABE721D2541Q41059539-E3F42D4A-6A57-43A1-832B-B67547E1032AQ52649443-5BBB6BB2-FC29-494C-AB06-660BCD98E458
P2860
A 20-nm step toward the cell membrane preceding exocytosis may correspond to docking of tethered granules.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
A 20-nm step toward the cell m ...... docking of tethered granules.
@ast
A 20-nm step toward the cell m ...... docking of tethered granules.
@en
type
label
A 20-nm step toward the cell m ...... docking of tethered granules.
@ast
A 20-nm step toward the cell m ...... docking of tethered granules.
@en
prefLabel
A 20-nm step toward the cell m ...... docking of tethered granules.
@ast
A 20-nm step toward the cell m ...... docking of tethered granules.
@en
P2093
P2860
P1433
P1476
A 20-nm step toward the cell m ...... docking of tethered granules.
@en
P2093
Erdem Karatekin
Isabelle Fanget
Jean-Pierre Henry
Sébastien Huet
Viet Samuel Tran
P2860
P304
P356
10.1529/BIOPHYSJ.107.116756
P407
P577
2008-01-04T00:00:00Z