MicrocircuitDB: Citation Relationship

Citations for Action potential reconstitution from measured current waveforms (Alle et al. 2009)

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Reference cited by multiple papers

Alle H, Roth A, Geiger JR (2009) Energy-efficient action potentials in hippocampal mossy fibers. Science 325:1405-8 [PubMed]

References and models cited by this paper

References and models that cite this paper

Acsády L, Kamondi A, Sík A, Freund T, Buzsáki G (1998) GABAergic cells are the major postsynaptic targets of mossy fibers in the rat hippocampus. J Neurosci 18:3386-403 [PubMed]

Alle H, Geiger JR (2006) Combined analog and action potential coding in hippocampal mossy fibers. Science 311:1290-3 [Journal] [PubMed]

Attwell D, Iadecola C (2002) The neural basis of functional brain imaging signals. Trends Neurosci 25:621-5 [PubMed]

Attwell D, Laughlin SB (2001) An energy budget for signaling in the grey matter of the brain. J Cereb Blood Flow Metab 21:1133-45 [Journal] [PubMed]

Bean BP (2007) The action potential in mammalian central neurons. Nat Rev Neurosci 8:451-65 [Journal] [PubMed]

Bischofberger J, Geiger JR, Jonas P (2002) Timing and efficacy of Ca2+ channel activation in hippocampal mossy fiber boutons. J Neurosci 22:10593-602 [PubMed]

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Engel D, Jonas P (2005) Presynaptic action potential amplification by voltage-gated Na+ channels in hippocampal mossy fiber boutons. Neuron 45:405-17 [Journal] [PubMed]

Faisal AA, Laughlin SB (2007) Stochastic simulations on the reliability of action potential propagation in thin axons. PLoS Comput Biol 3:e79 [Journal] [PubMed]

Geiger JR, Jonas P (2000) Dynamic control of presynaptic Ca(2+) inflow by fast-inactivating K(+) channels in hippocampal mossy fiber boutons. Neuron 28:927-39 [PubMed]

Geiger JR, Lübke J, Roth A, Frotscher M, Jonas P (1997) Submillisecond AMPA receptor-mediated signaling at a principal neuron-interneuron synapse. Neuron 18:1009-23 [PubMed]

•	Fast AMPA receptor signaling (Geiger et al 1997) [Model]

Henze DA, Wittner L, Buzsáki G (2002) Single granule cells reliably discharge targets in the hippocampal CA3 network in vivo. Nat Neurosci 5:790-5 [Journal] [PubMed]

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HODGKIN AL, HUXLEY AF (1952) A quantitative description of membrane current and its application to conduction and excitation in nerve. J Physiol 117:500-44 [Journal] [PubMed]

•	Squid axon (Hodgkin, Huxley 1952) (LabAXON) [Model]
•	Squid axon (Hodgkin, Huxley 1952) (NEURON) [Model]
•	Squid axon (Hodgkin, Huxley 1952) (SNNAP) [Model]
•	Squid axon (Hodgkin, Huxley 1952) used in (Chen et al 2010) (R language) [Model]
•	Squid axon (Hodgkin, Huxley 1952) (SBML, XPP, other) [Model]

Jung MW, McNaughton BL (1993) Spatial selectivity of unit activity in the hippocampal granular layer. Hippocampus 3:165-82 [Journal] [PubMed]

Kole MH, Letzkus JJ, Stuart GJ (2007) Axon initial segment Kv1 channels control axonal action potential waveform and synaptic efficacy. Neuron 55:633-47 [Journal] [PubMed]

Kress GJ, Dowling MJ, Meeks JP, Mennerick S (2008) High threshold, proximal initiation, and slow conduction velocity of action potentials in dentate granule neuron mossy fibers. J Neurophysiol 100:281-91 [Journal] [PubMed]

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Laughlin SB, Sejnowski TJ (2003) Communication in neuronal networks. Science 301:1870-4 [Journal] [PubMed]

Lennie P (2003) The cost of cortical computation. Curr Biol 13:493-7 [PubMed]

Logothetis NK (2008) What we can do and what we cannot do with fMRI. Nature 453:869-78 [Journal] [PubMed]

Lüpfert C, Grell E, Pintschovius V, Apell HJ, Cornelius F, Clarke RJ (2001) Rate limitation of the Na(+),K(+)-ATPase pump cycle. Biophys J 81:2069-81 [Journal] [PubMed]

Mangia S, Giove F, Tkác I, Logothetis NK, Henry PG, Olman CA, Maraviglia B, Di Salle F, Ugurbil K (2009) Metabolic and hemodynamic events after changes in neuronal activity: current hypotheses, theoretical predictions and in vivo NMR experimental findings. J Cereb Blood Flow Metab 29:441-63 [Journal] [PubMed]

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Mukamel R, Gelbard H, Arieli A, Hasson U, Fried I, Malach R (2005) Coupling between neuronal firing, field potentials, and FMRI in human auditory cortex. Science 309:951-4 [Journal] [PubMed]

Nawroth JC, Greer CA, Chen WR, Laughlin SB, Shepherd GM (2007) An energy budget for the olfactory glomerulus. J Neurosci 27:9790-800 [Journal] [PubMed]

Niessing J, Ebisch B, Schmidt KE, Niessing M, Singer W, Galuske RA (2005) Hemodynamic signals correlate tightly with synchronized gamma oscillations. Science 309:948-51 [Journal] [PubMed]

Ritchie JM (1973) Energetic aspects of nerve conduction: the relationships between heat production, electrical activity and metabolism. Prog Biophys Mol Biol 26:147-87 [PubMed]

Ritchie JM, Straub RW (1975) The movement of potassium ions during electrical activity, and the kinetics of the recovery process, in the non-myelinated fibres of the garfish olfactory nerve. J Physiol 249:327-48 [PubMed]

Rosenthal JJ, Bezanilla F (2002) A comparison of propagated action potentials from tropical and temperate squid axons: different durations and conduction velocities correlate with ionic conductance levels. J Exp Biol 205:1819-30 [PubMed]

Schmidt-Hieber C, Jonas P, Bischofberger J (2007) Subthreshold dendritic signal processing and coincidence detection in dentate gyrus granule cells. J Neurosci 27:8430-41 [Journal] [PubMed]

•	Dentate gyrus granule cell: subthreshold signal processing (Schmidt-Hieber et al. 2007) [Model]

Schmidt-Hieber C, Jonas P, Bischofberger J (2008) Action potential initiation and propagation in hippocampal mossy fibre axons. J Physiol 586:1849-57 [Journal] [PubMed]

Stuart GJ, Sakmann B (1994) Active propagation of somatic action potentials into neocortical pyramidal cell dendrites. Nature 367:69-72 [Journal] [PubMed]

Wang SS, Shultz JR, Burish MJ, Harrison KH, Hof PR, Towns LC, Wagers MW, Wyatt KD (2008) Functional trade-offs in white matter axonal scaling. J Neurosci 28:4047-56 [Journal] [PubMed]

Yu Y, Shu Y, McCormick DA (2008) Cortical action potential backpropagation explains spike threshold variability and rapid-onset kinetics. J Neurosci 28:7260-72 [Journal] [PubMed]

•	AP back-prop. explains threshold variability and rapid rise (McCormick et al. 2007, Yu et al. 2008) [Model]

Brette R (2013) Sharpness of spike initiation in neurons explained by compartmentalization. PLoS Comput Biol 9:e1003338 [Journal] [PubMed]

•	Sharpness of spike initiation in neurons explained by compartmentalization (Brette 2013) [Model]

Fleidervish IA, Lasser-Ross N, Gutnick MJ, Ross WN (2010) Na+ imaging reveals little difference in action potential-evoked Na+ influx between axon and soma. Nat Neurosci 13:852-60 [Journal] [PubMed]

•	Action potential-evoked Na+ influx are similar in axon and soma (Fleidervish et al. 2010) [Model]
•	Action potential-evoked Na+ influx similar in axon and soma (Fleidervish et al. 2010) (Python) [Model]

Hallermann S, de Kock CP, Stuart GJ, Kole MH (2012) State and location dependence of action potential metabolic cost in cortical pyramidal neurons. Nat Neurosci 15:1007-14 [Journal] [PubMed]

•	State and location dependence of action potential metabolic cost (Hallermann et al., 2012) [Model]

Ju H, Hines ML, Yu Y (2016) Cable energy function of cortical axons. Sci Rep 6:29686 [Journal] [PubMed]

McColgan T, Liu J, Kuokkanen PT, Carr CE, Wagner H, Kempter R (2017) Dipolar extracellular potentials generated by axonal projections. Elife [Journal] [PubMed]

•	Dipolar extracellular potentials generated by axonal projections (McColgan et al 2017) [Model]

Michalikova M, Remme MW, Kempter R (2017) Spikelets in Pyramidal Neurons: Action Potentials Initiated in the Axon Initial Segment That Do Not Activate the Soma. PLoS Comput Biol 13:e1005237 [Journal] [PubMed]

•	Spikelet generation and AP initiation in a L5 neocortical pyr neuron (Michalikova et al. 2017) Fig 1 [Model]
•	Spikelet generation and AP initiation in a simplified pyr neuron (Michalikova et al. 2017) Fig 3 [Model]

Parekh R, Ascoli GA (2013) Neuronal morphology goes digital: a research hub for cellular and system neuroscience. Neuron 77:1017-38 [Journal] [PubMed]

•	Neuronal morphology goes digital ... (Parekh & Ascoli 2013) [Model]

Platkiewicz J, Brette R (2010) A threshold equation for action potential initiation. PLoS Comput Biol 6:e1000850 [Journal] [PubMed]

•	A threshold equation for action potential initiation (Platkiewicz & Brette 2010) [Model]

Platkiewicz J, Brette R (2011) Impact of fast sodium channel inactivation on spike threshold dynamics and synaptic integration. PLoS Comput Biol 7:e1001129 [Journal] [PubMed]

•	Impact of fast Na channel inact. on AP threshold & synaptic integration (Platkiewicz & Brette 2011) [Model]

Remme MWH, Rinzel J, Schreiber S (2018) Function and energy consumption constrain neuronal biophysics in a canonical computation: Coincidence detection. PLoS Comput Biol 14:e1006612 [Journal] [PubMed]

•	Function and energy constrain neuronal biophysics in coincidence detection (Remme et al 2018) [Model]

Schmidt-Hieber C, Bischofberger J (2010) Fast sodium channel gating supports localized and efficient axonal action potential initiation. J Neurosci 30:10233-42 [Journal] [PubMed]

•	Fast sodium channel gating in mossy fiber axons (Schmidt-Hieber et al. 2010) [Model]

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