The probability of quantal secretion within an array of calcium channels of an active zone.

[1]  W. Gibson,et al.  The probability of quantal secretion near a single calcium channel of an active zone. , 2000, Biophysical journal.

[2]  W. Gibson,et al.  On the origin of skewed distributions of spontaneous synaptic potentials in autonomic ganglia , 1998, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[3]  S. Muchnik,et al.  Spontaneous acetylcholine release in mammalian neuromuscular junctions. , 1997, The American journal of physiology.

[4]  William G. Gibson,et al.  Probabilistic secretion of quanta and the synaptosecretosome hypothesis: evoked release at active zones of varicosities, boutons, and endplates. , 1997, Biophysical journal.

[5]  K. Brain,et al.  Calcium in sympathetic varicosities of mouse vas deferens during facilitation, augmentation and autoinhibition , 1997, The Journal of physiology.

[6]  M. Bennett,et al.  Varicosities of single sympathetic nerve terminals possess syntaxin zones and different synaptotagmin N-terminus labelling following stimulation , 1997, Journal of Neurocytology.

[7]  T. Sejnowski,et al.  Heterogeneous Release Properties of Visualized Individual Hippocampal Synapses , 1997, Neuron.

[8]  E. Neher,et al.  Modeling buffered Ca2+ diffusion near the membrane: implications for secretion in neuroendocrine cells. , 1997, Biophysical journal.

[9]  B. Sakmann,et al.  Calcium influx and transmitter release in a fast CNS synapse , 1996, Nature.

[10]  A. Marty,et al.  Fluctuations of inhibitory postsynaptic currents in Purkinje cells from rat cerebellar slices. , 1996, The Journal of physiology.

[11]  C. Govind,et al.  Synaptic structural complexity as a factor enhancing probability of calcium-mediated transmitter release. , 1996, Journal of neurophysiology.

[12]  M. Bennett,et al.  Quantal components of spontaneous excitatory junction potentials at visualised varicosities. , 1996, Journal of the autonomic nervous system.

[13]  J. Hell,et al.  Immunochemical identification and subcellular distribution of the alpha 1A subunits of brain calcium channels , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[14]  M. Bennett,et al.  Probabilistic secretion of quanta at somatic motor-nerve terminals: the fusion-pore model, quantal detection and autoinhibition. , 1995, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[15]  Thomas C. Südhof,et al.  The synaptic vesicle cycle: a cascade of protein–protein interactions , 1995, Nature.

[16]  C. Stevens,et al.  Facilitation and depression at single central synapses , 1995, Neuron.

[17]  R S Zucker,et al.  Kinetics of the secretory response in bovine chromaffin cells following flash photolysis of caged Ca2+. , 1994, Biophysical journal.

[18]  C. Stevens,et al.  Changes in reliability of synaptic function as a mechanism for plasticity , 1994, Nature.

[19]  Gary Matthews,et al.  Calcium dependence of the rate of exocytosis in a synaptic terminal , 1994, Nature.

[20]  M. Charlton,et al.  Homosynaptic facilitation of transmitter release in crayfish is not affected by mobile calcium chelators: implications for the residual ionized calcium hypothesis from electrophysiological and computational analyses. , 1994, Journal of neurophysiology.

[21]  W A Roberts Localization of calcium signals by a mobile calcium buffer in frog saccular hair cells , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[22]  Richard Robitaille,et al.  Functional colocalization of calcium and calcium-gated potassium channels in control of transmitter release , 1993, Neuron.

[23]  M. Bennett,et al.  Probabilistic secretion of quanta from successive sets of visualized varicosities along single sympathetic nerve terminals. , 1993, Journal of the autonomic nervous system.

[24]  D. Lipscombe,et al.  Multiple modes of N-type calcium channel activity distinguished by differences in gating kinetics , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[25]  H. Kijima,et al.  Ca(2+)‐dependent and ‐independent components of transmitter release at the frog neuromuscular junction. , 1992, The Journal of physiology.

[26]  M. Charlton,et al.  Frequency Facilitation Is Not Caused by Residual Ionized Calcium at the Frog Neurornuscular Junction , 1991, Annals of the New York Academy of Sciences.

[27]  M. R. Bennett,et al.  Probabilistic secretion of quanta from nerve terminals in avian ciliary ganglia modulated by adenosine. , 1991, The Journal of physiology.

[28]  M. R. Bennett,et al.  Probabilistic secretion of quanta from nerve terminals in toad (Bufo marinus) muscle modulated by adenosine. , 1991, The Journal of physiology.

[29]  E. M. Adler,et al.  Strategic location of calcium channels at transmitter release sites of frog neuromuscular synapses , 1990, Neuron.

[30]  W. Kloot Estimating the timing of quantal releases during end-plate currents at the frog neuromuscular junction. , 1988 .

[31]  M. Bennett,et al.  The effect of calcium ions on the binomial statistic parameters that control acetylcholine release at preganglionic nerve terminals. , 1976, The Journal of physiology.

[32]  T. Reese,et al.  EVIDENCE FOR RECYCLING OF SYNAPTIC VESICLE MEMBRANE DURING TRANSMITTER RELEASE AT THE FROG NEUROMUSCULAR JUNCTION , 1973, The Journal of cell biology.

[33]  C. Sandri,et al.  The fine structure of freeze-fractured presynaptic membranes , 1972, Journal of neurocytology.

[34]  C. Sandri,et al.  Freeze-fracturing of presynaptic membranes in the central nervous system. , 1971, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[35]  AI K.L.BR Varicosities of single sympathetic nerve terminals possess syntaxin zones and different synaptotagmin N-terminus labelling following stimulation , 1997 .

[36]  L. Stjärne Molecular and cellular mechanisms of neurotransmitter release , 1994 .

[37]  W. G. Van der Kloot Estimating the timing of quantal releases during end‐plate currents at the frog neuromuscular junction. , 1988, The Journal of physiology.

[38]  S. Lowen The Biophysical Journal , 1960, Nature.