Citations for Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006)

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Nenadic Z, Ghosh BK, Ulinski P (2003) Propagating waves in visual cortex: a large-scale model of turtle visual cortex. J Comput Neurosci 14:161-84 [PubMed]

References and models cited by this paper

References and models that cite this paper

Ammermüller J, Muller JF, Kolb H (1995) The organization of the turtle inner retina. II. Analysis of color-coded and directionally selective cells. J Comp Neurol 358:35-62 [Journal] [PubMed]
Baker TI, Ulinski PS (2001) Models of direction selective and nondirection selective turtle retinal ganglion cells Soc Neurosci Abstr
Blanton MG, Kriegstein AR (1992) Properties of amino acid neurotransmitter receptors of embryonic cortical neurons when activated by exogenous and endogenous agonists. J Neurophysiol 67:1185-200 [Journal] [PubMed]
Blanton MG, Shen JM, Kriegstein AR (1987) Evidence for the inhibitory neurotransmitter gamma-aminobutyric acid in aspiny and sparsely spiny nonpyramidal neurons of the turtle dorsal cortex. J Comp Neurol 259:277-97 [Journal] [PubMed]
Block J, Colombe JB, Ulinski PS (2002) Physiology of identified stellate cells from turtle visual cortex. Soc Neurosci Abstr
Boiko VP (1980) Responses to visual stimuli in thalamic neurons of the turtle Emys orbicularis. Neurosci Behav Physiol 10:183-8 [PubMed]
Bower JM, Beeman D (1998) The Book Of Genesis: Exploring Realistic Neural Models With The General Neural Simulation System
Bringuier V, Chavane F, Glaeser L, Frégnac Y (1999) Horizontal propagation of visual activity in the synaptic integration field of area 17 neurons. Science 283:695-9 [PubMed]
Chagnac-Amitai Y, Connors BW (1989) Horizontal spread of synchronized activity in neocortex and its control by GABA-mediated inhibition. J Neurophysiol 61:747-58 [Journal] [PubMed]
Chervin RD, Pierce PA, Connors BW (1988) Periodicity and directionality in the propagation of epileptiform discharges across neocortex. J Neurophysiol 60:1695-713 [Journal] [PubMed]
Colombe JB, Ulinski PS (2003) Temporal dispersion windows in cortical neurons. J Comput Neurosci 7:71-87 [Journal]
Connors BW, Kriegstein AR (1986) Cellular physiology of the turtle visual cortex: distinctive properties of pyramidal and stellate neurons. J Neurosci 6:164-77 [PubMed]
Contreras D, Llinas R (2001) Voltage-sensitive dye imaging of neocortical spatiotemporal dynamics to afferent activation frequency. J Neurosci 21:9403-13 [PubMed]
Cosans CE, Ulinski PS (1990) Spatial organization of axons in turtle visual cortex: intralamellar and interlamellar projections. J Comp Neurol 296:548-58 [Journal] [PubMed]
Desan PH (1994) The organization of the cerebral cortex of the pond turtle Pseudemys scripta elegans.
Ermentrout GB, Kleinfeld D (2001) Traveling electrical waves in cortex: insights from phase dynamics and speculation on a computational role. Neuron 29:33-44 [PubMed]
Feldman ML, Peters A (1979) A technique for estimating total spine numbers on Golgi-impregnated dendrites. J Comp Neurol 188:527-42 [Journal] [PubMed]
Fowler M (1994) Analysis of spontaneous inhibitory postsynaptic potentials from pyramidal cells of turtle visual cortex Ph.D. dissertation
Ghazanfar AA, Nicolelis MA (1999) Spatiotemporal properties of layer V neurons of the rat primary somatosensory cortex. Cereb Cortex 9:348-61
Granda AM, Fulbrook JE (1989) Classification of turtle retinal ganglion cells. J Neurophysiol 62:723-37 [Journal] [PubMed]
Grinvald A, Lieke EE, Frostig RD, Hildesheim R (1994) Cortical point-spread function and long-range lateral interactions revealed by real-time optical imaging of macaque monkey primary visual cortex. J Neurosci 14:2545-68 [PubMed]
Heller SB, Ulinski PS (1987) Morphology of geniculocortical axons in turtles of the genera Pseudemys and Chrysemys. Anat Embryol (Berl) 175:505-15 [PubMed]
Jahr CE, Stevens CF (1990) A quantitative description of NMDA receptor-channel kinetic behavior. J Neurosci 10:1830-7 [PubMed]
Jensen RJ, DeVoe RD (1983) Comparisons of directionally selective with other ganglion cells of the turtle retina: intracellular recording and staining. J Comp Neurol 217:271-87 [Journal] [PubMed]
Khatri V, Ulinski PS (2000) Functional significance of inhibitory interactions between inhibitory interneurons in visual cortex Neurocomputing 32:425-432
Kriegstein AR (1987) Synaptic responses of cortical pyramidal neurons to light stimulation in the isolated turtle visual system. J Neurosci 7:2488-92 [PubMed]
Larson-Prior LJ, Ulinski PS, Slater NT (1991) Excitatory amino acid receptor-mediated transmission in geniculocortical and intracortical pathways within visual cortex. J Neurophysiol 66:293-306 [Journal] [PubMed]
Madison DV, Nicoll RA (1984) Control of the repetitive discharge of rat CA 1 pyramidal neurones in vitro. J Physiol 354:319-31 [PubMed]
Mancilla JG, Fowler M, Ulinski PS (2003) Responses of regular spiking and fast spiking cells in turtle visual cortex to light flashes. Vis Neurosci 15:979-93
Mancilla JG, Ulinski PS (1996) Temporal structure of compound postsynaptic potentials in visual cortex Proceedings of the Fourth Computation and Neural Systems Conference, Bower JM, ed. pp.227
Mancilla JG, Ulinski PS (2003) Role of GABA(A)-mediated inhibition in controlling the responses of regular spiking cells in turtle visual cortex. Vis Neurosci 18:9-24
Marchiafava PL (1983) The organization of inputs establishes two functional and morphologically identifiable classes of ganglion cells in the retina of the turtle. Vision Res 23:325-38 [PubMed]
Marchiafava PL, Weiler R (1980) Intracellular analysis and structural correlates of the organization of inputs to ganglion cells in the retina of the turtle. Proc R Soc Lond B Biol Sci 208:103-13 [Journal] [PubMed]
Mazurskaya PZ (2003) Organization of receptive fields in the forebrain of Emys orbicularis. Neurosci Behav Physiol 6:311-8
Millonas MM, Ulinski PS (1997) The dendritic origins of fast prepotentials in pyramidal cells Proceedings of Computational Neuroscience
Mulligan KA, Ulinski PS (1990) Organization of geniculocortical projections in turtles: isoazimuth lamellae in the visual cortex. J Comp Neurol 296:531-47 [Journal] [PubMed]
Nenadic Z, Ghosh BK, Ulinski PS (2000) Spatiotemporal dynamics in a model of turtle visual cortex. Neurocomputing 32:479-486
Nenadic Z, Ghosh BK, Ulinski PS (2002) Modeling and estimation problems in the turtle visual cortex. IEEE Trans Biomed Eng 49:753-62 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Nicolaus JM, Ulinski PS (1991) Medial and lateral differences in populations of GABAergic neurons in layer 3 of turtle visual cortex Soc Neurosci Abstr 16:114
Nicolaus JM, Ulinski PS (1994) Inward rectifying conductances in inhibitory neurons in turtle visual cortex Neural Systems: Analysis and Modelling, Eeckman F, ed. pp.91
Prechtl JC (1994) Visual motion induces synchronous oscillations in turtle visual cortex. Proc Natl Acad Sci U S A 91:12467-71 [PubMed]
Prechtl JC, Bullock TH, Kleinfeld D (2000) Direct evidence for local oscillatory current sources and intracortical phase gradients in turtle visual cortex. Proc Natl Acad Sci U S A 97:877-82 [PubMed]
Prechtl JC, Cohen LB, Pesaran B, Mitra PP, Kleinfeld D (1997) Visual stimuli induce waves of electrical activity in turtle cortex. Proc Natl Acad Sci U S A 94:7621-6 [PubMed]
Rainey WT, Ulinski PS (1986) Morphology of neurons in the dorsal lateral geniculate complex in turtles of the genera Pseudemys and Chrysemys. J Comp Neurol 253:440-65 [Journal] [PubMed]
Robbins KA, Senseman DM (1998) Visualizing differences in movies of cortical activity IEEE Visualization 98:217-224
Seidemann E, Arieli A, Grinvald A, Slovin H (2002) Dynamics of depolarization and hyperpolarization in the frontal cortex and saccade goal. Science 295:862-5 [Journal] [PubMed]
Senseman DM (2003) Correspondence between visually evoked voltage-sensitive dye signals and synaptic activity recorded in cortical pyramidal cells with intracellular microelectrodes. Vis Neurosci 13:963-77
Senseman DM (2003) Spatiotemporal structure of depolarization spread in cortical pyramidal cell populations evoked by diffuse retinal light flashes. Vis Neurosci 16:65-79
Senseman DM, Robbins KA (1999) Modal behavior of cortical neural networks during visual processing. J Neurosci 19:RC3 [PubMed]
Senseman DM, Robbins KA (2002) High-speed VSD imaging of visually evoked cortical waves: decomposition into intra- and intercortical wave motions. J Neurophysiol 87:1499-514 [Journal] [PubMed]
Smith LM, Ebner FF, Colonnier M (1980) The thalamocortical projection in Pseudemys turtles: a quantitative electron microscopic study. J Comp Neurol 190:445-61 [Journal] [PubMed]
Stratford KJ, Mason AJR, Larkman AU, Major G, Jack JJB (1989) The modelling of pyramidal neurones in the visual cortex The Computing Neuron, Durbin R:Miall C:Mitchison G, ed. pp.296
Strogatz SH (1994) Nonlinear Dynamics And Chaos With Applications To Physics, Biology, Chemistry, And Engineering
Traub RD, Wong RK, Miles R, Michelson H (1991) A model of a CA3 hippocampal pyramidal neuron incorporating voltage-clamp data on intrinsic conductances. J Neurophysiol 66:635-50 [Journal] [PubMed]
   CA3 hippocampal pyramidal neuron with voltage-clamp intrinsic conductance data (Traub et al 1991) [Model]
Ulinski P (1990) The cerebral cortex of reptiles. Cerebral Cortex, Jones FG:Peters A, ed. pp.139
Ulinski PS (1986) Organization of corticogeniculate projections in the turtle, Pseudemys scripta. J Comp Neurol 254:529-42 [Journal] [PubMed]
Ulinski PS (1999) Neural mechanisms underlying the analysis of moving visual stimuli Models of Cortical Circuitry, Ulinski PS:Jones EG:Peters A, ed. pp.283
Ulinski PS, Larson-prior LU, Slater NT (1991) Cortical circuitry underlying visual motion analysis in turtles Visual Structures and Integrated Functions :307-324
Ulinski PS, Nautiyal J (1988) Organization of retinogeniculate projections in turtles of the genera Pseudemys and Chrysemys. J Comp Neurol 276:92-112 [Journal] [PubMed]
Du X, Ghosh BK, Ulinski P (2005) Encoding and decoding target locations with waves in the turtle visual cortex. IEEE Trans Biomed Eng 52:566-77 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Du X, Ghosh BK, Ulinski P (2006) Encoding of motion targets by waves in turtle visual cortex. IEEE Trans Biomed Eng 53:1688-95 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Nenadic Z, Ghosh BK, Ulinski PS (2002) Modeling and estimation problems in the turtle visual cortex. IEEE Trans Biomed Eng 49:753-62 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Robbins KA, Senseman DM (2004) Extracting wave structure from biological data with application to responses in turtle visual cortex. J Comput Neurosci 16:267-98 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Rulkov NF, Timofeev I, Bazhenov M (2004) Oscillations in large-scale cortical networks: map-based model. J Comput Neurosci 17:203-23 [Journal] [PubMed]
   Large cortex model with map-based neurons (Rulkov et al 2004) [Model]
Wang W, Campaigne C, Ghosh BK, Ulinski PS (2005) Two cortical circuits control propagating waves in visual cortex. J Comput Neurosci 19:263-89 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Wang W, Luo S, Ghosh BK, Ulinski PS (2006) Generation of the receptive fields of subpial cells in turtle visual cortex. J Integr Neurosci 5:561-93 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
(67 refs)

Nenadic Z, Ghosh BK, Ulinski PS (2002) Modeling and estimation problems in the turtle visual cortex. IEEE Trans Biomed Eng 49:753-62 [PubMed]

References and models cited by this paper

References and models that cite this paper

Bower JM, Beeman D (1998) The Book Of Genesis: Exploring Realistic Neural Models With The General Neural Simulation System
Colombe JB, Ulinski PS (2003) Temporal dispersion windows in cortical neurons. J Comput Neurosci 7:71-87 [Journal]
Cosans CE, Ulinski PS (1990) Spatial organization of axons in turtle visual cortex: intralamellar and interlamellar projections. J Comp Neurol 296:548-58 [Journal] [PubMed]
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Ermentrout GB, Kleinfeld D (2001) Traveling electrical waves in cortex: insights from phase dynamics and speculation on a computational role. Neuron 29:33-44 [PubMed]
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Kriegstein AR, Connors BW (1986) Cellular physiology of the turtle visual cortex: synaptic properties and intrinsic circuitry. J Neurosci 6:178-91 [PubMed]
Larson-Prior LJ, Ulinski PS, Slater NT (1991) Excitatory amino acid receptor-mediated transmission in geniculocortical and intracortical pathways within visual cortex. J Neurophysiol 66:293-306 [Journal] [PubMed]
Mancilla JG, Fowler M, Ulinski PS (2003) Responses of regular spiking and fast spiking cells in turtle visual cortex to light flashes. Vis Neurosci 15:979-93
Mancilla JG, Ulinski PS (2003) Role of GABA(A)-mediated inhibition in controlling the responses of regular spiking cells in turtle visual cortex. Vis Neurosci 18:9-24
Mazurskaya PZ (2003) Organization of receptive fields in the forebrain of Emys orbicularis. Neurosci Behav Physiol 6:311-8
Mulligan KA, Ulinski PS (1990) Organization of geniculocortical projections in turtles: isoazimuth lamellae in the visual cortex. J Comp Neurol 296:531-47 [Journal] [PubMed]
Nenadic Z (2001) Signal processing, computation and estimation in biologicalneural networks PhD Dissertation Washington University
Nenadic Z, Ghosh BK, Ulinski P (2003) Propagating waves in visual cortex: a large-scale model of turtle visual cortex. J Comput Neurosci 14:161-84 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Prechtl JC, Cohen LB, Pesaran B, Mitra PP, Kleinfeld D (1997) Visual stimuli induce waves of electrical activity in turtle cortex. Proc Natl Acad Sci U S A 94:7621-6 [PubMed]
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Senseman DM (2003) Correspondence between visually evoked voltage-sensitive dye signals and synaptic activity recorded in cortical pyramidal cells with intracellular microelectrodes. Vis Neurosci 13:963-77
Senseman DM (2003) Spatiotemporal structure of depolarization spread in cortical pyramidal cell populations evoked by diffuse retinal light flashes. Vis Neurosci 16:65-79
Senseman DM, Robbins KA (1999) Modal behavior of cortical neural networks during visual processing. J Neurosci 19:RC3 [PubMed]
Senseman DM, Robbins KA (2002) High-speed VSD imaging of visually evoked cortical waves: decomposition into intra- and intercortical wave motions. J Neurophysiol 87:1499-514 [Journal] [PubMed]
Smith LM, Ebner FF, Colonnier M (1980) The thalamocortical projection in Pseudemys turtles: a quantitative electron microscopic study. J Comp Neurol 190:445-61 [Journal] [PubMed]
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Du X, Ghosh BK, Ulinski P (2005) Encoding and decoding target locations with waves in the turtle visual cortex. IEEE Trans Biomed Eng 52:566-77 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Du X, Ghosh BK, Ulinski P (2006) Encoding of motion targets by waves in turtle visual cortex. IEEE Trans Biomed Eng 53:1688-95 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Nenadic Z, Ghosh BK, Ulinski P (2003) Propagating waves in visual cortex: a large-scale model of turtle visual cortex. J Comput Neurosci 14:161-84 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Robbins KA, Senseman DM (2004) Extracting wave structure from biological data with application to responses in turtle visual cortex. J Comput Neurosci 16:267-98 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Rulkov NF, Timofeev I, Bazhenov M (2004) Oscillations in large-scale cortical networks: map-based model. J Comput Neurosci 17:203-23 [Journal] [PubMed]
   Large cortex model with map-based neurons (Rulkov et al 2004) [Model]
Wang W, Campaigne C, Ghosh BK, Ulinski PS (2005) Two cortical circuits control propagating waves in visual cortex. J Comput Neurosci 19:263-89 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Wang W, Luo S, Ghosh BK, Ulinski PS (2006) Generation of the receptive fields of subpial cells in turtle visual cortex. J Integr Neurosci 5:561-93 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
(32 refs)

Robbins KA, Senseman DM (2004) Extracting wave structure from biological data with application to responses in turtle visual cortex. J Comput Neurosci 16:267-98 [PubMed]

References and models cited by this paper

References and models that cite this paper

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Buzsáki G (2002) Theta oscillations in the hippocampus. Neuron 33:325-40 [PubMed]
Colombe JB, Ulinski PS (2003) Temporal dispersion windows in cortical neurons. J Comput Neurosci 7:71-87 [Journal]
Connors BW, Kriegstein AR (1986) Cellular physiology of the turtle visual cortex: distinctive properties of pyramidal and stellate neurons. J Neurosci 6:164-77 [PubMed]
Contreras D, Llinas R (2001) Voltage-sensitive dye imaging of neocortical spatiotemporal dynamics to afferent activation frequency. J Neurosci 21:9403-13 [PubMed]
Cosans CE, Ulinski PS (1990) Spatial organization of axons in turtle visual cortex: intralamellar and interlamellar projections. J Comp Neurol 296:548-58 [Journal] [PubMed]
Du X, Ghosh BK, Ulinski P (2005) Encoding and decoding target locations with waves in the turtle visual cortex. IEEE Trans Biomed Eng 52:566-77 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Ermentrout B (1998) The analysis of synaptically generated traveling waves. J Comput Neurosci 5:191-208 [PubMed]
Ermentrout GB, Kleinfeld D (2001) Traveling electrical waves in cortex: insights from phase dynamics and speculation on a computational role. Neuron 29:33-44 [PubMed]
Ghazanfar AA, Nicolelis MA (1999) Spatiotemporal properties of layer V neurons of the rat primary somatosensory cortex. Cereb Cortex 9:348-61
Grinvald A, Lieke EE, Frostig RD, Hildesheim R (1994) Cortical point-spread function and long-range lateral interactions revealed by real-time optical imaging of macaque monkey primary visual cortex. J Neurosci 14:2545-68 [PubMed]
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Nenadic Z, Ghosh BK, Ulinski P (2003) Propagating waves in visual cortex: a large-scale model of turtle visual cortex. J Comput Neurosci 14:161-84 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Nenadic Z, Ghosh BK, Ulinski PS (2000) Spatiotemporal dynamics in a model of turtle visual cortex. Neurocomputing 32:479-486
Nenadic Z, Ghosh BK, Ulinski PS (2002) Modeling and estimation problems in the turtle visual cortex. IEEE Trans Biomed Eng 49:753-62 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
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Prechtl JC (1994) Visual motion induces synchronous oscillations in turtle visual cortex. Proc Natl Acad Sci U S A 91:12467-71 [PubMed]
Prechtl JC, Bullock TH, Kleinfeld D (2000) Direct evidence for local oscillatory current sources and intracortical phase gradients in turtle visual cortex. Proc Natl Acad Sci U S A 97:877-82 [PubMed]
Prechtl JC, Cohen LB, Pesaran B, Mitra PP, Kleinfeld D (1997) Visual stimuli induce waves of electrical activity in turtle cortex. Proc Natl Acad Sci U S A 94:7621-6 [PubMed]
Robbins KA, Senseman DM (1998) Visualizing differences in movies of cortical activity IEEE Visualization 98:217-224
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Seidemann E, Arieli A, Grinvald A, Slovin H (2002) Dynamics of depolarization and hyperpolarization in the frontal cortex and saccade goal. Science 295:862-5 [Journal] [PubMed]
Senseman DM (2003) Correspondence between visually evoked voltage-sensitive dye signals and synaptic activity recorded in cortical pyramidal cells with intracellular microelectrodes. Vis Neurosci 13:963-77
Senseman DM (2003) Spatiotemporal structure of depolarization spread in cortical pyramidal cell populations evoked by diffuse retinal light flashes. Vis Neurosci 16:65-79
Senseman DM, Robbins KA (1999) Modal behavior of cortical neural networks during visual processing. J Neurosci 19:RC3 [PubMed]
Senseman DM, Robbins KA (2002) High-speed VSD imaging of visually evoked cortical waves: decomposition into intra- and intercortical wave motions. J Neurophysiol 87:1499-514 [Journal] [PubMed]
Sirovich L, Everson R (1992) Management and analysis of large scientific data sets Intl J Of Supercomp Appl 6:50-68
Ulinski PS (1999) Neural mechanisms underlying the analysis of moving visual stimuli Models of Cortical Circuitry, Ulinski PS:Jones EG:Peters A, ed. pp.283
Ulinski PS, Nautiyal J (1988) Organization of retinogeniculate projections in turtles of the genera Pseudemys and Chrysemys. J Comp Neurol 276:92-112 [Journal] [PubMed]
Whitham GB (1974) Linear and Nonlinear Waves
Wang W, Campaigne C, Ghosh BK, Ulinski PS (2005) Two cortical circuits control propagating waves in visual cortex. J Comput Neurosci 19:263-89 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Wang W, Luo S, Ghosh BK, Ulinski PS (2006) Generation of the receptive fields of subpial cells in turtle visual cortex. J Integr Neurosci 5:561-93 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
(37 refs)

Wang W, Campaigne C, Ghosh BK, Ulinski PS (2005) Two cortical circuits control propagating waves in visual cortex. J Comput Neurosci 19:263-89 [PubMed]

References and models cited by this paper

References and models that cite this paper

Blanton MG, Kriegstein AR (1992) Properties of amino acid neurotransmitter receptors of embryonic cortical neurons when activated by exogenous and endogenous agonists. J Neurophysiol 67:1185-200 [Journal] [PubMed]
Blanton MG, Shen JM, Kriegstein AR (1987) Evidence for the inhibitory neurotransmitter gamma-aminobutyric acid in aspiny and sparsely spiny nonpyramidal neurons of the turtle dorsal cortex. J Comp Neurol 259:277-97 [Journal] [PubMed]
Bower JM, Beeman D (1998) The Book Of Genesis: Exploring Realistic Neural Models With The General Neural Simulation System
Bringuier V, Chavane F, Glaeser L, Frégnac Y (1999) Horizontal propagation of visual activity in the synaptic integration field of area 17 neurons. Science 283:695-9 [PubMed]
Chagnac-Amitai Y, Connors BW (1989) Horizontal spread of synchronized activity in neocortex and its control by GABA-mediated inhibition. J Neurophysiol 61:747-58 [Journal] [PubMed]
Chervin RD, Pierce PA, Connors BW (1988) Periodicity and directionality in the propagation of epileptiform discharges across neocortex. J Neurophysiol 60:1695-713 [Journal] [PubMed]
Colombe JB, Sylvester J, Block J, Ulinski PS (2004) Subpial and stellate cells: two populations of interneurons in turtle visual cortex. J Comp Neurol 471:333-51 [Journal] [PubMed]
Colombe JB, Ulinski PS (2004) Temporal dispersion windows in cortical neurons. J Comput Neurosci 7:71-87 [Journal]
Contreras D, Llinas R (2001) Voltage-sensitive dye imaging of neocortical spatiotemporal dynamics to afferent activation frequency. J Neurosci 21:9403-13 [PubMed]
Derdikman D, Hildesheim R, Ahissar E, Arieli A, Grinvald A (2003) Imaging spatiotemporal dynamics of surround inhibition in the barrels somatosensory cortex. J Neurosci 23:3100-5 [PubMed]
Du X, Ghosh BK, Ulinski P (2005) Encoding and decoding target locations with waves in the turtle visual cortex. IEEE Trans Biomed Eng 52:566-77 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Ermentrout B (1998) The analysis of synaptically generated traveling waves. J Comput Neurosci 5:191-208 [PubMed]
Ghazanfar AA, Nicolelis MA (1999) Spatiotemporal properties of layer V neurons of the rat primary somatosensory cortex. Cereb Cortex 9:348-61
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Grinvald A, Lieke EE, Frostig RD, Hildesheim R (1994) Cortical point-spread function and long-range lateral interactions revealed by real-time optical imaging of macaque monkey primary visual cortex. J Neurosci 14:2545-68 [PubMed]
Heller SB, Ulinski PS (1987) Morphology of geniculocortical axons in turtles of the genera Pseudemys and Chrysemys. Anat Embryol (Berl) 175:505-15 [PubMed]
Kleinfeld D, Delaney KR (1996) Distributed representation of vibrissa movement in the upper layers of somatosensory cortex revealed with voltage-sensitive dyes. J Comp Neurol 375:89-108 [Journal] [PubMed]
Larson-Prior LJ, Ulinski PS, Slater NT (1991) Excitatory amino acid receptor-mediated transmission in geniculocortical and intracortical pathways within visual cortex. J Neurophysiol 66:293-306 [Journal] [PubMed]
Mancilla JG, Fowler M, Ulinski PS (2003) Responses of regular spiking and fast spiking cells in turtle visual cortex to light flashes. Vis Neurosci 15:979-93
Mancilla JG, Ulinski PS (2003) Role of GABA(A)-mediated inhibition in controlling the responses of regular spiking cells in turtle visual cortex. Vis Neurosci 18:9-24
Mulligan KA, Ulinski PS (1990) Organization of geniculocortical projections in turtles: isoazimuth lamellae in the visual cortex. J Comp Neurol 296:531-47 [Journal] [PubMed]
Nenadic Z, Ghosh BK, Ulinski P (2003) Propagating waves in visual cortex: a large-scale model of turtle visual cortex. J Comput Neurosci 14:161-84 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Nenadic Z, Ghosh BK, Ulinski PS (2002) Modeling and estimation problems in the turtle visual cortex. IEEE Trans Biomed Eng 49:753-62 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
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   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
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Wang W (2006) Dynamics of the turtle visual cortex and design of sensor networks D.Sc. Thesis
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Du X, Ghosh BK, Ulinski P (2006) Encoding of motion targets by waves in turtle visual cortex. IEEE Trans Biomed Eng 53:1688-95 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Wang W, Luo S, Ghosh BK, Ulinski PS (2006) Generation of the receptive fields of subpial cells in turtle visual cortex. J Integr Neurosci 5:561-93 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
(39 refs)

Wang W (2006) Dynamics of the turtle visual cortex and design of sensor networks D.Sc. Thesis

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Wang W, Campaigne C, Ghosh BK, Ulinski PS (2005) Two cortical circuits control propagating waves in visual cortex. J Comput Neurosci 19:263-89 [Journal] [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
(1 refs)

Wang W, Luo S, Ghosh BK, Ulinski PS (2006) Generation of the receptive fields of subpial cells in turtle visual cortex. J Integr Neurosci 5:561-93 [PubMed]

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Du X, Ghosh BK, Ulinski P (2006) Encoding of motion targets by waves in turtle visual cortex. IEEE Trans Biomed Eng 53:1688-95 [PubMed]

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Du X, Ghosh BK, Ulinski P (2005) Encoding and decoding target locations with waves in the turtle visual cortex. IEEE Trans Biomed Eng 52:566-77 [PubMed]

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   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
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   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
Wang W, Luo S, Ghosh BK, Ulinski PS (2006) Generation of the receptive fields of subpial cells in turtle visual cortex. J Integr Neurosci 5:561-93 [PubMed]
   Turtle visual cortex model (Nenadic et al. 2003, Wang et al. 2005, Wang et al. 2006) [Model]
(34 refs)