scholarly article | Q13442814 |
P2093 | author name string | Debus K | |
Lindau M | |||
P2860 | cites work | Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches | Q22337395 |
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The membrane fusion events in degranulating guinea pig eosinophils. | Q30422678 | ||
High calcium concentrations shift the mode of exocytosis to the kiss-and-run mechanism | Q33880066 | ||
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Colocalization of calcium entry and exocytotic release sites in adrenal chromaffin cells | Q34470857 | ||
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Activation of Torpedo acetylcholine receptors expressed in mouse fibroblasts. Single channel current kinetics reveal distinct agonist binding affinities | Q36434570 | ||
The use of quartz patch pipettes for low noise single channel recording | Q36673484 | ||
A fusion pore phenotype in mast cells of the ruby-eye mouse | Q37036200 | ||
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A novel method for rapid measurement of membrane resistance, capacitance, and access resistance | Q39457023 | ||
Capacitance flickers and pseudoflickers of small granules, measured in the cell-attached configuration | Q40123822 | ||
Structure and function of fusion pores in exocytosis and ectoplasmic membrane fusion | Q40380573 | ||
Influence of conductance changes on patch clamp capacitance measurements using a lock-in amplifier and limitations of the phase tracking technique. | Q41864300 | ||
Regulation of granule size in human and horse eosinophils by number of fusion events among unit granules | Q47359456 | ||
Cell-attached measurements of attofarad capacitance steps in rat melanotrophs | Q48703450 | ||
Dual-frequency method for synchronous measurement of cell capacitance, membrane conductance and access resistance on single cells | Q50118889 | ||
Common mechanisms for regulated exocytosis in the chromaffin cell and the synapse. | Q51004021 | ||
The exocytotic event in chromaffin cells revealed by patch amperometry. | Q53963862 | ||
Release of secretory products during transient vesicle fusion. | Q54046612 | ||
Capacitance measurements reveal stepwise fusion events in degranulating mast cells | Q59066000 | ||
Properties of the fusion pore that forms during exocytosis of a mast cell secretory vesicle | Q68795597 | ||
A novel Ca(2+)-dependent step in exocytosis subsequent to vesicle fusion | Q72210102 | ||
Exocytotic fusion pores exhibit semi-stable states | Q72804151 | ||
Low-noise patch-clamp techniques | Q77121590 | ||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 15 | |
P304 | page(s) | 2983-2997 | |
P577 | publication date | 2000-06-01 | |
P1433 | published in | Biophysical Journal | Q2032955 |
P1476 | title | Resolution of patch capacitance recordings and of fusion pore conductances in small vesicles | |
P478 | volume | 78 |
Q27322004 | A new role for myosin II in vesicle fission |
Q44287050 | Actin polymerization does not provide direct mechanical forces for vesicle fission during clathrin-mediated endocytosis. |
Q37263427 | Biophysical characterization of styryl dye-membrane interactions |
Q41992113 | Capacitance measurements of regulated exocytosis in mouse taste cells |
Q48560522 | Capacitance steps and fusion pores of small and large-dense-core vesicles in nerve terminals |
Q34186393 | Determination of cell capacitance using the exact empirical solution of partial differential Y/partial differential Cm and its phase angle |
Q26866150 | Distinct initial SNARE configurations underlying the diversity of exocytosis |
Q82843404 | 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 |
Q42084818 | Effect of input resistance voltage-dependency on DC estimate of membrane capacitance in cardiac myocytes. |
Q44396229 | Exocytosis at the ribbon synapse of retinal bipolar cells studied in patches of presynaptic membrane. |
Q73161655 | Exocytosis of single chromaffin granules in cell-free inside-out membrane patches |
Q33854641 | Exocytotic catecholamine release is not associated with cation flux through channels in the vesicle membrane but Na+ influx through the fusion pore |
Q30485822 | F-actin and myosin II accelerate catecholamine release from chromaffin granules |
Q48261345 | Fusion pore stability of peptidergic vesicles. |
Q37972485 | High resolution electrophysiological techniques for the study of calcium-activated exocytosis |
Q43972485 | High-resolution membrane capacitance measurements for the study of exocytosis and endocytosis. |
Q39678370 | Hormonal inhibition of endocytosis: novel roles for noradrenaline and G protein G(z). |
Q37438416 | Improved surface-patterned platinum microelectrodes for the study of exocytotic events. |
Q60238529 | Individual synaptic vesicles mediate stimulated exocytosis from cochlear inner hair cells |
Q42428152 | Juxtamembrane tryptophans of synaptobrevin 2 control the process of membrane fusion |
Q46364689 | Kiss-and-run exocytosis and fusion pores of secretory vesicles in human beta-cells. |
Q51925658 | Measurements of membrane patch capacitance using a software-based lock-in system. |
Q35158215 | Methods for cell-attached capacitance measurements in mouse adrenal chromaffin cell |
Q49161494 | Munc18-1 tuning of vesicle merger and fusion pore properties. |
Q39769676 | Nociceptive signals induce trafficking of TRPA1 to the plasma membrane |
Q39678366 | Noradrenaline inhibits exocytosis via the G protein βγ subunit and refilling of the readily releasable granule pool via the α(i1/2) subunit |
Q51367387 | Patch amperometry: high-resolution measurements of single-vesicle fusion and release. |
Q35220491 | Permeation of styryl dyes through nanometer-scale pores in membranes |
Q90515204 | Phosphatidylserine is critical for vesicle fission during clathrin-mediated endocytosis |
Q41813025 | Physiological stimulation regulates the exocytic mode through calcium activation of protein kinase C in mouse chromaffin cells |
Q35092716 | Positively charged amino acids at the SNAP-25 C terminus determine fusion rates, fusion pore properties, and energetics of tight SNARE complex zippering |
Q33922435 | Protein machines and lipid assemblies: current views of cell membrane fusion |
Q96766167 | Reconstitution and real-time quantification of membrane remodeling by single proteins and protein complexes |
Q83669847 | Synaptotagmin 1 is necessary for the Ca2+ dependence of clathrin-mediated endocytosis |
Q28582649 | Synaptotagmin IV modulation of vesicle size and fusion pores in PC12 cells |
Q28590434 | Synaptotagmin IV: a multifunctional regulator of peptidergic nerve terminals |
Q35197986 | The fusion pore |
Q37374901 | The fusion pore and vesicle cargo discharge modulation |
Q89110786 | The fusion pore, 60 years after the first cartoon |
Q36786251 | The ins and outs of secretion from pancreatic beta-cells: control of single-vesicle exo- and endocytosis. |
Q36926938 | The role of the C terminus of the SNARE protein SNAP-25 in fusion pore opening and a model for fusion pore mechanics |
Q57468570 | Toward a unified picture of the exocytotic fusion pore |
Q55042647 | Two modes of fusion pore opening revealed by cell-attached recordings at a synapse. |
Q38721820 | Unproductive exocytosis |
Q36906319 | cAMP-mediated stabilization of fusion pores in cultured rat pituitary lactotrophs |
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