Published in Annu Rev Neurosci on January 01, 2008
Microglia sculpt postnatal neural circuits in an activity and complement-dependent manner. Neuron (2012) 5.84
Design principles of insect and vertebrate visual systems. Neuron (2010) 2.94
The emergence of functional microcircuits in visual cortex. Nature (2013) 2.65
The restless brain. Brain Connect (2011) 2.44
MHC class I: an unexpected role in neuronal plasticity. Neuron (2009) 2.20
Photochemical restoration of visual responses in blind mice. Neuron (2012) 2.16
Classical MHCI molecules regulate retinogeniculate refinement and limit ocular dominance plasticity. Neuron (2009) 2.11
Developmental sensory experience balances cortical excitation and inhibition. Nature (2010) 2.06
Spatial-temporal patterns of retinal waves underlying activity-dependent refinement of retinofugal projections. Neuron (2009) 1.96
Sparsification of neuronal activity in the visual cortex at eye-opening. Proc Natl Acad Sci U S A (2009) 1.94
Synapse elimination and learning rules co-regulated by MHC class I H2-Db. Nature (2014) 1.78
Laminar and columnar development of barrel cortex relies on thalamocortical neurotransmission. Neuron (2013) 1.74
Retinal input instructs alignment of visual topographic maps. Cell (2009) 1.66
The cell biology of vision. J Cell Biol (2010) 1.63
Retinal waves are likely to instruct the formation of eye-specific retinogeniculate projections. Neural Dev (2009) 1.59
The "quad-partite" synapse: microglia-synapse interactions in the developing and mature CNS. Glia (2012) 1.59
Lateral interactions in the outer retina. Prog Retin Eye Res (2012) 1.58
A role for correlated spontaneous activity in the assembly of neural circuits. Neuron (2013) 1.57
A conserved switch in sensory processing prepares developing neocortex for vision. Neuron (2010) 1.55
Developmental regulation of spontaneous activity in the Mammalian cochlea. J Neurosci (2010) 1.54
Functional assembly of accessory optic system circuitry critical for compensatory eye movements. Neuron (2015) 1.52
Target-independent ephrina/EphA-mediated axon-axon repulsion as a novel element in retinocollicular mapping. Neuron (2014) 1.51
Clock genes control cortical critical period timing. Neuron (2015) 1.50
Neuroligin-1-dependent competition regulates cortical synaptogenesis and synapse number. Nat Neurosci (2012) 1.46
Retinal waves are unlikely to instruct the formation of eye-specific retinogeniculate projections. Neural Dev (2009) 1.39
Rapid Changes in Cortical and Subcortical Brain Regions after Early Bilateral Enucleation in the Mouse. PLoS One (2015) 1.39
An instructive role for patterned spontaneous retinal activity in mouse visual map development. Neuron (2011) 1.38
Retinal waves in mice lacking the beta2 subunit of the nicotinic acetylcholine receptor. Proc Natl Acad Sci U S A (2008) 1.36
Position-dependent patterning of spontaneous action potentials in immature cochlear inner hair cells. Nat Neurosci (2011) 1.33
Wiring the brain: the biology of neuronal guidance. Cold Spring Harb Perspect Biol (2010) 1.33
Long-term modification of cortical synapses improves sensory perception. Nat Neurosci (2012) 1.31
Synaptic and extrasynaptic factors governing glutamatergic retinal waves. Neuron (2009) 1.31
Development of single retinofugal axon arbors in normal and β2 knock-out mice. J Neurosci (2011) 1.30
Orientation-selective responses in the mouse lateral geniculate nucleus. J Neurosci (2013) 1.30
Visual map development depends on the temporal pattern of binocular activity in mice. Nat Neurosci (2011) 1.29
Molecular and cellular mechanisms of lamina-specific axon targeting. Cold Spring Harb Perspect Biol (2010) 1.26
Midline signalling systems direct the formation of a neural map by dendritic targeting in the Drosophila motor system. PLoS Biol (2009) 1.25
Epibatidine application in vitro blocks retinal waves without silencing all retinal ganglion cell action potentials in developing retina of the mouse and ferret. J Neurophysiol (2008) 1.23
Switching retinogeniculate axon laterality leads to normal targeting but abnormal eye-specific segregation that is activity dependent. J Neurosci (2009) 1.21
Organization and development of direction-selective circuits in the retina. Trends Neurosci (2011) 1.21
Role of emergent neural activity in visual map development. Curr Opin Neurobiol (2013) 1.16
Wiring and rewiring of the retinogeniculate synapse. Curr Opin Neurobiol (2011) 1.15
Synaptic development of the mouse dorsal lateral geniculate nucleus. J Comp Neurol (2010) 1.14
Cell biology in neuroscience: Architects in neural circuit design: glia control neuron numbers and connectivity. J Cell Biol (2013) 1.14
The role of neuronal connexins 36 and 45 in shaping spontaneous firing patterns in the developing retina. J Neurosci (2011) 1.11
Development of the retina and optic pathway. Vision Res (2010) 1.11
Direction-specific disruption of subcortical visual behavior and receptive fields in mice lacking the beta2 subunit of nicotinic acetylcholine receptor. J Neurosci (2009) 1.11
Light acts through melanopsin to alter retinal waves and segregation of retinogeniculate afferents. Nat Neurosci (2011) 1.10
Cellular mechanisms underlying spatiotemporal features of cholinergic retinal waves. J Neurosci (2012) 1.08
Assembly and disassembly of a retinal cholinergic network. Vis Neurosci (2011) 1.08
Cortical Feedback Regulates Feedforward Retinogeniculate Refinement. Neuron (2016) 1.08
Adaptation of the central retina for high acuity vision: cones, the fovea and the avascular zone. Prog Retin Eye Res (2013) 1.07
Plasticity and stability of the visual system in human achiasma. Neuron (2012) 1.05
Receptive field mosaics of retinal ganglion cells are established without visual experience. J Neurophysiol (2010) 1.05
"Slow activity transients" in infant rat visual cortex: a spreading synchronous oscillation patterned by retinal waves. J Neurosci (2010) 1.05
Experience-dependent and independent binocular correspondence of receptive field subregions in mouse visual cortex. Cereb Cortex (2013) 1.04
Visual deprivation suppresses L5 pyramidal neuron excitability by preventing the induction of intrinsic plasticity. Neuron (2010) 1.04
Spontaneous activity promotes synapse formation in a cell-type-dependent manner in the developing retina. J Neurosci (2012) 1.03
Transsynaptic tracing with vesicular stomatitis virus reveals novel retinal circuitry. J Neurosci (2013) 1.02
Diverse strategies engaged in establishing stereotypic wiring patterns among neurons sharing a common input at the visual system's first synapse. J Neurosci (2012) 1.02
A theory of the transition to critical period plasticity: inhibition selectively suppresses spontaneous activity. Neuron (2013) 1.00
Pathway-specific genetic attenuation of glutamate release alters select features of competition-based visual circuit refinement. Neuron (2011) 1.00
The Down syndrome critical region regulates retinogeniculate refinement. J Neurosci (2011) 1.00
Identifying roles for neurotransmission in circuit assembly: insights gained from multiple model systems and experimental approaches. Bioessays (2011) 0.99
Genetic evidence that brain-derived neurotrophic factor mediates competitive interactions between individual cortical neurons. Proc Natl Acad Sci U S A (2012) 0.97
Bilateral visual field maps in a patient with only one hemisphere. Proc Natl Acad Sci U S A (2009) 0.97
Phagocytic glial cells: sculpting synaptic circuits in the developing nervous system. Curr Opin Neurobiol (2013) 0.97
In vivo activation of channelrhodopsin-2 reveals that normal patterns of spontaneous activity are required for motoneuron guidance and maintenance of guidance molecules. J Neurosci (2010) 0.96
Sublinear binocular integration preserves orientation selectivity in mouse visual cortex. Nat Commun (2013) 0.96
Zic2 regulates the expression of Sert to modulate eye-specific refinement at the visual targets. EMBO J (2010) 0.95
Stable learning of functional maps in self-organizing spiking neural networks with continuous synaptic plasticity. Front Comput Neurosci (2013) 0.94
Onset of Pup Locomotion Coincides with Loss of NR2C/D-Mediated Cortico-Striatal EPSCs and Dampening of Striatal Network Immature Activity. Front Cell Neurosci (2011) 0.94
Synaptic clustering during development and learning: the why, when, and how. Front Mol Neurosci (2012) 0.94
The cell-autonomous role of excitatory synaptic transmission in the regulation of neuronal structure and function. Neuron (2013) 0.94
Neuroinflammation: Ways in Which the Immune System Affects the Brain. Neurotherapeutics (2015) 0.93
Extrasynaptic glutamate and inhibitory neurotransmission modulate ganglion cell participation during glutamatergic retinal waves. J Neurophysiol (2013) 0.93
Pro-neurotrophins secreted from retinal ganglion cell axons are necessary for ephrinA-p75NTR-mediated axon guidance. Neural Dev (2010) 0.93
Neuronal remodeling in retinal circuit assembly, disassembly, and reassembly. Trends Neurosci (2014) 0.92
Visual circuit development requires patterned activity mediated by retinal acetylcholine receptors. Neuron (2014) 0.92
Direction-selective ganglion cells show symmetric participation in retinal waves during development. J Neurosci (2010) 0.92
Spontaneous Network Activity and Synaptic Development. Neuroscientist (2013) 0.91
Homeostatic plasticity in the visual thalamus by monocular deprivation. J Neurosci (2011) 0.91
Fibroblast growth factor 22 contributes to the development of retinal nerve terminals in the dorsal lateral geniculate nucleus. Front Mol Neurosci (2012) 0.91
Reelin is required for class-specific retinogeniculate targeting. J Neurosci (2011) 0.91
Copper is an endogenous modulator of neural circuit spontaneous activity. Proc Natl Acad Sci U S A (2014) 0.91
Retinal input regulates the timing of corticogeniculate innervation. J Neurosci (2013) 0.91
Vision drives correlated activity without patterned spontaneous activity in developing Xenopus retina. Dev Neurobiol (2012) 0.91
Early depolarizing GABA controls critical-period plasticity in the rat visual cortex. Nat Neurosci (2014) 0.90
Role of adenylate cyclase 1 in retinofugal map development. J Comp Neurol (2012) 0.90
Emergence of lamina-specific retinal ganglion cell connectivity by axon arbor retraction and synapse elimination. J Neurosci (2010) 0.90
Initial neighborhood biases and the quality of motion stimulation jointly influence the rapid emergence of direction preference in visual cortex. J Neurosci (2012) 0.90
Layer-specific refinement of visual cortex function after eye opening in the awake mouse. J Neurosci (2015) 0.89
Strabismus disrupts binocular synaptic integration in primary visual cortex. J Neurosci (2013) 0.89
EphrinA6 on chick retinal axons is a key component for p75(NTR)-dependent axon repulsion and TrkB-dependent axon branching. Mol Cell Neurosci (2011) 0.89
Cell-poor septa separate representations of digits in the ventroposterior nucleus of the thalamus in monkeys and prosimian galagos. J Comp Neurol (2011) 0.89
The role of neuronal activity and transmitter release on synapse formation. Curr Opin Neurobiol (2014) 0.88
Burst-time-dependent plasticity robustly guides ON/OFF segregation in the lateral geniculate nucleus. PLoS Comput Biol (2009) 0.88
Auditory stimuli mimicking ambient sounds drive temporal "delta-brushes" in premature infants. PLoS One (2013) 0.87
Does the brain connect before the periphery can direct? A comparison of three sensory systems in mice. Brain Res (2009) 0.87
Origins of strabismus and loss of binocular vision. Front Integr Neurosci (2014) 0.87
Receptive fields, binocular interaction and functional architecture in the cat's visual cortex. J Physiol (1962) 33.15
Synaptic activity and the construction of cortical circuits. Science (1996) 11.13
The classical complement cascade mediates CNS synapse elimination. Cell (2007) 9.06
SINGLE-CELL RESPONSES IN STRIATE CORTEX OF KITTENS DEPRIVED OF VISION IN ONE EYE. J Neurophysiol (1963) 8.01
Functional architecture of cortex revealed by optical imaging of intrinsic signals. Nature (1987) 6.91
RECEPTIVE FIELDS OF CELLS IN STRIATE CORTEX OF VERY YOUNG, VISUALLY INEXPERIENCED KITTENS. J Neurophysiol (1963) 6.14
CHEMOAFFINITY IN THE ORDERLY GROWTH OF NERVE FIBER PATTERNS AND CONNECTIONS. Proc Natl Acad Sci U S A (1963) 6.02
Functional requirement for class I MHC in CNS development and plasticity. Science (2000) 5.57
Comparison of the effects of unilateral and bilateral eye closure on cortical unit responses in kittens. J Neurophysiol (1965) 5.48
Critical period regulation. Annu Rev Neurosci (2004) 4.74
EFFECTS OF VISUAL DEPRIVATION ON MORPHOLOGY AND PHYSIOLOGY OF CELLS IN THE CATS LATERAL GENICULATE BODY. J Neurophysiol (1963) 4.41
Developmental mechanisms that generate precise patterns of neuronal connectivity. Cell (1993) 4.07
Voltage-sensitive dyes reveal a modular organization in monkey striate cortex. Nature (1986) 3.79
Specificity of monosynaptic connections from thalamus to visual cortex. Nature (1995) 3.61
Retinotopic map refinement requires spontaneous retinal waves during a brief critical period of development. Neuron (2003) 3.52
Spontaneous neural activity is required for the establishment and maintenance of the olfactory sensory map. Neuron (2004) 3.50
Dscam and Sidekick proteins direct lamina-specific synaptic connections in vertebrate retina. Nature (2008) 3.49
Ephrin-B2 and EphB1 mediate retinal axon divergence at the optic chiasm. Neuron (2003) 3.39
Extent of recovery from the effects of visual deprivation in kittens. J Neurophysiol (1965) 3.24
Visual stimulation is required for refinement of ON and OFF pathways in postnatal retina. Neuron (2003) 3.19
Normal patterns of spontaneous activity are required for correct motor axon guidance and the expression of specific guidance molecules. Neuron (2004) 3.16
Retinal waves and visual system development. Annu Rev Neurosci (1999) 3.04
Developmental remodeling of the retinogeniculate synapse. Neuron (2000) 3.03
Molecular gradients and development of retinotopic maps. Annu Rev Neurosci (2005) 2.92
Wnt-Ryk signalling mediates medial-lateral retinotectal topographic mapping. Nature (2006) 2.92
Competition in retinogeniculate patterning driven by spontaneous activity. Science (1998) 2.92
Regulation of class I MHC gene expression in the developing and mature CNS by neural activity. Neuron (1998) 2.90
Sidekicks: synaptic adhesion molecules that promote lamina-specific connectivity in the retina. Cell (2002) 2.81
Transient period of correlated bursting activity during development of the mammalian retina. Neuron (1993) 2.67
Binocular impulse blockade prevents the formation of ocular dominance columns in cat visual cortex. J Neurosci (1986) 2.66
Requirement for cholinergic synaptic transmission in the propagation of spontaneous retinal waves. Science (1996) 2.58
Ankyrin-based subcellular gradient of neurofascin, an immunoglobulin family protein, directs GABAergic innervation at purkinje axon initial segment. Cell (2004) 2.52
Distinct roles for spontaneous and visual activity in remodeling of the retinogeniculate synapse. Neuron (2006) 2.50
An instructive role for retinal waves in the development of retinogeniculate connectivity. Neuron (2002) 2.50
Innate and environmental factors in the development of the kitten's visual cortex. J Physiol (1975) 2.50
Ordered arrangement of orientation columns in monkeys lacking visual experience. J Comp Neurol (1974) 2.46
Axonal wiring in the mouse olfactory system. Annu Rev Cell Dev Biol (2006) 2.41
Prenatal and postnatal development of retinogeniculate and retinocollicular projections in the mouse. J Comp Neurol (1984) 2.36
Wnt signaling in neural circuit assembly. Annu Rev Neurosci (2008) 2.35
Early development of ocular dominance columns. Science (2000) 2.34
Development of precise maps in visual cortex requires patterned spontaneous activity in the retina. Neuron (2005) 2.34
Correlational structure of spontaneous neuronal activity in the developing lateral geniculate nucleus in vivo. Science (1999) 2.33
The development of direction selectivity in ferret visual cortex requires early visual experience. Nat Neurosci (2006) 2.32
Failure to maintain eye-specific segregation in nob, a mutant with abnormally patterned retinal activity. Neuron (2006) 2.31
Genetic analysis of ephrin-A2 and ephrin-A5 shows their requirement in multiple aspects of retinocollicular mapping. Neuron (2000) 2.30
The role of visual experience in the development of columns in cat visual cortex. Science (1998) 2.30
Requirement of the nicotinic acetylcholine receptor beta 2 subunit for the anatomical and functional development of the visual system. Proc Natl Acad Sci U S A (2001) 2.28
EphB forward signaling controls directional branch extension and arborization required for dorsal-ventral retinotopic mapping. Neuron (2002) 2.25
Abnormal functional organization in the dorsal lateral geniculate nucleus of mice lacking the beta 2 subunit of the nicotinic acetylcholine receptor. Neuron (2003) 2.25
GAD67-mediated GABA synthesis and signaling regulate inhibitory synaptic innervation in the visual cortex. Neuron (2007) 2.23
Ephrin-as guide the formation of functional maps in the visual cortex. Neuron (2005) 2.19
Intracellular staining reveals different levels of stratification for on- and off-center ganglion cells in cat retina. J Neurophysiol (1978) 2.19
Ephrin-A5 (AL-1/RAGS) is essential for proper retinal axon guidance and topographic mapping in the mammalian visual system. Neuron (1998) 2.18
Structural and functional composition of the developing retinogeniculate pathway in the mouse. Vis Neurosci (2005) 2.15
Neural map specification by gradients. Curr Opin Neurobiol (2006) 2.14
Electrical activity modulates growth cone guidance by diffusible factors. Neuron (2001) 2.14
Subplate neurons regulate maturation of cortical inhibition and outcome of ocular dominance plasticity. Neuron (2006) 2.14
Ephrin-As and neural activity are required for eye-specific patterning during retinogeniculate mapping. Nat Neurosci (2005) 2.11
Prenatal genesis of connections subserving ocular dominance in the rhesus monkey. Nature (1976) 2.11
Dynamics of retinal waves are controlled by cyclic AMP. Neuron (1999) 2.11
Topographic guidance labels in a sensory projection to the forebrain. Neuron (1998) 2.03
Cortical calcium waves in resting newborn mice. Nat Neurosci (2005) 2.02
Target recognition and visual maps in the thalamus of achiasmatic dogs. Nature (1994) 1.94
Evidence for an instructive role of retinal activity in retinotopic map refinement in the superior colliculus of the mouse. J Neurosci (2005) 1.93
Diverse receptive fields in the lateral geniculate nucleus during thalamocortical development. Nat Neurosci (2000) 1.92
Development of ocular dominance columns in the absence of retinal input. Nat Neurosci (1999) 1.92
A burst-based "Hebbian" learning rule at retinogeniculate synapses links retinal waves to activity-dependent refinement. PLoS Biol (2007) 1.89
Modification of retinal ganglion cell axon morphology by prenatal infusion of tetrodotoxin. Nature (1988) 1.89
Retinogeniculate axons undergo eye-specific segregation in the absence of eye-specific layers. J Neurosci (2002) 1.87
Spontaneous correlated activity in developing neural circuits. Neuron (1999) 1.87
Disruption of orientation tuning in visual cortex by artificially correlated neuronal activity. Nature (1997) 1.85
Cellular mechanisms for direction selectivity in the retina. Neuron (2007) 1.83
High frequency, synchronized bursting drives eye-specific segregation of retinogeniculate projections. Nat Neurosci (2004) 1.81
A role for Nr-CAM in the patterning of binocular visual pathways. Neuron (2006) 1.79
Ocular dominance columns and their development in layer IV of the cat's visual cortex: a quantitative study. J Comp Neurol (1978) 1.77
Spontaneous retinal activity mediates development of ocular dominance columns and binocular receptive fields in v1. Neuron (2006) 1.77
Developmental loss of synchronous spontaneous activity in the mouse retina is independent of visual experience. J Neurosci (2003) 1.76
Relation of cortical cell orientation selectivity to alignment of receptive fields of the geniculocortical afferents that arborize within a single orientation column in ferret visual cortex. J Neurosci (1991) 1.75
Spontaneous impulse activity of rat retinal ganglion cells in prenatal life. Science (1988) 1.75
A systematic map of direction preference in primary visual cortex. Nature (1996) 1.75
Retinal waves trigger spindle bursts in the neonatal rat visual cortex. J Neurosci (2006) 1.75
The effect of visual experience on the development of stimulus specificity by kitten cortical neurones. J Physiol (1974) 1.72
Ephrin-As and patterned retinal activity act together in the development of topographic maps in the primary visual system. J Neurosci (2006) 1.72
Neuronal pentraxins mediate synaptic refinement in the developing visual system. J Neurosci (2006) 1.71
Requirement for subplate neurons in the formation of thalamocortical connections. Nature (1990) 1.71
Thalamic relay of spontaneous retinal activity prior to vision. Neuron (1996) 1.71
Development of orientation preference maps in ferret primary visual cortex. J Neurosci (1996) 1.71
Development of orientation selectivity in ferret visual cortex and effects of deprivation. J Neurosci (1993) 1.70
Development of cortical circuits: lessons from ocular dominance columns. Nat Rev Neurosci (2002) 1.69
Loss-of-function analysis of EphA receptors in retinotectal mapping. J Neurosci (2004) 1.67
Autoradiographic demonstration of ocular-dominance columns in the monkey striate cortex by means of transneuronal transport. Brain Res (1974) 1.66
Subcellular domain-restricted GABAergic innervation in primary visual cortex in the absence of sensory and thalamic inputs. Nat Neurosci (2004) 1.65
The contribution of sensory experience to the maturation of orientation selectivity in ferret visual cortex. Nature (2001) 1.62
Role of subplate neurons in functional maturation of visual cortical columns. Science (2003) 1.60
Development of retinal ganglion cell structure and function. Prog Retin Eye Res (2001) 1.58
An adult-like pattern of ocular dominance columns in striate cortex of newborn monkeys prior to visual experience. J Neurosci (1996) 1.57
Axon sorting in the optic tract requires HSPG synthesis by ext2 (dackel) and extl3 (boxer). Neuron (2004) 1.56
The critical period for ocular dominance plasticity in the Ferret's visual cortex. J Neurosci (1999) 1.53
cAMP oscillations and retinal activity are permissive for ephrin signaling during the establishment of the retinotopic map. Nat Neurosci (2007) 1.53
Retinotopic map refinement requires spontaneous retinal waves during a brief critical period of development. Neuron (2003) 3.52
Mechanisms underlying spontaneous patterned activity in developing neural circuits. Nat Rev Neurosci (2009) 3.30
Genetic identification of an On-Off direction-selective retinal ganglion cell subtype reveals a layer-specific subcortical map of posterior motion. Neuron (2009) 3.13
DSCAM and DSCAML1 function in self-avoidance in multiple cell types in the developing mouse retina. Neuron (2009) 2.73
Spontaneous patterned retinal activity and the refinement of retinal projections. Prog Neurobiol (2005) 2.20
Development of asymmetric inhibition underlying direction selectivity in the retina. Nature (2010) 2.09
Retinogeniculate axons undergo eye-specific segregation in the absence of eye-specific layers. J Neurosci (2002) 1.87
Direction selectivity in the retina is established independent of visual experience and cholinergic retinal waves. Neuron (2008) 1.85
High frequency, synchronized bursting drives eye-specific segregation of retinogeniculate projections. Nat Neurosci (2004) 1.81
Spontaneous retinal activity mediates development of ocular dominance columns and binocular receptive fields in v1. Neuron (2006) 1.77
Transgenic mice reveal unexpected diversity of on-off direction-selective retinal ganglion cell subtypes and brain structures involved in motion processing. J Neurosci (2011) 1.77
Neuronal pentraxins mediate synaptic refinement in the developing visual system. J Neurosci (2006) 1.71
Imaging of cAMP levels and protein kinase A activity reveals that retinal waves drive oscillations in second-messenger cascades. J Neurosci (2006) 1.67
A role for correlated spontaneous activity in the assembly of neural circuits. Neuron (2013) 1.57
Decoupling eye-specific segregation from lamination in the lateral geniculate nucleus. J Neurosci (2002) 1.45
Unbiased analysis of bulk axonal segregation patterns. J Neurosci Methods (2004) 1.43
Eye-specific retinogeniculate segregation independent of normal neuronal activity. Science (2003) 1.41
Two-photon targeted recording of GFP-expressing neurons for light responses and live-cell imaging in the mouse retina. Nat Protoc (2010) 1.35
Ephrin-As mediate targeting of eye-specific projections to the lateral geniculate nucleus. Nat Neurosci (2005) 1.32
Synaptic and extrasynaptic factors governing glutamatergic retinal waves. Neuron (2009) 1.31
Development of single retinofugal axon arbors in normal and β2 knock-out mice. J Neurosci (2011) 1.30
Epibatidine application in vitro blocks retinal waves without silencing all retinal ganglion cell action potentials in developing retina of the mouse and ferret. J Neurophysiol (2008) 1.23
Retinal waves: mechanisms and function in visual system development. Cell Calcium (2005) 1.22
Organization and development of direction-selective circuits in the retina. Trends Neurosci (2011) 1.21
Receptive fields and response properties of neurons in layer 4 of ferret visual cortex. J Neurophysiol (2003) 1.14
On and off retinal circuit assembly by divergent molecular mechanisms. Science (2013) 1.12
The role of neuronal connexins 36 and 45 in shaping spontaneous firing patterns in the developing retina. J Neurosci (2011) 1.11
Cellular mechanisms underlying spatiotemporal features of cholinergic retinal waves. J Neurosci (2012) 1.08
Assembly and disassembly of a retinal cholinergic network. Vis Neurosci (2011) 1.08
GABA(A) receptor-mediated signaling alters the structure of spontaneous activity in the developing retina. J Neurosci (2007) 1.08
Receptive field mosaics of retinal ganglion cells are established without visual experience. J Neurophysiol (2010) 1.05
The Down syndrome critical region regulates retinogeniculate refinement. J Neurosci (2011) 1.00
Intrinsically photosensitive ganglion cells contribute to plasticity in retinal wave circuits. Proc Natl Acad Sci U S A (2013) 0.99
Prevalence and predictors of exclusive breastfeeding at hospital discharge. Obstet Gynecol (2012) 0.98
Dendritic and axonal targeting patterns of a genetically-specified class of retinal ganglion cells that participate in image-forming circuits. Neural Dev (2014) 0.95
Visual stimulation reverses the directional preference of direction-selective retinal ganglion cells. Neuron (2012) 0.95
Imaging second messenger dynamics in developing neural circuits. Dev Neurobiol (2008) 0.95
L-type calcium channel agonist induces correlated depolarizations in mice lacking the beta2 subunit nAChRs. Vision Res (2004) 0.94
Extrasynaptic glutamate and inhibitory neurotransmission modulate ganglion cell participation during glutamatergic retinal waves. J Neurophysiol (2013) 0.93
Expression and function of the neuronal gap junction protein connexin 36 in developing mammalian retina. J Comp Neurol (2005) 0.93
Dissociated GABAergic retinal interneurons exhibit spontaneous increases in intracellular calcium. Vis Neurosci (2006) 0.92
Direction-selective ganglion cells show symmetric participation in retinal waves during development. J Neurosci (2010) 0.92
Role of adenylate cyclase 1 in retinofugal map development. J Comp Neurol (2012) 0.90
Calcium-dependent increases in protein kinase-A activity in mouse retinal ganglion cells are mediated by multiple adenylate cyclases. PLoS One (2009) 0.89
Dissociated retinal neurons form periodically active synaptic circuits. J Neurophysiol (2002) 0.89
Vision and the establishment of direction-selectivity: a tale of two circuits. Curr Opin Neurobiol (2009) 0.87
Non-cell-autonomous factor induces the transition from excitatory to inhibitory GABA signaling in retina independent of activity. Proc Natl Acad Sci U S A (2010) 0.86
Early retinal activity and visual circuit development. Neuron (2006) 0.86
Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system. Neural Dev (2011) 0.82
The developmental remodeling of eye-specific afferents in the ferret dorsal lateral geniculate nucleus. Anat Rec (Hoboken) (2010) 0.82
Emergence of realistic retinal networks in culture promoted by the superior colliculus. Dev Neurosci (2004) 0.82
Eye-specific retinogeniculate segregation proceeds normally following disruption of patterned spontaneous retinal activity. Neural Dev (2014) 0.80
A role for TREK1 in generating the slow afterhyperpolarization in developing starburst amacrine cells. J Neurophysiol (2013) 0.78
Effects of early postnatal alcohol exposure on the developing retinogeniculate projections in C57BL/6 mice. Alcohol (2013) 0.77
Mouse mutants for the nicotinic acetylcholine receptor ß2 subunit display changes in cell adhesion and neurodegeneration response genes. PLoS One (2011) 0.77
Retinal waves drive calcium transients in undifferentiated retinal cells. Focus on "spontaneous waves in the ventricular zone of developing mammalian retina". J Neurophysiol (2004) 0.77
A population-based cohort study of breastfeeding according to gestational age at term delivery. J Pediatr (2013) 0.76
Introduction to special issue on retinal development. Dev Neurobiol (2011) 0.76
Go with the flow -- but only in one direction. Neuron (2009) 0.76
Mobile Access to ClinicalConnect: A User Feedback Survey on Usability, Productivity, and Quality. JMIR Mhealth Uhealth (2015) 0.75
Neuroscience: Activity acts locally. Nature (2009) 0.75
Grading the thalamus: how can an 'Eph' be excellent? Thalamus Relat Syst (2005) 0.75
Feasibility Study of Interventions to Reduce Medication Omissions Without Documentation: Recall and Check Study. J Nurs Care Qual (2016) 0.75
Reviewing recommendations of root cause analyses. Aust Health Rev (2007) 0.75
Role for Visual Experience in the Development of Direction-Selective Circuits. Curr Biol (2017) 0.75