Adler EM, Augustine GJ, Duffy SN, Charlton MP. (1991). Alien intracellular calcium chelators attenuate neurotransmitter release at the squid giant synapse. The Journal of neuroscience : the official journal of the Society for Neuroscience. 11 [PubMed]
Alemà S, Calissano P, Rusca G, Giuditta A. (1973). Identification of a calcium-binding, brain specific protein in the axoplasm of squid giant axons. Journal of neurochemistry. 20 [PubMed]
Augustine GJ, Charlton MP. (1986). Calcium dependence of presynaptic calcium current and post-synaptic response at the squid giant synapse. The Journal of physiology. 381 [PubMed]
Augustine GJ, Charlton MP, Smith SJ. (1985). Calcium entry and transmitter release at voltage-clamped nerve terminals of squid. The Journal of physiology. 367 [PubMed]
Chad JE, Eckert R. (1984). Calcium domains associated with individual channels can account for anomalous voltage relations of CA-dependent responses. Biophysical journal. 45 [PubMed]
Charlton MP, Smith SJ, Zucker RS. (1982). Role of presynaptic calcium ions and channels in synaptic facilitation and depression at the squid giant synapse. The Journal of physiology. 323 [PubMed]
Crank J. (1975). The Mathematics of Diffusion (2nd edn).
Datyner NB, Gage PW. (1980). Phasic secretion of acetylcholine at a mammalian neuromuscular junction. The Journal of physiology. 303 [PubMed]
Delaney KR, Zucker RS. (1990). Calcium released by photolysis of DM-nitrophen stimulates transmitter release at squid giant synapse. The Journal of physiology. 426 [PubMed]
Dodge FA, Rahamimoff R. (1967). Co-operative action a calcium ions in transmitter release at the neuromuscular junction. The Journal of physiology. 193 [PubMed]
Dudel J. (1981). The effect of reduced calcium on quantal unit current and release at the crayfish neuromuscular junction. Pflugers Archiv : European journal of physiology. 391 [PubMed]
Dudel J. (1986). Dependence of double-pulse facilitation on amplitude and duration of the depolarization pulses at frog's motor nerve terminals. Pflugers Archiv : European journal of physiology. 406 [PubMed]
Dudel J. (1989). Calcium and depolarization dependence of twin-pulse facilitation of synaptic release at nerve terminals of crayfish and frog muscle. Pflugers Archiv : European journal of physiology. 415 [PubMed]
Fogelson AL, Zucker RS. (1985). Presynaptic calcium diffusion from various arrays of single channels. Implications for transmitter release and synaptic facilitation. Biophysical journal. 48 [PubMed]
Hagiwara S, Byerly L. (1981). Calcium channel. Annual review of neuroscience. 4 [PubMed]
Hochner B, Parnas H, Parnas I. (1989). Membrane depolarization evokes neurotransmitter release in the absence of calcium entry. Nature. 342 [PubMed]
Katz B, Miledi R. (1965). The effect of temperature on the synaptic delay at the neuromuscular junction. The Journal of physiology. 181 [PubMed]
Katz B, Miledi R. (1967). The release of acetylcholine from nerve endings by graded electric pulses. Proceedings of the Royal Society of London. Series B, Biological sciences. 167 [PubMed]
Katz B, Miledi R. (1967). A study of synaptic transmission in the absence of nerve impulses. The Journal of physiology. 192 [PubMed]
Llinás R, Steinberg IZ, Walton K. (1981). Relationship between presynaptic calcium current and postsynaptic potential in squid giant synapse. Biophysical journal. 33 [PubMed]
Llinás R, Sugimori M, Simon SM. (1982). Transmission by presynaptic spike-like depolarization in the squid giant synapse. Proceedings of the National Academy of Sciences of the United States of America. 79 [PubMed]
Mulkey RM, Zucker RS. (1991). Action potentials must admit calcium to evoke transmitter release. Nature. 350 [PubMed]
Parnas H, Dudel J, Parnas I. (1986). Neurotransmitter release and its facilitation in crayfish. VII. Another voltage dependent process beside Ca entry controls the time course of phasic release. Pflugers Archiv : European journal of physiology. 406 [PubMed]
Parnas H, Hovav G, Parnas I. (1989). Effect of Ca2+ diffusion on the time course of neurotransmitter release. Biophysical journal. 55 [PubMed]
Roberts WM, Jacobs RA, Hudspeth AJ. (1990). Colocalization of ion channels involved in frequency selectivity and synaptic transmission at presynaptic active zones of hair cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 10 [PubMed]
Robertson SP, Johnson JD, Potter JD. (1981). The time-course of Ca2+ exchange with calmodulin, troponin, parvalbumin, and myosin in response to transient increases in Ca2+. Biophysical journal. 34 [PubMed]
Simon SM, Llinás RR. (1985). Compartmentalization of the submembrane calcium activity during calcium influx and its significance in transmitter release. Biophysical journal. 48 [PubMed]
Smith SJ, Zucker RS. (1980). Aequorin response facilitation and intracellular calcium accumulation in molluscan neurones. The Journal of physiology. 300 [PubMed]
Stanley EF. (1986). Decline in calcium cooperativity as the basis of facilitation at the squid giant synapse. The Journal of neuroscience : the official journal of the Society for Neuroscience. 6 [PubMed]
Van der Kloot W. (1988). The kinetics of quantal releases during end-plate currents at the frog neuromuscular junction. The Journal of physiology. 402 [PubMed]
Zucker RS. (1973). Changes in the statistics of transmitter release during facilitation. The Journal of physiology. 229 [PubMed]
Zucker RS. (1974). Characteristics of crayfish neuromuscular facilitation and their calcium dependence. The Journal of physiology. 241 [PubMed]
Zucker RS, Delaney KR, Mulkey R, Tank DW. (1991). Presynaptic calcium in transmitter release and posttetanic potentiation. Annals of the New York Academy of Sciences. 635 [PubMed]
Zucker RS, Fogelson AL. (1986). Relationship between transmitter release and presynaptic calcium influx when calcium enters through discrete channels. Proceedings of the National Academy of Sciences of the United States of America. 83 [PubMed]
Zucker RS, Haydon PG. (1988). Membrane potential has no direct role in evoking neurotransmitter release. Nature. 335 [PubMed]
De Schutter E, Smolen P. (1998). Calcium dynamics in large neuronal models Methods In Neuronal Modeling: From Ions To Networks.
Destexhe A, Mainen ZF, Sejnowski TJ. (1994). Synthesis of models for excitable membranes, synaptic transmission and neuromodulation using a common kinetic formalism. Journal of computational neuroscience. 1 [PubMed]
Gilmanov IR, Samigullin DV, Vyskocil F, Nikolsky EE, Bukharaeva EA. (2008). Modeling of quantal neurotransmitter release kinetics in the presence of fixed and mobile calcium buffers. Journal of computational neuroscience. 25 [PubMed]
Lee CC, Anton M, Poon CS, McRae GJ. (2009). A kinetic model unifying presynaptic short-term facilitation and depression. Journal of computational neuroscience. 26 [PubMed]
Matveev V, Bertram R, Sherman A. (2006). Residual bound Ca2+ can account for the effects of Ca2+ buffers on synaptic facilitation. Journal of neurophysiology. 96 [PubMed]
Matveev V, Zucker RS, Sherman A. (2004). Facilitation through buffer saturation: constraints on endogenous buffering properties. Biophysical journal. 86 [PubMed]
Sela R, Segel L, Parnas I, Parnas H. (2005). Release of neurotransmitter induced by Ca2+-uncaging: reexamination of the ca-voltage hypothesis for release. Journal of computational neuroscience. 19 [PubMed]
Zador A, Koch C. (1994). Linearized models of calcium dynamics: formal equivalence to the cable equation. The Journal of neuroscience : the official journal of the Society for Neuroscience. 14 [PubMed]