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Lowe G (2002) Inhibition of backpropagating action potentials in mitral cell secondary dendrites. J Neurophysiol 88:64-85 [PubMed]

References and models cited by this paper

References and models that cite this paper

Baxter DA, Bittner GD (1991) Synaptic plasticity at crayfish neuromuscular junctions: presynaptic inhibition. Synapse 7:244-51 [Journal] [PubMed]

Bazhenov M, Stopfer M, Rabinovich M, Huerta R, Abarbanel HD, Sejnowski TJ, Laurent G (2001) Model of transient oscillatory synchronization in the locust antennal lobe. Neuron 30:553-67 [PubMed]

Bhalla US, Bower JM (1993) Exploring parameter space in detailed single neuron models: simulations of the mitral and granule cells of the olfactory bulb. J Neurophysiol 69:1948-65 [Journal] [PubMed]

   Granule Cells of the Olfactory Bulb (Simoes_De_Souza et al. 2014) [Model]
   Olfactory Mitral Cell (Bhalla, Bower 1993) [Model]

Bischofberger J, Jonas P (1997) Action potential propagation into the presynaptic dendrites of rat mitral cells. J Physiol 504 ( Pt 2):359-65 [PubMed]

Buck L, Axel R (1991) A novel multigene family may encode odorant receptors: a molecular basis for odor recognition. Cell 65:175-87 [PubMed]

Buonviso N, Chaput MA (1990) Response similarity to odors in olfactory bulb output cells presumed to be connected to the same glomerulus: electrophysiological study using simultaneous single-unit recordings. J Neurophysiol 63:447-54 [Journal] [PubMed]

Buonviso N, Chaput MA, Berthommier F (1992) Temporal pattern analyses in pairs of neighboring mitral cells. J Neurophysiol 68:417-24 [Journal] [PubMed]

Buonviso N, Chaput MA, Berthommier F (1996) Similarity of granular-induced inhibitory periods in pairs of neighboring mitral/tufted cells. J Neurophysiol 76:2393-401 [Journal] [PubMed]

Buonviso N, Chaput MA, Scott JW (1991) Mitral cell-to-glomerulus connectivity: an HRP study of the orientation of mitral cell apical dendrites. J Comp Neurol 307:57-64 [Journal] [PubMed]

Buzsáki G, Penttonen M, Nádasdy Z, Bragin A (1996) Pattern and inhibition-dependent invasion of pyramidal cell dendrites by fast spikes in the hippocampus in vivo. Proc Natl Acad Sci U S A 93:9921-5 [PubMed]

Carlson GC, Shipley MT, Keller A (2000) Long-lasting depolarizations in mitral cells of the rat olfactory bulb. J Neurosci 20:2011-21 [PubMed]

Charpak S, Mertz J, Beaurepaire E, Moreaux L, Delaney K (2001) Odor-evoked calcium signals in dendrites of rat mitral cells. Proc Natl Acad Sci U S A 98:1230-4 [Journal] [PubMed]

Chen WR, Midtgaard J, Shepherd GM (1997) Forward and backward propagation of dendritic impulses and their synaptic control in mitral cells. Science 278:463-7 [PubMed]

Chen WR, Shepherd GM (1997) Membrane and synaptic properties of mitral cells in slices of rat olfactory bulb. Brain Res 745:189-96 [PubMed]

Chen WR, Xiong W, Shepherd GM (2000) Analysis of relations between NMDA receptors and GABA release at olfactory bulb reciprocal synapses. Neuron 25:625-33 [PubMed]

Cinelli AR, Salzberg BM (1990) Multiple site optical recording of transmembrane voltage (MSORTV), single-unit recordings, and evoked field potentials from the olfactory bulb of skate (Raja erinacea). J Neurophysiol 64:1767-90 [Journal] [PubMed]

Cinelli AR, Salzberg BM (1992) Dendritic origin of late events in optical recordings from salamander olfactory bulb. J Neurophysiol 68:786-806 [Journal] [PubMed]

Colbert CM, Johnston D (1998) Protein kinase C activation decreases activity-dependent attenuation of dendritic Na+ current in hippocampal CA1 pyramidal neurons. J Neurophysiol 79:491-5 [Journal] [PubMed]

Crespo C, Blasco-Ibáñez JM, Marqués-Marí AI, Martínez-Guijarro FJ (2001) Parvalbumin-containing interneurons do not innervate granule cells in the olfactory bulb. Neuroreport 12:2553-6 [PubMed]

DeFelipe J (1999) Chandelier cells and epilepsy. Brain 122 ( Pt 10):1807-22 [PubMed]

Desmaisons D, Vincent JD, Lledo PM (1999) Control of action potential timing by intrinsic subthreshold oscillations in olfactory bulb output neurons. J Neurosci 19:10727-37 [PubMed]

Didier A, Carleton A, Bjaalie JG, Vincent JD, Ottersen OP, Storm-Mathisen J, Lledo PM (2001) A dendrodendritic reciprocal synapse provides a recurrent excitatory connection in the olfactory bulb. Proc Natl Acad Sci U S A 98:6441-6 [Journal] [PubMed]

Douglas RJ, Martin KA (1990) Control of neural output by inhibition at the axon initial segment. Neural Comput 2:283-292

DUDEL J, KUFFLER SW (1961) Presynaptic inhibition at the crayfish neuromuscular junction. J Physiol 155:543-62 [PubMed]

Ebert B, Thompson SA, Saounatsou K, McKernan R, Krogsgaard-Larsen P, Wafford KA (1997) Differences in agonist/antagonist binding affinity and receptor transduction using recombinant human gamma-aminobutyric acid type A receptors. Mol Pharmacol 52:1150-6 [PubMed]

ECCLES JC, SCHMIDT R, WILLIS WD (1963) PHARMACOLOGICAL STUDIES ON PRESYNAPTIC INHIBITION. J Physiol 168:500-30 [PubMed]

Feigenspan A, Gustincich S, Raviola E (2000) Pharmacology of GABA(A) receptors of retinal dopaminergic neurons. J Neurophysiol 84:1697-707 [Journal] [PubMed]

Freeman WJ (1974) Average transmission distance from mitral-tufted to granule cells in olfactory bulb. Electroencephalogr Clin Neurophysiol 36:609-18 [PubMed]

Freeman WJ, Baird B (1987) Relation of olfactory EEG to behavior: spatial analysis. Behav Neurosci 101:393-408 [PubMed]

Frick A, Zieglgänsberger W, Dodt HU (2001) Glutamate receptors form hot spots on apical dendrites of neocortical pyramidal neurons. J Neurophysiol 86:1412-21 [Journal] [PubMed]

Friedman D, Strowbridge BW (2000) Functional role of NMDA autoreceptors in olfactory mitral cells. J Neurophysiol 84:39-50 [Journal] [PubMed]

Galarreta M, Hestrin S (1997) Properties of GABAA receptors underlying inhibitory synaptic currents in neocortical pyramidal neurons. J Neurosci 17:7220-7 [PubMed]

Goldstein SS, Rall W (1974) Changes of action potential shape and velocity for changing core conductor geometry. Biophys J 14:731-57 [Journal] [PubMed]

Halabisky B, Friedman D, Radojicic M, Strowbridge BW (2000) Calcium influx through NMDA receptors directly evokes GABA release in olfactory bulb granule cells. J Neurosci 20:5124-34 [PubMed]

Heyward P, Ennis M, Keller A, Shipley MT (2001) Membrane bistability in olfactory bulb mitral cells. J Neurosci 21:5311-20 [PubMed]

Hille B (1984) Ionic Channels of Excitable Membranes.

Hille B (1992) Potassium channels and chloride channels Ionic Channels of Excitable Membrane, Hille B, ed. pp.115

Hines ML, Carnevale NT (1997) The NEURON simulation environment. Neural Comput 9:1179-209 [PubMed]

Holt GR, Koch C (1997) Shunting inhibition does not have a divisive effect on firing rates. Neural Comput 9:1001-13 [PubMed]

In_shepherd GM (1991) Computational structure of the olfactory system Olfaction: A Model System For Computational Neuro, Davis JL:Eichenbaum H, ed. pp.3

Isaacson JS (2001) Mechanisms governing dendritic gamma-aminobutyric acid (GABA) release in the rat olfactory bulb. Proc Natl Acad Sci U S A 98:337-42 [Journal] [PubMed]

Isaacson JS, Strowbridge BW (1998) Olfactory reciprocal synapses: dendritic signaling in the CNS. Neuron 20:749-61 [PubMed]

Jackowski A, Parnavelas JG, Lieberman AR (1978) The reciprocal synapse in the external plexiform layer of the mammalian olfactory bulb. Brain Res 159:17-28 [PubMed]

Jahr CE, Nicoll RA (1980) Dendrodendritic inhibition: demonstration with intracellular recording. Science 207:1473-5 [PubMed]

Jones MV, Westbrook GL (1995) Desensitized states prolong GABAA channel responses to brief agonist pulses. Neuron 15:181-91 [PubMed]

Katz LC, Dalva MB (1994) Scanning laser photostimulation: a new approach for analyzing brain circuits. J Neurosci Methods 54:205-18 [PubMed]

Kim HG, Beierlein M, Connors BW (1995) Inhibitory control of excitable dendrites in neocortex. J Neurophysiol 74:1810-4 [Journal] [PubMed]

Kirillova V, Lin JW (1998) A whole-cell clamp study of dendrodendritic synaptic activities in mitral cells of turtle olfactory bulb slices. Neuroscience 87:255-64 [PubMed]

Kishi K, Mori K, Tazawa Y (1982) Three-dimensional analysis of dendritic trees of mitral cells in the rabbit olfactory bulb. Neurosci Lett 28:127-32 [PubMed]

Krishek BJ, Moss SJ, Smart TG (1996) A functional comparison of the antagonists bicuculline and picrotoxin at recombinant GABAA receptors. Neuropharmacology 35:1289-98 [PubMed]

KUFFLER SW (1953) Discharge patterns and functional organization of mammalian retina. J Neurophysiol 16:37-68 [Journal] [PubMed]

Laurent G (1999) A systems perspective on early olfactory coding. Science 286:723-8 [PubMed]

Laurie DJ, Seeburg PH, Wisden W (1992) The distribution of 13 GABAA receptor subunit mRNAs in the rat brain. II. Olfactory bulb and cerebellum. J Neurosci 12:1063-76 [PubMed]

Li Z, Hopfield JJ (1989) Modeling the olfactory bulb and its neural oscillatory processings. Biol Cybern 61:379-92 [PubMed]

Luo M, Katz LC (2001) Response correlation maps of neurons in the mammalian olfactory bulb. Neuron 32:1165-79 [PubMed]

MacDermott AB, Role LW, Siegelbaum SA (1999) Presynaptic ionotropic receptors and the control of transmitter release. Annu Rev Neurosci 22:443-85 [Journal] [PubMed]

Maconochie DJ, Zempel JM, Steinbach JH (1994) How quickly can GABAA receptors open? Neuron 12:61-71 [PubMed]

Malnic B, Hirono J, Sato T, Buck LB (1999) Combinatorial receptor codes for odors. Cell 96:713-23 [PubMed]

Margrie TW, Sakmann B, Urban NN (2001) Action potential propagation in mitral cell lateral dendrites is decremental and controls recurrent and lateral inhibition in the mammalian olfactory bulb. Proc Natl Acad Sci U S A 98:319-24 [Journal] [PubMed]

Meredith M (1986) Patterned response to odor in mammalian olfactory bulb: the influence of intensity. J Neurophysiol 56:572-97 [Journal] [PubMed]

Meredith M (1992) Neural circuit computation: complex patterns in the olfactory bulb. Brain Res Bull 29:111-7 [PubMed]

Mombaerts P, Wang F, Dulac C, Chao SK, Nemes A, Mendelsohn M, Edmondson J, Axel R (1996) Visualizing an olfactory sensory map. Cell 87:675-86 [PubMed]

Mori K (1987) Membrane and synaptic properties of identified neurons in the olfactory bulb. Prog Neurobiol 29:275-320 [PubMed]

Mori K, Kishi K, Ojima H (1983) Distribution of dendrites of mitral, displaced mitral, tufted, and granule cells in the rabbit olfactory bulb. J Comp Neurol 219:339-55 [Journal] [PubMed]

Mori K, Nowycky MC, Shepherd GM (1981) Analysis of synaptic potentials in mitral cells in the isolated turtle olfactory bulb. J Physiol 314:295-309 [PubMed]

Nicoll RA, Alger BE (1979) Presynaptic inhibition: transmitter and ionic mechanisms. Int Rev Neurobiol 21:217-58 [PubMed]

Nowycky MC, Mori K, Shepherd GM (1981) GABAergic mechanisms of dendrodendritic synapses in isolated turtle olfactory bulb. J Neurophysiol 46:639-48 [Journal] [PubMed]

Orona E, Rainer EC, Scott JW (1984) Dendritic and axonal organization of mitral and tufted cells in the rat olfactory bulb. J Comp Neurol 226:346-56 [Journal] [PubMed]

Otis TS, Mody I (1992) Modulation of decay kinetics and frequency of GABAA receptor-mediated spontaneous inhibitory postsynaptic currents in hippocampal neurons. Neuroscience 49:13-32 [PubMed]

Petralia RS, Yokotani N, Wenthold RJ (1994) Light and electron microscope distribution of the NMDA receptor subunit NMDAR1 in the rat nervous system using a selective anti-peptide antibody. J Neurosci 14:667-96 [PubMed]

Pettit DL, Augustine GJ (2000) Distribution of functional glutamate and GABA receptors on hippocampal pyramidal cells and interneurons. J Neurophysiol 84:28-38 [Journal] [PubMed]

Price JL, Powell TP (1970) The mitral and short axon cells of the olfactory bulb. J Cell Sci 7:631-51 [PubMed]

Price JL, Powell TP (1970) The synaptology of the granule cells of the olfactory bulb. J Cell Sci 7:125-55 [PubMed]

Rall W, Shepherd GM (1968) Theoretical reconstruction of field potentials and dendrodendritic synaptic interactions in olfactory bulb. J Neurophysiol 31:884-915 [Journal] [PubMed]

   Theoretical reconstrucion of field potentials and dendrodendritic synaptic...(Rall & Shepherd 1968) [Model]

Rall W, Shepherd GM, Reese TS, Brightman MW (1966) Dendrodendritic synaptic pathway for inhibition in the olfactory bulb. Exp Neurol 14:44-56 [PubMed]

Sabatini BL, Regehr WG (1997) Control of neurotransmitter release by presynaptic waveform at the granule cell to Purkinje cell synapse. J Neurosci 17:3425-35 [PubMed]

Salin PA, Lledo PM, Vincent JD, Charpak S (2001) Dendritic glutamate autoreceptors modulate signal processing in rat mitral cells. J Neurophysiol 85:1275-82 [Journal] [PubMed]

Sassoè-Pognetto M, Ottersen OP (2000) Organization of ionotropic glutamate receptors at dendrodendritic synapses in the rat olfactory bulb. J Neurosci 20:2192-201 [PubMed]

Schoppa NE, Kinzie JM, Sahara Y, Segerson TP, Westbrook GL (1998) Dendrodendritic inhibition in the olfactory bulb is driven by NMDA receptors. J Neurosci 18:6790-802 [PubMed]

Schoppa NE, Westbrook GL (2001) Glomerulus-specific synchronization of mitral cells in the olfactory bulb. Neuron 31:639-51 [PubMed]

Segev I (1990) Computer study of presynaptic inhibition controlling the spread of action potentials into axonal terminals. J Neurophysiol 63:987-98 [Journal] [PubMed]

Shen GY, Chen WR, Midtgaard J, Shepherd GM, Hines ML (1999) Computational analysis of action potential initiation in mitral cell soma and dendrites based on dual patch recordings. J Neurophysiol 82:3006-20 [Journal] [PubMed]

   Action potential initiation in the olfactory mitral cell (Shen et al 1999) [Model]

Shepherd GM (1991) Computational structure of the olfactory system. Olfaction A Model System for Computational Neuroscience., Davis JL:Eichenbaum H, ed. pp.3

Shepherd GM, Brayton RK (1979) Computer simulation of a dendrodendritic synaptic circuit for self- and lateral-inhibition in the olfactory bulb. Brain Res 175:377-82 [PubMed]

   Dendro-dendritic synaptic circuit (Shepherd Brayton 1979) [Model]

Spruston N, Jaffe DB, Williams SH, Johnston D (1993) Voltage- and space-clamp errors associated with the measurement of electrotonically remote synaptic events. J Neurophysiol 70:781-802 [Journal] [PubMed]

Spruston N, Schiller Y, Stuart G, Sakmann B (1995) Activity-dependent action potential invasion and calcium influx into hippocampal CA1 dendrites. Science 268:297-300 [PubMed]

Stopfer M, Bhagavan S, Smith BH, Laurent G (1997) Impaired odour discrimination on desynchronization of odour-encoding neural assemblies. Nature 390:70-4 [Journal] [PubMed]

Stuart G, Schiller J, Sakmann B (1997) Action potential initiation and propagation in rat neocortical pyramidal neurons. J Physiol 505 ( Pt 3):617-32 [PubMed]

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

Toida K, Kosaka K, Heizmann CW, Kosaka T (1994) Synaptic contacts between mitral/tufted cells and GABAergic neurons containing calcium-binding protein parvalbumin in the rat olfactory bulb, with special reference to reciprocal synapses between them. Brain Res 650:347-52 [PubMed]

Toida K, Kosaka K, Heizmann CW, Kosaka T (1996) Electron microscopic serial-sectioning/reconstruction study of parvalbumin-containing neurons in the external plexiform layer of the rat olfactory bulb. Neuroscience 72:449-66 [PubMed]

Tsubokawa H, Offermanns S, Simon M, Kano M (2000) Calcium-dependent persistent facilitation of spike backpropagation in the CA1 pyramidal neurons. J Neurosci 20:4878-84 [PubMed]

Tsubokawa H, Ross WN (1996) IPSPs modulate spike backpropagation and associated [Ca2+]i changes in the dendrites of hippocampal CA1 pyramidal neurons. J Neurophysiol 76:2896-906 [Journal] [PubMed]

Ueno S, Bracamontes J, Zorumski C, Weiss DS, Steinbach JH (1997) Bicuculline and gabazine are allosteric inhibitors of channel opening of the GABAA receptor. J Neurosci 17:625-34 [PubMed]

Wang F, Nemes A, Mendelsohn M, Axel R (1998) Odorant receptors govern the formation of a precise topographic map. Cell 93:47-60 [PubMed]

Wang SS, Augustine GJ (1995) Confocal imaging and local photolysis of caged compounds: dual probes of synaptic function. Neuron 15:755-60 [PubMed]

Wang X, McKenzie JS, Kemm RE (1996) Whole cell calcium currents in acutely isolated olfactory bulb output neurons of the rat. J Neurophysiol 75:1138-51 [Journal] [PubMed]

Wellis DP, Kauer JS (1993) GABAA and glutamate receptor involvement in dendrodendritic synaptic interactions from salamander olfactory bulb. J Physiol 469:315-39 [PubMed]

Wilson DA, Leon M (1987) Evidence of lateral synaptic interactions in olfactory bulb output cell responses to odors. Brain Res 417:175-80 [PubMed]

Woolf TB, Shepherd GM, Greer CA (1991) Serial reconstructions of granule cell spines in the mammalian olfactory bulb. Synapse 7:181-92 [Journal] [PubMed]

Xiong W, Chen WR (2002) Dynamic gating of spike propagation in the mitral cell lateral dendrites. Neuron 34:115-26 [PubMed]

Zhang SJ, Jackson MB (1995) GABAA receptor activation and the excitability of nerve terminals in the rat posterior pituitary. J Physiol 483 ( Pt 3):583-95 [PubMed]

Djurisic M, Antic S, Chen WR, Zecevic D (2004) Voltage imaging from dendrites of mitral cells: EPSP attenuation and spike trigger zones. J Neurosci 24:6703-14 [Journal] [PubMed]

   Voltage imaging calibration in tuft dendrites of mitral cells (Djurisic et al 2004) [Model]

Gilra A, Bhalla US (2015) Bulbar microcircuit model predicts connectivity and roles of interneurons in odor coding. PLoS One 10:e0098045 [Journal] [PubMed]

   Olfactory bulb microcircuits model with dual-layer inhibition (Gilra & Bhalla 2015) [Model]

Häusser M, Mel B (2003) Dendrites: bug or feature? Curr Opin Neurobiol 13:372-83 [PubMed]

Hines ML, Carnevale NT (2003) Personal Communication of NEURON bibliography

McIntyre AB, Cleland TA (2016) Biophysical constraints on lateral inhibition in the olfactory bulb. J Neurophysiol 115:2937-49 [Journal] [PubMed]

McTavish TS, Migliore M, Shepherd GM, Hines ML (2012) Mitral cell spike synchrony modulated by dendrodendritic synapse location. Front Comput Neurosci 6:3 [Journal] [PubMed]

   Synchrony by synapse location (McTavish et al. 2012) [Model]

Mehaffey WH, Doiron B, Maler L, Turner RW (2005) Deterministic multiplicative gain control with active dendrites. J Neurosci 25:9968-77 [Journal] [PubMed]

Migliore M, Cavarretta F, Marasco A, Tulumello E, Hines ML, Shepherd GM (2015) Synaptic clusters function as odor operators in the olfactory bulb. Proc Natl Acad Sci U S A 112:8499-504 [Journal] [PubMed]

   3D olfactory bulb: operators (Migliore et al, 2015) [Model]

Migliore M, Inzirillo C, Shepherd GM (2007) Learning mechanism for column formation in the olfactory bulb. Front Integr Neurosci 1:12 [Journal] [PubMed]

   Olfactory bulb mitral and granule cell column formation (Migliore et al. 2007) [Model]

Migliore M, Shepherd GM (2008) Dendritic action potentials connect distributed dendrodendritic microcircuits. J Comput Neurosci 24:207-21 [Journal] [PubMed]

   Olfactory bulb mitral and granule cell: dendrodendritic microcircuits (Migliore and Shepherd 2008) [Model]

Müllner FE, Wierenga CJ, Bonhoeffer T (2015) Precision of Inhibition: Dendritic Inhibition by Individual GABAergic Synapses on Hippocampal Pyramidal Cells Is Confined in Space and Time. Neuron 87:576-89 [Journal] [PubMed]

   CA1 pyramidal neuron: dendritic Ca2+ inhibition (Muellner et al. 2015) [Model]

Pouille F, McTavish TS, Hunter LE, Restrepo D, Schoppa NE (2017) Intraglomerular gap junctions enhance interglomerular synchrony in a sparsely connected olfactory bulb network. J Physiol 595:5965-5986 [Journal] [PubMed]

Yu Y, McTavish TS, Hines ML, Shepherd GM, Valenti C, Migliore M (2013) Sparse distributed representation of odors in a large-scale olfactory bulb circuit. PLoS Comput Biol 9:e1003014 [Journal] [PubMed]

   Large scale model of the olfactory bulb (Yu et al., 2013) [Model]

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