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Zheng M, Friesen WO, Iwasaki T (2007) Systems-level modeling of neuronal circuits for leech swimming. J Comput Neurosci 22:21-38 [PubMed]

•	Systems-level modeling of neuronal circuits for leech swimming (Zheng et al. 2007)


References and models cited by this paper		References and models that cite this paper
Angstadt JD, Friesen WO (1993) Modulation of swimming behavior in the medicinal leech. I. Effects of serotonin on the electrical properties of swim-gating cell 204. J Comp Physiol A 172:223-34 [PubMed] Brodfuehrer PD, Debski EA, O'Gara BA, Friesen WO (1995) Neuronal control of leech swimming. J Neurobiol 27:403-18 [Journal] [PubMed] Buchanan JT (1992) Neural network simulations of coupled locomotor oscillators in the lamprey spinal cord. Biol Cybern 66:367-74 [PubMed] Cang J, Friesen WO (2002) Model for intersegmental coordination of leech swimming: central and sensory mechanisms. J Neurophysiol 87:2760-9 [Journal] [PubMed] Cang J, Yu X, Friesen WO (2001) Sensory modification of leech swimming: interactions between ventral stretch receptors and swim-related neurons. J Comp Physiol A 187:569-79 [PubMed] Cohen AH, Ermentrout GB, Kiemel T, Kopell N, Sigvardt KA, Williams TL (1992) Modelling of intersegmental coordination in the lamprey central pattern generator for locomotion. Trends Neurosci 15:434-8 [PubMed] Debski EA, Friesen WO (1986) Role of central interneurons in habituation of swimming activity in the medicinal leech. J Neurophysiol 55:977-94 [Journal] [PubMed] Ekeberg O (1993) A combined neuronal and mechanical model of fish swimming. Biol Cybern 69:363-374 Ekeberg O, Grillner S (1999) Simulations of neuromuscular control in lamprey swimming. Philos Trans R Soc Lond B Biol Sci 354:895-902 [Journal] [PubMed] Ekeberg O, Wallén P, Lansner A, Tråvén H, Brodin L, Grillner S (1991) A computer based model for realistic simulations of neural networks. I. The single neuron and synaptic interaction. Biol Cybern 65:81-90 [PubMed] Ermentrout GB, Chow CC (2002) Modeling neural oscillations. Physiol Behav 77:629-33 [PubMed] Friesen W (1985) Neuronal control of leech swimming movements: interactions between cell 60 and previously described oscillator neurons J Comp Physiol 156:231-242 Friesen W (1989) Neuronal control of leech swimming movements Neuronal and Cellular Oscillators, Jacklet JW, ed. pp.269 Friesen W (1989) Neuronal control of leech swimming movements. I. Inhibitoryinteractions between motor neurons. J Comp Physiol 166:195-203 Friesen WO, Hocker CG (2001) Functional analyses of the leech swim oscillator. J Neurophysiol 86:824-35 [Journal] [PubMed] Friesen WO, Pearce RA (1993) Mechanisms of intersegmental coordination in leech locomotion Semin Neurosci 5:41-47 Friesen WO, Poon M, Stent GS (1978) Neuronal control of swimming in the medicinal leech. IV. Identification of a network of oscillatory interneurones. J Exp Biol 75:25-43 [PubMed] Friesen WO, Stent GS (1977) Generation of a locomotory rhythm by a neural network with reccurrent cyclic inhibition. Biol Cybern 28:27-40 [PubMed] Granzow B, Friesen WO, Kristan WB (1985) Physiological and morphological analysis of synaptic transmission between leech motor neurons. J Neurosci 5:2035-50 [PubMed] Hill AA, Masino MA, Calabrese RL (2003) Intersegmental coordination of rhythmic motor patterns. J Neurophysiol 90:531-8 [Journal] [PubMed] Hocker CG, Yu X, Friesen WO (2000) Functionally heterogeneous segmental oscillators generate swimming in the medical leech. J Comp Physiol A 186:871-83 [PubMed] Kiehn O, Harris-warrick RM, Jordan LM, Hultborn H, Kudo N (1998) Neuronal Mechanisms for Generating Locomotor Activity, Kiehn O:Harris-warrick RM:Jordan LM:Hultborn H:Kudo N, ed. Koch C, Segev I (1989) Methods In Neuronal Modeling, Koch C:Segev I, ed. Kristan WB, Stent GS, Ort CA (1974) Neuronal control of swimming in the medicinal leech. I Dynamics of the swimming rhythm J Comp Physiol A 94:97-119 Mangan PS, Curran GA, Hurney CA, Friesen WO (1994) Modulation of swimming behavior in the medicinal leech. III. Control of cellular properties in motor neurons by serotonin. J Comp Physiol A 175:709-22 [PubMed] Marder E, Calabrese RL (1996) Principles of rhythmic motor pattern generation. Physiol Rev 76:687-717 [Journal] [PubMed] Margulis M, Tang CM (1998) Temporal integration can readily switch between sublinear and supralinear summation. J Neurophysiol 79:2809-13 [Journal] [PubMed] Matsuoka K (1985) Sustained oscillations generated by mutually inhibiting neurons with adaptation. Biol Cybern 52:367-76 [PubMed] Nusbaum MP, Friesen WO, Kristan WB, Pearce RA (1987) Neural mechanisms generating the leech swimming rhythm: swim-initiator neurons excite the network of swim oscillator neurons. J Comp Physiol [A] 161:355-66 Orlovsky GN, Deliagina TG, Grillner S (1999) Neuronal Control of Locomotion: From Mollusc to Man Pearce RA, Friesen WO (1984) Intersegmental coordination of leech swimming: comparison of in situ and isolated nerve cord activity with body wall movement. Brain Res 299:363-6 [PubMed] Pearce RA, Friesen WO (1985) Intersegmental coordination of the leech swimming rhythm. I. Roles of cycle period gradient and coupling strength. J Neurophysiol 54:1444-59 [Journal] [PubMed] Pearce RA, Friesen WO (1985) Intersegmental coordination of the leech swimming rhythm. II. Comparison of long and short chains of ganglia. J Neurophysiol 54:1460-72 [Journal] [PubMed] Pearce RA, Friesen WO (1988) A model for intersegmental coordination in the leech nerve cord. Biol Cybern 58:301-11 [PubMed] Poon M, Friesen WO, Stent GS (1978) Neuronal control of swimming in the medicinal leech. V. Connexions between the oscillatory interneurones and the motor neurones. J Exp Biol 75:45-63 [PubMed] Selverston AI (1985) Model Neural Networks and Behavior, Selverston AI, ed. Skinner FK, Mulloney B (1998) Intersegmental coordination in invertebrates and vertebrates. Curr Opin Neurobiol 8:725-32 [PubMed] Skinner FK, Mulloney B (1998) Intersegmental coordination of limb movements during locomotion: mathematical models predict circuits that drive swimmeret beating. J Neurosci 18:3831-42 [PubMed] Taylor A, Cottrell GW, Kristan WB (2000) A model of the leech segmental swim central pattern generator Neurocomputing 32:573-584 Wadden T, Hellgren J, Lansner A, Grillner S (1997) Intersegmental coordination in the lamprey: simulations using a network model without segmental boundaries Biol Cybern 76:1-9 Wallén P, Ekeberg O, Lansner A, Brodin L, Tråvén H, Grillner S (1992) A computer-based model for realistic simulations of neural networks. II. The segmental network generating locomotor rhythmicity in the lamprey. J Neurophysiol 68:1939-50 [Journal] [PubMed] Weeks JC (1982) Synaptic basis of swim initiation in the leech I Connections of a swim-initiating neuron (cell 204) with motor neurons and pattern-generating oscillator neurons J Comp Physiol A 148:253-263 Weeks JC (1982) Synaptic basis of swim initiation in the leech II. A pattern-generating neuron (cell 208) which mediates motor effects of swim-initiating neurons J Comp Physiol A 148:265-279 Wessel R, Kristan WB, Kleinfeld D (1999) Supralinear summation of synaptic inputs by an invertebrate neuron: dendritic gain is mediated by an "inward rectifier" K(+) current. J Neurosci 19:5875-88 [PubMed] Williams TL (1992) Phase coupling by synaptic spread in chains of coupled neuronal oscillators. Science 258:662-5 [PubMed]

References and models cited by this paper

References and models that cite this paper

Angstadt JD, Friesen WO (1993) Modulation of swimming behavior in the medicinal leech. I. Effects of serotonin on the electrical properties of swim-gating cell 204. J Comp Physiol A 172:223-34 [PubMed]

Brodfuehrer PD, Debski EA, O'Gara BA, Friesen WO (1995) Neuronal control of leech swimming. J Neurobiol 27:403-18 [Journal] [PubMed]

Buchanan JT (1992) Neural network simulations of coupled locomotor oscillators in the lamprey spinal cord. Biol Cybern 66:367-74 [PubMed]

Cang J, Friesen WO (2002) Model for intersegmental coordination of leech swimming: central and sensory mechanisms. J Neurophysiol 87:2760-9 [Journal] [PubMed]

Cang J, Yu X, Friesen WO (2001) Sensory modification of leech swimming: interactions between ventral stretch receptors and swim-related neurons. J Comp Physiol A 187:569-79 [PubMed]

Cohen AH, Ermentrout GB, Kiemel T, Kopell N, Sigvardt KA, Williams TL (1992) Modelling of intersegmental coordination in the lamprey central pattern generator for locomotion. Trends Neurosci 15:434-8 [PubMed]

Debski EA, Friesen WO (1986) Role of central interneurons in habituation of swimming activity in the medicinal leech. J Neurophysiol 55:977-94 [Journal] [PubMed]

Ekeberg O (1993) A combined neuronal and mechanical model of fish swimming. Biol Cybern 69:363-374

Ekeberg O, Grillner S (1999) Simulations of neuromuscular control in lamprey swimming. Philos Trans R Soc Lond B Biol Sci 354:895-902 [Journal] [PubMed]

Ekeberg O, Wallén P, Lansner A, Tråvén H, Brodin L, Grillner S (1991) A computer based model for realistic simulations of neural networks. I. The single neuron and synaptic interaction. Biol Cybern 65:81-90 [PubMed]

Ermentrout GB, Chow CC (2002) Modeling neural oscillations. Physiol Behav 77:629-33 [PubMed]

Friesen W (1985) Neuronal control of leech swimming movements: interactions between cell 60 and previously described oscillator neurons J Comp Physiol 156:231-242

Friesen W (1989) Neuronal control of leech swimming movements Neuronal and Cellular Oscillators, Jacklet JW, ed. pp.269

Friesen W (1989) Neuronal control of leech swimming movements. I. Inhibitoryinteractions between motor neurons. J Comp Physiol 166:195-203

Friesen WO, Hocker CG (2001) Functional analyses of the leech swim oscillator. J Neurophysiol 86:824-35 [Journal] [PubMed]

Friesen WO, Pearce RA (1993) Mechanisms of intersegmental coordination in leech locomotion Semin Neurosci 5:41-47

Friesen WO, Poon M, Stent GS (1978) Neuronal control of swimming in the medicinal leech. IV. Identification of a network of oscillatory interneurones. J Exp Biol 75:25-43 [PubMed]

Friesen WO, Stent GS (1977) Generation of a locomotory rhythm by a neural network with reccurrent cyclic inhibition. Biol Cybern 28:27-40 [PubMed]

Granzow B, Friesen WO, Kristan WB (1985) Physiological and morphological analysis of synaptic transmission between leech motor neurons. J Neurosci 5:2035-50 [PubMed]

Hill AA, Masino MA, Calabrese RL (2003) Intersegmental coordination of rhythmic motor patterns. J Neurophysiol 90:531-8 [Journal] [PubMed]

Hocker CG, Yu X, Friesen WO (2000) Functionally heterogeneous segmental oscillators generate swimming in the medical leech. J Comp Physiol A 186:871-83 [PubMed]

Kiehn O, Harris-warrick RM, Jordan LM, Hultborn H, Kudo N (1998) Neuronal Mechanisms for Generating Locomotor Activity, Kiehn O:Harris-warrick RM:Jordan LM:Hultborn H:Kudo N, ed.

Koch C, Segev I (1989) Methods In Neuronal Modeling, Koch C:Segev I, ed.

Kristan WB, Stent GS, Ort CA (1974) Neuronal control of swimming in the medicinal leech. I Dynamics of the swimming rhythm J Comp Physiol A 94:97-119

Mangan PS, Curran GA, Hurney CA, Friesen WO (1994) Modulation of swimming behavior in the medicinal leech. III. Control of cellular properties in motor neurons by serotonin. J Comp Physiol A 175:709-22 [PubMed]

Marder E, Calabrese RL (1996) Principles of rhythmic motor pattern generation. Physiol Rev 76:687-717 [Journal] [PubMed]

Margulis M, Tang CM (1998) Temporal integration can readily switch between sublinear and supralinear summation. J Neurophysiol 79:2809-13 [Journal] [PubMed]

Matsuoka K (1985) Sustained oscillations generated by mutually inhibiting neurons with adaptation. Biol Cybern 52:367-76 [PubMed]

Nusbaum MP, Friesen WO, Kristan WB, Pearce RA (1987) Neural mechanisms generating the leech swimming rhythm: swim-initiator neurons excite the network of swim oscillator neurons. J Comp Physiol [A] 161:355-66

Orlovsky GN, Deliagina TG, Grillner S (1999) Neuronal Control of Locomotion: From Mollusc to Man

Pearce RA, Friesen WO (1984) Intersegmental coordination of leech swimming: comparison of in situ and isolated nerve cord activity with body wall movement. Brain Res 299:363-6 [PubMed]

Pearce RA, Friesen WO (1985) Intersegmental coordination of the leech swimming rhythm. I. Roles of cycle period gradient and coupling strength. J Neurophysiol 54:1444-59 [Journal] [PubMed]

Pearce RA, Friesen WO (1985) Intersegmental coordination of the leech swimming rhythm. II. Comparison of long and short chains of ganglia. J Neurophysiol 54:1460-72 [Journal] [PubMed]

Pearce RA, Friesen WO (1988) A model for intersegmental coordination in the leech nerve cord. Biol Cybern 58:301-11 [PubMed]

Poon M, Friesen WO, Stent GS (1978) Neuronal control of swimming in the medicinal leech. V. Connexions between the oscillatory interneurones and the motor neurones. J Exp Biol 75:45-63 [PubMed]

Selverston AI (1985) Model Neural Networks and Behavior, Selverston AI, ed.

Skinner FK, Mulloney B (1998) Intersegmental coordination in invertebrates and vertebrates. Curr Opin Neurobiol 8:725-32 [PubMed]

Skinner FK, Mulloney B (1998) Intersegmental coordination of limb movements during locomotion: mathematical models predict circuits that drive swimmeret beating. J Neurosci 18:3831-42 [PubMed]

Taylor A, Cottrell GW, Kristan WB (2000) A model of the leech segmental swim central pattern generator Neurocomputing 32:573-584

Wadden T, Hellgren J, Lansner A, Grillner S (1997) Intersegmental coordination in the lamprey: simulations using a network model without segmental boundaries Biol Cybern 76:1-9

Wallén P, Ekeberg O, Lansner A, Brodin L, Tråvén H, Grillner S (1992) A computer-based model for realistic simulations of neural networks. II. The segmental network generating locomotor rhythmicity in the lamprey. J Neurophysiol 68:1939-50 [Journal] [PubMed]

Weeks JC (1982) Synaptic basis of swim initiation in the leech I Connections of a swim-initiating neuron (cell 204) with motor neurons and pattern-generating oscillator neurons J Comp Physiol A 148:253-263

Weeks JC (1982) Synaptic basis of swim initiation in the leech II. A pattern-generating neuron (cell 208) which mediates motor effects of swim-initiating neurons J Comp Physiol A 148:265-279

Wessel R, Kristan WB, Kleinfeld D (1999) Supralinear summation of synaptic inputs by an invertebrate neuron: dendritic gain is mediated by an "inward rectifier" K(+) current. J Neurosci 19:5875-88 [PubMed]

Williams TL (1992) Phase coupling by synaptic spread in chains of coupled neuronal oscillators. Science 258:662-5 [PubMed]

(45 refs)