Legends: | Link to a Model | Reference cited by multiple papers |
References and models cited by this paper | References and models that cite this paper | |||||||||||||||||||||||||||||||||||||||
Ahlijanian MK, Westenbroek RE, Catterall WA (1990) Subunit structure and localization of dihydropyridine-sensitive calcium channels in mammalian brain, spinal cord, and retina. Neuron 4:819-32 [PubMed] Beck H, Clusmann H, Kral T, Schramm J, Heinemann U, Elger CE (1997) Potassium currents in acutely isolated human hippocampal dentate granule cells. J Physiol 498 ( Pt 1):73-85 [PubMed] Beck H, Ficker E, Heinemann U (1992) Properties of two voltage-activated potassium currents in acutely isolated juvenile rat dentate gyrus granule cells. J Neurophysiol 68:2086-99 [Journal] [PubMed]
Blaxter TJ, Carlen PL, Niesen C (1989) Pharmacological and anatomical separation of calcium currents in rat dentate granule neurones in vitro. J Physiol 412:93-112 [PubMed] Bower JM, Beeman D (1995) The Book of GENESIS: Exploring Realistic Neural Models with the GEneral NEural SImulation System. [Journal] Brown DA, Griffith WH (1983) Persistent slow inward calcium current in voltage-clamped hippocampal neurones of the guinea-pig. J Physiol 337:303-20 [PubMed] Crunelli V, Assaf SY, Kelly JS (1983) Intracellular recordings from granule cells of the dentate gyrus in vitro Neurobiology Of The Hippocampus, Scheifert W, ed. pp.197 De Schutter E, Bower JM (1994) An active membrane model of the cerebellar Purkinje cell. I. Simulation of current clamps in slice. J Neurophysiol 71:375-400 [Journal] [PubMed]
Desmond NL, Levy WB (1982) A quantitative anatomical study of the granule cell dendritic fields of the rat dentate gyrus using a novel probabilistic method. J Comp Neurol 212:131-45 [Journal] [PubMed] Desmond NL, Levy WB (1984) Dendritic caliber and the 3/2 power relationship of dentate granule cells. J Comp Neurol 227:589-96 [Journal] [PubMed] Desmond NL, Levy WB (1985) Granule cell dendritic spine density in the rat hippocampus varies with spine shape and location. Neurosci Lett 54:219-24 [PubMed] Eliot LS, Johnston D (1994) Multiple components of calcium current in acutely dissociated dentate gyrus granule neurons. J Neurophysiol 72:762-77 [Journal] [PubMed] Fisher RE, Gray R, Johnston D (1990) Properties and distribution of single voltage-gated calcium channels in adult hippocampal neurons. J Neurophysiol 64:91-104 [Journal] [PubMed] Foster B, Richardson TL (1997) Current source density analysis of active dendrites in dentate granule cells Soc Neurosci Abstr 27:2007 Fox AP, Nowycky MC, Tsien RW (1987) Single-channel recordings of three types of calcium channels in chick sensory neurones. J Physiol 394:173-200 [PubMed] Fox AP, Nowycky MC, Tsien RW (1987) Kinetic and pharmacological properties distinguishing three types of calcium currents in chick sensory neurones. J Physiol 394:149-72 [PubMed] Fricke RA, Prince DA (1984) Electrophysiology of dentate gyrus granule cells. J Neurophysiol 51:195-209 [Journal] [PubMed] Hines M, Carnevale NT (1995) Computer modeling methods for neurons The Handbook Of Brain Theory And Neural Networks, Arbib MA, ed. pp.226 Hoffman DA, Magee JC, Colbert CM, Johnston D (1997) K+ channel regulation of signal propagation in dendrites of hippocampal pyramidal neurons. Nature 387:869-75 [Journal] [PubMed] Jaffe DB, Ross WN, Lisman JE, Lasser-Ross N, Miyakawa H, Johnston D (1994) A model for dendritic Ca2+ accumulation in hippocampal pyramidal neurons based on fluorescence imaging measurements. J Neurophysiol 71:1065-77 [Journal] [PubMed] Jefferys JG (1979) Initiation and spread of action potentials in granule cells maintained in vitro in slices of guinea-pig hippocampus. J Physiol 289:375-88 [PubMed] Köhr G, Lambert CE, Mody I (1991) Calbindin-D28K (CaBP) levels and calcium currents in acutely dissociated epileptic neurons. Exp Brain Res 85:543-51 [PubMed] Köhr G, Mody I (1991) Endogenous intracellular calcium buffering and the activation/inactivation of HVA calcium currents in rat dentate gyrus granule cells. J Gen Physiol 98:941-67 [PubMed] Lancaster B, Nicoll RA, Perkel DJ (1991) Calcium activates two types of potassium channels in rat hippocampal neurons in culture. J Neurosci 11:23-30 [PubMed] Latorre R, Oberhauser A, Labarca P, Alvarez O (1989) Varieties of calcium-activated potassium channels. Annu Rev Physiol 51:385-99 [Journal] [PubMed] Migliore M, Cook EP, Jaffe DB, Turner DA, Johnston D (1995) Computer simulations of morphologically reconstructed CA3 hippocampal neurons. J Neurophysiol 73:1157-68 [Journal] [PubMed]
Nagerl UV, Mody I (1998) Calcium-dependent inactivation of high-threshold calcium currents in human dentate gyrus granule cells. J Physiol 509 ( Pt 1):39-45 [PubMed] Numann RE, Wadman WJ, Wong RK (1987) Outward currents of single hippocampal cells obtained from the adult guinea-pig. J Physiol 393:331-53 [PubMed] Pan E, Stringer JL (1996) Burst characteristics of dentate gyrus granule cells: evidence for endogenous and nonsynaptic properties. J Neurophysiol 75:124-32 [Journal] [PubMed] Pan E, Stringer JL (1997) Role of potassium and calcium in the generation of cellular bursts in the dentate gyrus. J Neurophysiol 77:2293-9 [Journal] [PubMed] Rall W, Burke RE, Holmes WR, Jack JJ, Redman SJ, Segev I (1992) Matching dendritic neuron models to experimental data. Physiol Rev 72:S159-86 [Journal] [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. J Neurosci 10:3664-84 [PubMed] Robitaille R, Garcia ML, Kaczorowski GJ, Charlton MP (1993) Functional colocalization of calcium and calcium-gated potassium channels in control of transmitter release. Neuron 11:645-55 [PubMed] Rutecki PA, Lebeda FJ, Johnston D (1990) Epileptiform activity in the hippocampus produced by tetraethylammonium. J Neurophysiol 64:1077-88 [Journal] [PubMed] Sah P (1996) Ca(2+)-activated K+ currents in neurones: types, physiological roles and modulation. Trends Neurosci 19:150-4 [PubMed] Segal M, Rogawski MA, Barker JL (1984) A transient potassium conductance regulates the excitability of cultured hippocampal and spinal neurons. J Neurosci 4:604-9 [PubMed] Spruston N, Johnston D (1992) Perforated patch-clamp analysis of the passive membrane properties of three classes of hippocampal neurons. J Neurophysiol 67:508-29 [Journal] [PubMed] Staley KJ, Otis TS, Mody I (1992) Membrane properties of dentate gyrus granule cells: comparison of sharp microelectrode and whole-cell recordings. J Neurophysiol 67:1346-58 [Journal] [PubMed] Storm JF (1990) Potassium currents in hippocampal pyramidal cells. Prog Brain Res 83:161-87 [PubMed] Vreugdenhil M, Wadman WJ (1995) Potassium currents in isolated CA1 neurons of the rat after kindling epileptogenesis. Neuroscience 66:805-13 [PubMed] Warman EN, Durand DM, Yuen GL (1994) Reconstruction of hippocampal CA1 pyramidal cell electrophysiology by computer simulation. J Neurophysiol 71:2033-45 [Journal] [PubMed] Wong RK, Prince DA, Basbaum AI (1979) Intradendritic recordings from hippocampal neurons. Proc Natl Acad Sci U S A 76:986-90 [PubMed] Yuen GL, Durand D (1991) Reconstruction of hippocampal granule cell electrophysiology by computer simulation. Neuroscience 41:411-23 [PubMed] Zhang L, Valiante TA, Carlen PL (1993) Contribution of the low-threshold T-type calcium current in generating the post-spike depolarizing afterpotential in dentate granule neurons of immature rats. J Neurophysiol 70:223-31 [Journal] [PubMed] | Aradi I, Holmes WR (1999) Active dendrites regulate spatio-temporal synaptic integration in hippocampal dentate granule cells Neurocomputing 26:45-51 Aradi I, Soltesz I (2002) Modulation of network behaviour by changes in variance in interneuronal properties. J Physiol 538:227-51 [PubMed] Beining M, Mongiat LA, Schwarzacher SW, Cuntz H, Jedlicka P (2017) T2N as a new tool for robust electrophysiological modeling demonstrated for mature and adult-born dentate granule cells eLife [Journal]
Bezaire MJ, Raikov I, Burk K, Vyas D, Soltesz I (2016) Interneuronal mechanisms of hippocampal theta oscillations in a full-scale model of the rodent CA1 circuit. Elife [Journal] [PubMed]
Chavlis S, Petrantonakis PC, Poirazi P (2017) Dendrites of dentate gyrus granule cells contribute to pattern separation by controlling sparsity. Hippocampus 27:89-110 [Journal] [PubMed]
Chen K, Aradi I, Thon N, Eghbal-Ahmadi M, Baram TZ, Soltesz I (2001) Persistently modified h-channels after complex febrile seizures convert the seizure-induced enhancement of inhibition to hyperexcitability. Nat Med 7:331-7 [Journal] [PubMed]
Cutsuridis V, Poirazi P (2015) A computational study on how theta modulated inhibition can account for the long temporal windows in the entorhinal-hippocampal loop. Neurobiol Learn Mem 120:69-83 [Journal] [PubMed]
Dyhrfjeld-Johnsen J, Santhakumar V, Morgan RJ, Huerta R, Tsimring L, Soltesz I (2007) Topological determinants of epileptogenesis in large-scale structural and functional models of the dentate gyrus derived from experimental data. J Neurophysiol 97:1566-87 [Journal] [PubMed]
Ferrante M, Migliore M, Ascoli GA (2009) Feed-forward inhibition as a buffer of the neuronal input-output relation. Proc Natl Acad Sci U S A 106:18004-9 [Journal] [PubMed]
Hines E Genesis References Jaffe DB, Brenner R (2018) A computational model for how the fast afterhyperpolarization paradoxically increases gain in regularly firing neurons. J Neurophysiol 119:1506-1520 [Journal] [PubMed]
Jaffe DB, Wang B, Brenner R (2011) Shaping of action potentials by type I and type II large-conductance Ca²+-activated K+ channels. Neuroscience 192:205-18 [Journal] [PubMed]
Mateos-Aparicio P, Murphy R, Storm JF (2014) Complementary functions of SK and Kv7/M potassium channels in excitability control and synaptic integration in rat hippocampal dentate granule cells. J Physiol 592:669-93 [Journal] [PubMed]
Morgan RJ, Santhakumar V, Soltesz I (2007) Modeling the dentate gyrus. Prog Brain Res 163:639-58 [Journal] [PubMed]
Roper P, Callaway J, Shevchenko T, Teruyama R, Armstrong W (2003) AHP's, HAP's and DAP's: how potassium currents regulate the excitability of rat supraoptic neurones. J Comput Neurosci 15:367-89 [PubMed] Santhakumar V, Aradi I, Soltesz I (2005) Role of mossy fiber sprouting and mossy cell loss in hyperexcitability: a network model of the dentate gyrus incorporating cell types and axonal topography. J Neurophysiol 93:437-53 [Journal] [PubMed]
Song D, Wang Z, Berger TW (2002) Contribution of T-type VDCC to TEA-induced long-term synaptic modification in hippocampal CA1 and dentate gyrus. Hippocampus 12:689-97 [Journal] [PubMed] Sundt D, Gamper N, Jaffe DB (2015) Spike propagation through the dorsal root ganglia in an unmyelinated sensory neuron: a modeling study. J Neurophysiol 114:3140-53 [Journal] [PubMed]
Swietlik D, Bialowas J, Kusiak A, Cichonska D (2018) A computational simulation of long-term synaptic potentiation inducing protocol processes with model of CA3 hippocampal microcircuit. Folia Morphol (Warsz) 77:210-220 [Journal] [PubMed] Tejada J, Arisi GM, García-Cairasco N, Roque AC (2012) Morphological alterations in newly born dentate gyrus granule cells that emerge after status epilepticus contribute to make them less excitable. PLoS One 7:e40726 [Journal] [PubMed]
Wang Z, Song D, Berger TW (2002) Contribution of NMDA receptor channels to the expression of LTP in the hippocampal dentate gyrus. Hippocampus 12:680-8 [Journal] [PubMed] Zsiros V, Aradi I, Maccaferri G (2007) Propagation of postsynaptic currents and potentials via gap junctions in GABAergic networks of the rat hippocampus. J Physiol 578:527-44 [Journal] [PubMed] |