scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0165-0270(00)00309-5 |
P698 | PubMed publication ID | 11084207 |
P50 | author | José D. Machado | Q37828746 |
P2093 | author name string | Segura F | |
Borges R | |||
Gómez JF | |||
Brioso MA | |||
Machado JD | |||
P2860 | cites work | Temporally resolved catecholamine spikes correspond to single vesicle release from individual chromaffin cells | Q24559973 |
High calcium concentrations shift the mode of exocytosis to the kiss-and-run mechanism | Q33880066 | ||
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Rapid fluctuations in transmitter release from single vesicles in bovine adrenal chromaffin cells | Q34017485 | ||
Time course of Ca2+ concentration triggering exocytosis in neuroendocrine cells | Q36002775 | ||
Estimation of mean exocytic vesicle capacitance in mouse adrenal chromaffin cells | Q36239491 | ||
A single amino acid near the C terminus of the synaptosomeassociated protein of 25 kDa (SNAP-25) is essential for exocytosis in chromaffin cells. | Q36393563 | ||
Principles of voltammetry and microelectrode surface states | Q40865294 | ||
Temporally resolved, independent stages of individual exocytotic secretion events | Q42790583 | ||
Timing of dense-core vesicle exocytosis depends on the facilitation L-type Ca channel in adrenal chromaffin cells. | Q47710391 | ||
Microelectrodes for the measurement of catecholamines in biological systems | Q48511555 | ||
Nitric oxide modulates a late step of exocytosis. | Q50513083 | ||
Separation and culture of living adrenaline- and noradrenaline-containing cells from bovine adrenal medullae. | Q50881635 | ||
Comparison of cysteine string protein (Csp) and mutant alpha-SNAP overexpression reveals a role for csp in late steps of membrane fusion in dense-core granule exocytosis in adrenal chromaffin cells. | Q53917964 | ||
Effects of external osmotic pressure on vesicular secretion from bovine adrenal medullary cells | Q73174569 | ||
Ca(2+)-dependent activator protein for secretion is critical for the fusion of dense-core vesicles with the membrane in calf adrenal chromaffin cells | Q78166379 | ||
P433 | issue | 2 | |
P921 | main subject | automation | Q184199 |
exocytosis | Q323426 | ||
P304 | page(s) | 151-156 | |
P577 | publication date | 2000-11-01 | |
P1433 | published in | Journal of Neuroscience Methods | Q15764020 |
P1476 | title | Automatic analysis for amperometrical recordings of exocytosis | |
P478 | volume | 103 |
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Q41553070 | Automated targeting of cells to electrochemical electrodes using a surface chemistry approach for the measurement of quantal exocytosis |
Q58422492 | Calcium channel subtypes differentially regulate fusion pore stability and expansion |
Q30976825 | Chromogranin B gene ablation reduces the catecholamine cargo and decelerates exocytosis in chromaffin secretory vesicles. |
Q60519767 | Chronic hypoxia up-regulates alpha1H T-type channels and low-threshold catecholamine secretion in rat chromaffin cells |
Q56968197 | Distinct patterns of exocytosis elicited by Ca, Sr and Ba in bovine chromaffin cells |
Q28583069 | Dynamin regulates focal exocytosis in phagocytosing macrophages |
Q95820193 | Electroanalytical eavesdropping on single cell communication |
Q50230106 | Electrochemical measurement of quantal exocytosis using microchips |
Q41344753 | Electroporation followed by electrochemical measurement of quantal transmitter release from single cells using a patterned microelectrode |
Q48344965 | Faster kinetics of quantal catecholamine release in mouse chromaffin cells stimulated with acetylcholine, compared with other secretagogues |
Q83232831 | Fusion pore regulation by cAMP/Epac2 controls cargo release during insulin exocytosis |
Q46533583 | Intravesicular calcium release mediates the motion and exocytosis of secretory organelles: a study with adrenal chromaffin cells |
Q33336646 | Magnetron sputtered diamond-like carbon microelectrodes for on-chip measurement of quantal catecholamine release from cells |
Q40262984 | Matching native electrical stimulation by graded chemical stimulation in isolated mouse adrenal chromaffin cells |
Q41955054 | Microwell device for targeting single cells to electrochemical microelectrodes for high-throughput amperometric detection of quantal exocytosis |
Q58009224 | Modifications in the C Terminus of the Synaptosome-associated Protein of 25 kDa (SNAP-25) and in the Complementary Region of Synaptobrevin Affect the Final Steps of Exocytosis |
Q40757975 | Modulatory mechanism of the endogenous peptide catestatin on neuronal nicotinic acetylcholine receptors and exocytosis. |
Q28565862 | Myosin-Va regulates exocytosis through the submicromolar Ca2+-dependent binding of syntaxin-1A. |
Q44833750 | New roles of myosin II during vesicle transport and fusion in chromaffin cells |
Q46380083 | PDE type-4 inhibition increases L-type Ca(2+) currents, action potential firing, and quantal size of exocytosis in mouse chromaffin cells |
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Q36295988 | Phosphomimetic mutation of Ser-187 of SNAP-25 increases both syntaxin binding and highly Ca2+-sensitive exocytosis. |
Q40743870 | Quantal release of free radicals during exocytosis of phagosomes |
Q47757391 | Reduced availability of voltage-gated sodium channels by depolarization or blockade by tetrodotoxin boosts burst firing and catecholamine release in mouse chromaffin cells. |
Q30008726 | The F-Actin Binding Protein Cortactin Regulates the Dynamics of the Exocytotic Fusion Pore through its SH3 Domain |
Q30555694 | The V-ATPase membrane domain is a sensor of granular pH that controls the exocytotic machinery |
Q42940256 | The association of dynamin with synaptophysin regulates quantal size and duration of exocytotic events in chromaffin cells. |
Q46681537 | The crucial role of chromogranins in storage and exocytosis revealed using chromaffin cells from chromogranin A null mouse. |
Q39921502 | The quantal secretion of catecholamines is impaired by the accumulation of beta-adrenoceptor antagonists into chromaffin cell vesicles. |
Q44358889 | Vesicular release of neurotransmitters: converting amperometric measurements into size, dynamics and energetics of initial fusion pores |