review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1007/S00795-008-0400-4 |
P698 | PubMed publication ID | 18592160 |
P2093 | author name string | Takashi Tsuboi | |
P2860 | cites work | A family of Rab27-binding proteins. Melanophilin links Rab27a and myosin Va function in melanosome transport | Q24295585 |
Synaptotagmin-like protein 5: a novel Rab27A effector with C-terminal tandem C2 domains | Q24299097 | ||
The Rab27a/granuphilin complex regulates the exocytosis of insulin-containing dense-core granules | Q24539832 | ||
The Rab GTPase family | Q24542523 | ||
Alternative splicing of the human Rab6A gene generates two close but functionally different isoforms | Q24551000 | ||
Rab proteins as membrane organizers | Q27860861 | ||
Insulin secretion by 'kiss-and-run' exocytosis in clonal pancreatic islet beta-cells | Q27863769 | ||
Mechanisms of intracellular protein transport | Q28131681 | ||
A monomeric red fluorescent protein | Q28131782 | ||
Functional interaction of the active zone proteins Munc13-1 and RIM1 in synaptic vesicle priming | Q28188061 | ||
Evolution of the Rab family of small GTP-binding proteins | Q28204091 | ||
Synaptotagmin-like protein 1-3: a novel family of C-terminal-type tandem C2 proteins | Q28204358 | ||
Distinct Rab binding specificity of Rim1, Rim2, rabphilin, and Noc2. Identification of a critical determinant of Rab3A/Rab27A recognition by Rim2 | Q28208436 | ||
Slp4-a/granuphilin-a inhibits dense-core vesicle exocytosis through interaction with the GDP-bound form of Rab27A in PC12 cells | Q28210017 | ||
A variant of yellow fluorescent protein with fast and efficient maturation for cell-biological applications | Q28213193 | ||
The Slp homology domain of synaptotagmin-like proteins 1-4 and Slac2 functions as a novel Rab27A binding domain | Q28214394 | ||
Snares and Munc18 in synaptic vesicle fusion | Q28216761 | ||
Identification of an organelle receptor for myosin-Va | Q28504759 | ||
Sustained exposure to high glucose concentrations modifies glucose signaling and the mechanics of secretory vesicle fusion in primary rat pancreatic beta-cells | Q40299327 | ||
Mammalian exocyst complex is required for the docking step of insulin vesicle exocytosis | Q40425782 | ||
Tracking SNARE complex formation in live endocrine cells | Q40495232 | ||
Mechanisms of dense core vesicle recapture following "kiss and run" ("cavicapture") exocytosis in insulin-secreting cells | Q40522071 | ||
Imaging exocytosis of single insulin secretory granules with evanescent wave microscopy: distinct behavior of granule motion in biphasic insulin release | Q40761723 | ||
Simultaneous evanescent wave imaging of insulin vesicle membrane and cargo during a single exocytotic event | Q40843756 | ||
TIRF imaging of docking and fusion of single insulin granule motion in primary rat pancreatic beta-cells: different behaviour of granule motion between normal and Goto-Kakizaki diabetic rat beta-cells | Q42156767 | ||
The Slp4-a linker domain controls exocytosis through interaction with Munc18-1.syntaxin-1a complex. | Q42956567 | ||
A membrane marker leaves synaptic vesicles in milliseconds after exocytosis in retinal bipolar cells | Q44158659 | ||
Multiple forms of "kiss-and-run" exocytosis revealed by evanescent wave microscopy | Q44390677 | ||
5'-AMP-activated protein kinase controls insulin-containing secretory vesicle dynamics | Q44610054 | ||
The role of Rab3A in neurotransmitter release | Q48106348 | ||
The mammalian Rab family of small GTPases: definition of family and subfamily sequence motifs suggests a mechanism for functional specificity in the Ras superfamily | Q48745906 | ||
Ca2+-Triggered Peptide Secretion in Single Cells Imaged with Green Fluorescent Protein and Evanescent-Wave Microscopy | Q58450914 | ||
The specifics of membrane fusion | Q59089855 | ||
The polybasic sequence in the C2B domain of rabphilin is required for the vesicle docking step in PC12 cells | Q79420100 | ||
Rab3A and Rab27A cooperatively regulate the docking step of dense-core vesicle exocytosis in PC12 cells | Q83309937 | ||
Rabphilin and Noc2 are recruited to dense-core vesicles through specific interaction with Rab27A in PC12 cells | Q28510077 | ||
The C2B domain of rabphilin directly interacts with SNAP-25 and regulates the docking step of dense core vesicle exocytosis in PC12 cells | Q28565346 | ||
Novel rabphilin-3-like protein associates with insulin-containing granules in pancreatic beta cells | Q28587539 | ||
Myosin Va transports dense core secretory vesicles in pancreatic MIN6 beta-cells | Q28589310 | ||
Decreased basal mucus secretion by Slp2-a-deficient gastric surface mucous cells | Q28593024 | ||
Novel splicing isoforms of synaptotagmin-like proteins 2 and 3: identification of the Slp homology domain | Q28594490 | ||
Small GTP-binding proteins | Q29547372 | ||
Membrane fusion and exocytosis | Q29614426 | ||
Membrane fusion | Q29618140 | ||
Synaptic assembly of the brain in the absence of neurotransmitter secretion | Q29618899 | ||
Rab GTPases: specifying and deciphering organelle identity and function | Q29620750 | ||
A general role for Rab27a in secretory cells | Q30499499 | ||
Bilayers merge even when exocytosis is transient | Q30597894 | ||
Sweeping model of dynamin activity. Visualization of coupling between exocytosis and endocytosis under an evanescent wave microscope with green fluorescent proteins | Q30816451 | ||
Monitoring of exocytosis and endocytosis of insulin secretory granules in the pancreatic beta-cell line MIN6 using pH-sensitive green fluorescent protein (pHluorin) and confocal laser microscopy | Q31043443 | ||
Water secretion associated with exocytosis in endocrine cells revealed by micro forcemetry and evanescent wave microscopy | Q31086160 | ||
A real-time view of life within 100 nm of the plasma membrane | Q31890399 | ||
Rab27a mediates the tight docking of insulin granules onto the plasma membrane during glucose stimulation | Q33777882 | ||
Large-scale profiling of Rab GTPase trafficking networks: the membrome | Q33911174 | ||
The Rab-binding protein Noc2 is associated with insulin-containing secretory granules and is essential for pancreatic beta-cell exocytosis | Q34273693 | ||
Prenylation of Rab GTPases: molecular mechanisms and involvement in genetic disease. | Q34286104 | ||
Lighting up the cell surface with evanescent wave microscopy | Q34286232 | ||
Ypt and Rab GTPases: insight into functions through novel interactions | Q34309095 | ||
Organization of the Rab-GDI/CHM superfamily: the functional basis for choroideremia disease | Q34328378 | ||
Total internal reflection fluorescence microscopy in cell biology | Q34456604 | ||
Regulation of synaptic transmission by RAB-3 and RAB-27 in Caenorhabditis elegans | Q34661691 | ||
Secretory granules are recaptured largely intact after stimulated exocytosis in cultured endocrine cells. | Q34763388 | ||
The roles of Rab27 and its effectors in the regulated secretory pathways | Q35639602 | ||
Noc-king out exocrine and endocrine secretion | Q35903027 | ||
Versatile role of Rab27 in membrane trafficking: focus on the Rab27 effector families. | Q36043229 | ||
Involvement of the Rab27 binding protein Slac2c/MyRIP in insulin exocytosis | Q36125027 | ||
Rab27A and its effector MyRIP link secretory granules to F-actin and control their motion towards release sites | Q36324794 | ||
Rabphilin-3A, a putative target protein for smg p25A/rab3A p25 small GTP-binding protein related to synaptotagmin | Q36677635 | ||
The C2A domain of synaptotagmin-like protein 3 (Slp3) is an atypical calcium-dependent phospholipid-binding machine: comparison with the C2A domain of synaptotagmin I. | Q38288586 | ||
The actin-binding domain of Slac2-a/melanophilin is required for melanosome distribution in melanocytes | Q39791257 | ||
Synaptotagmin VII modulates the kinetics of dense-core vesicle exocytosis in PC12 cells | Q40151729 | ||
P433 | issue | 2 | |
P304 | page(s) | 68-75 | |
P577 | publication date | 2008-06-01 | |
P1433 | published in | Medical Molecular Morphology | Q26842452 |
P1476 | title | Molecular mechanism of docking of dense-core vesicles to the plasma membrane in neuroendocrine cells | |
P478 | volume | 41 |