scholarly article | Q13442814 |
P819 | ADS bibcode | 2016NatCo...712604W |
P6179 | Dimensions Publication ID | 1004975385 |
P356 | DOI | 10.1038/NCOMMS12604 |
P932 | PMC publication ID | 5013665 |
P698 | PubMed publication ID | 27576662 |
P50 | author | Allen P. Liu | Q57464528 |
Albert Jin | Q47146286 | ||
Tuomas Näreoja | Q55762166 | ||
Emma Evergren | Q42351727 | ||
Oleg Shupliakov | Q42619599 | ||
P2093 | author name string | Hsueh-Cheng Chiang | |
Ling-Gang Wu | |||
Xinyu Tan | |||
Roger Karlsson | |||
Johanna Heureaux | |||
Steven N Ebert | |||
Yinghui Jin | |||
Wei-Dong Zhao | |||
Peter J Wen | |||
Wonchul Shin | |||
Edaeni Hamid | |||
Gianvito Arpino | |||
Hsien-Shun Liao | |||
Shi-Yong Peng | |||
Staffan Grenklo | |||
P2860 | cites work | The synaptic vesicle cycle | Q24297813 |
Multiple roles for the actin cytoskeleton during regulated exocytosis | Q26824483 | ||
Molecular machines governing exocytosis of synaptic vesicles | Q26849286 | ||
Distinct initial SNARE configurations underlying the diversity of exocytosis | Q26866150 | ||
Annexin A2-dependent actin bundling promotes secretory granule docking to the plasma membrane and exocytosis | Q27310437 | ||
Control of directed cell migration in vivo by membrane-to-cortex attachment | Q27322747 | ||
A microfluidic pipette array for mechanophenotyping of cancer cells and mechanical gating of mechanosensitive channels | Q27335311 | ||
Latrunculin alters the actin-monomer subunit interface to prevent polymerization | Q27624918 | ||
Regulated exocytosis in neuroendocrine cells: a role for subplasmalemmal Cdc42/N-WASP-induced actin filaments | Q28576605 | ||
Src kinases regulate de novo actin polymerization during exocytosis in neuroendocrine chromaffin cells | Q30009410 | ||
Intersectin is a negative regulator of dynamin recruitment to the synaptic endocytic zone in the central synapse. | Q30159491 | ||
Fission and uncoating of synaptic clathrin-coated vesicles are perturbed by disruption of interactions with the SH3 domain of endophilin. | Q30168754 | ||
A crucial role for profilin-actin in the intracellular motility of Listeria monocytogenes | Q30476565 | ||
F-actin and myosin II accelerate catecholamine release from chromaffin granules | Q30485822 | ||
Identification and characterization of a small molecule inhibitor of formin-mediated actin assembly | Q30491999 | ||
Role for the actomyosin complex in regulated exocytosis revealed by intravital microscopy | Q30503563 | ||
Actin dynamics counteract membrane tension during clathrin-mediated endocytosis | Q30503955 | ||
Cytochalasin D inhibits actin polymerization and induces depolymerization of actin filaments formed during platelet shape change | Q59070602 | ||
Three types of Ca2+ channel trigger secretion with different efficacies in chromaffin cells | Q59079446 | ||
Calcium requirements for secretion in bovine chromaffin cells | Q67580569 | ||
Actin polymerization and ATP hydrolysis | Q69433184 | ||
Calmodulin is the divalent cation receptor for rapid endocytosis, but not exocytosis, in adrenal chromaffin cells | Q70901396 | ||
Phosphatidylinositol 4,5-bisphosphate binding to the pleckstrin homology domain of phospholipase C-delta1 enhances enzyme activity | Q71539967 | ||
Double patch clamp reveals that transient fusion (kiss-and-run) is a major mechanism of secretion in calf adrenal chromaffin cells: high calcium shifts the mechanism from kiss-and-run to complete fusion | Q82843404 | ||
ATP is required at an early step in compensatory endocytosis in synaptic terminals. | Q43715905 | ||
A cross-linked profilin-actin heterodimer interferes with elongation at the fast-growing end of F-actin | Q43886308 | ||
Myosin II contributes to fusion pore expansion during exocytosis | Q46746801 | ||
Stabilization of exocytosis by dynamic F-actin coating of zymogen granules in pancreatic acini | Q47377644 | ||
Restricted beta-galactosidase expression of a hygromycin-lacZ gene targeted to the beta-actin locus and embryonic lethality of beta-actin mutant mice | Q48022190 | ||
Capacitance steps and fusion pores of small and large-dense-core vesicles in nerve terminals | Q48560522 | ||
Cdc42-dependent actin polymerization during compensatory endocytosis in Xenopus eggs | Q48824757 | ||
Phosphatidylinositol(4,5)bisphosphate coordinates actin-mediated mobilization and translocation of secretory vesicles to the plasma membrane of chromaffin cells. | Q48860862 | ||
Strong and ubiquitous expression of transgenes targeted into the beta-actin locus by Cre/lox cassette replacement. | Q50659544 | ||
Actin polymerization regulates clathrin coat maturation during early stages of synaptic vesicle recycling at lamprey synapses. | Q52571190 | ||
Two modes of fusion pore opening revealed by cell-attached recordings at a synapse. | Q55042647 | ||
β-Actin and γ-Actin Are Each Dispensable for Auditory Hair Cell Development But Required for Stereocilia Maintenance | Q30990855 | ||
Calcineurin is universally involved in vesicle endocytosis at neuronal and nonneuronal secretory cells | Q33804443 | ||
Rapid endocytosis coupled to exocytosis in adrenal chromaffin cells involves Ca2+, GTP, and dynamin but not clathrin | Q33969084 | ||
The fusion pores of Ca2+ -triggered exocytosis | Q34037133 | ||
Impaired recycling of synaptic vesicles after acute perturbation of the presynaptic actin cytoskeleton | Q34394543 | ||
Exocytosis and endocytosis: modes, functions, and coupling mechanisms | Q34657846 | ||
Post-fusion structural changes and their roles in exocytosis and endocytosis of dense-core vesicles. | Q34713448 | ||
Ca2+-dependent actin coating of lamellar bodies after exocytotic fusion: a prerequisite for content release or kiss-and-run | Q34927426 | ||
The fusion pore | Q35197986 | ||
Cytoskeletal proteins in cortical development and disease: actin associated proteins in periventricular heterotopia | Q35238551 | ||
Autoinhibited proteins as promising drug targets | Q35880107 | ||
Structural changes after transmitter release at the frog neuromuscular junction | Q36208626 | ||
Mechanism of action of cytochalasin: evidence that it binds to actin filament ends | Q36208636 | ||
Colocalization of synapsin and actin during synaptic vesicle recycling | Q36381468 | ||
Exocytosis in neuroendocrine cells: new tasks for actin | Q36620936 | ||
The role of the C terminus of the SNARE protein SNAP-25 in fusion pore opening and a model for fusion pore mechanics | Q36926938 | ||
Ultrafast endocytosis at Caenorhabditis elegans neuromuscular junctions | Q37145198 | ||
Actin coats and rings promote regulated exocytosis | Q38006307 | ||
Synaptic vesicle endocytosis | Q38024048 | ||
Perspectives on kiss-and-run: role in exocytosis, endocytosis, and neurotransmission | Q38067906 | ||
Actin isoforms in neuronal development and function | Q38073951 | ||
Mitochondrial dysfunctions in neurodegenerative diseases: relevance to Alzheimer's disease. | Q38217857 | ||
Actomyosin II contractility expels von Willebrand factor from Weibel-Palade bodies during exocytosis. | Q38256351 | ||
Activity-driven local ATP synthesis is required for synaptic function. | Q38281904 | ||
Review of electron microscopic evidence favouring vesicle exocytosis as the structural basis for quantal release during synaptic transmission | Q38326157 | ||
Feedback regulation between plasma membrane tension and membrane-bending proteins organizes cell polarity during leading edge formation | Q38879375 | ||
Patch-clamp techniques for time-resolved capacitance measurements in single cells | Q39297190 | ||
Effects of cross-linked profilin:beta/gamma-actin on the dynamics of the microfilament system in cultured cells | Q40890635 | ||
Cell spreading area regulates clathrin-coated pit dynamics on micropatterned substrate. | Q41789334 | ||
Targeted insertion of the Cre-recombinase gene at the phenylethanolamine n-methyltransferase locus: a new model for studying the developmental distribution of adrenergic cells. | Q42166527 | ||
Myosin II activation and actin reorganization regulate the mode of quantal exocytosis in mouse adrenal chromaffin cells | Q42557283 | ||
Multiple forms of endocytosis in bovine adrenal chromaffin cells | Q42837428 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | ImageJ | Q1659584 |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 12604 | |
P577 | publication date | 2016-08-31 | |
P1433 | published in | Nature Communications | Q573880 |
P1476 | title | Actin dynamics provides membrane tension to merge fusing vesicles into the plasma membrane | |
P478 | volume | 7 |
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Q64258805 | Combined Amperometry and Electrochemical Cytometry Reveal Differential Effects of Cocaine and Methylphenidate on Exocytosis and the Fraction of Chemical Release |
Q104135076 | Complimentary action of structured and unstructured domains of epsin supports clathrin-mediated endocytosis at high tension |
Q38733039 | Concerted actions of distinct nonmuscle myosin II isoforms drive intracellular membrane remodeling in live animals |
Q47112263 | Coupled circumferential and axial tension driven by actin and myosin influences in vivo axon diameter |
Q52653221 | Dendritic structural plasticity and neuropsychiatric disease. |
Q42320409 | Design principles for robust vesiculation in clathrin-mediated endocytosis |
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Q90332628 | Emergent membrane morphologies in relaxed and tense membranes in presence of reversible adhesive pinning interactions |
Q83232831 | Fusion pore regulation by cAMP/Epac2 controls cargo release during insulin exocytosis |
Q42364789 | How do you recognize and reconstitute a synaptic vesicle after fusion? |
Q42514168 | How does the stimulus define exocytosis in adrenal chromaffin cells? |
Q41222236 | Integration of Synaptic Vesicle Cargo Retrieval with Endocytosis at Central Nerve Terminals. |
Q92709483 | Interaction of microtubules and actin during the post-fusion phase of exocytosis |
Q58806150 | Local protein dynamics during microvesicle exocytosis in neuroendocrine cells |
Q47276691 | Membrane Tension Inhibits Rapid and Slow Endocytosis in Secretory Cells |
Q42362324 | Membrane tension increases fusion efficiency of model membranes in the presence of SNAREs |
Q96303473 | Mitochondrial Bioenergetics and Dynamics in Secretion Processes |
Q33112259 | Myomerger induces fusion of non-fusogenic cells and is required for skeletal muscle development |
Q58089180 | New observations in neuroscience using superresolution microscopy |
Q42654259 | Regulation of Exocytotic Fusion Pores by SNARE Protein Transmembrane Domains |
Q59800862 | Role of Mechanotransduction and Tension in T Cell Function |
Q36180751 | SNARE-mediated membrane fusion trajectories derived from force-clamp experiments |
Q47558696 | Spatiotemporal organization of exocytosis emerges during neuronal shape change. |
Q90012237 | Synaptic Vesicle Endocytosis in Different Model Systems |
Q41109238 | The Calcineurin-Binding, Activity-Dependent Splice Variant Dynamin1xb Is Highly Enriched in Synapses in Various Regions of the Central Nervous System. |
Q30008726 | The F-Actin Binding Protein Cortactin Regulates the Dynamics of the Exocytotic Fusion Pore through its SH3 Domain |
Q47124943 | The Nanoworld of the Tripartite Synapse: Insights from Super-Resolution Microscopy. |
Q89110786 | The fusion pore, 60 years after the first cartoon |
Q61447776 | The phagocytic state of brain myeloid cells after ischemia revealed by superresolution structured illumination microscopy |
Q57468570 | Toward a unified picture of the exocytotic fusion pore |
Q58695745 | Two-component latency distributions indicate two-step vesicular release at simple glutamatergic synapses |
Q92659614 | Vesicle Shrinking and Enlargement Play Opposing Roles in the Release of Exocytotic Contents |
Q53833435 | Visualization of Membrane Pore in Live Cells Reveals a Dynamic-Pore Theory Governing Fusion and Endocytosis. |
Q57044295 | Visualizing Tension and Growth in Model Membranes Using Optical Dyes |
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