Published in Dev Neurosci on January 01, 2004
Imaging of cAMP levels and protein kinase A activity reveals that retinal waves drive oscillations in second-messenger cascades. J Neurosci (2006) 1.67
GABA(A) receptor-mediated signaling alters the structure of spontaneous activity in the developing retina. J Neurosci (2007) 1.08
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
Synapse clusters are preferentially formed by synapses with large recycling pool sizes. PLoS One (2010) 0.85
Mechanisms underlying development of visual maps and receptive fields. Annu Rev Neurosci (2008) 4.00
The hypoxic response of tumors is dependent on their microenvironment. Cancer Cell (2003) 3.89
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
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
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
Unbiased analysis of bulk axonal segregation patterns. J Neurosci Methods (2004) 1.43
Two-photon targeted recording of GFP-expressing neurons for light responses and live-cell imaging in the mouse retina. Nat Protoc (2010) 1.35
Association of platelet-derived growth factor receptor alpha mutations with gastric primary site and epithelioid or mixed cell morphology in gastrointestinal stromal tumors. J Mol Diagn (2004) 1.33
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
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
Dopaminergic modulation of tracer coupling in a ganglion-amacrine cell network. Vis Neurosci (2007) 1.16
Subtelomeric deletion of chromosome 10p15.3: clinical findings and molecular cytogenetic characterization. Am J Med Genet A (2012) 1.15
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
Epigenetic dysregulation of SHANK3 in brain tissues from individuals with autism spectrum disorders. Hum Mol Genet (2013) 0.99
Intrinsically photosensitive ganglion cells contribute to plasticity in retinal wave circuits. Proc Natl Acad Sci U S A (2013) 0.99
Imaging second messenger dynamics in developing neural circuits. Dev Neurobiol (2008) 0.95
Visual stimulation reverses the directional preference of direction-selective retinal ganglion cells. Neuron (2012) 0.95
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
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
Direction-selective ganglion cells show symmetric participation in retinal waves during development. J Neurosci (2010) 0.92
Dissociated GABAergic retinal interneurons exhibit spontaneous increases in intracellular calcium. Vis Neurosci (2006) 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
Screening for differential gene expression during the development of form-deprivation myopia in the chicken. Optom Vis Sci (2004) 0.88
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
Incontinentia pigmenti in a boy with XXY mosaicism detected by fluorescence in situ hybridization. J Am Acad Dermatol (2006) 0.85
Human exposure to selected animal neurocarcinogens: a biomarker-based assessment and implications for brain tumor epidemiology. J Toxicol Environ Health B Crit Rev (2009) 0.78
A role for TREK1 in generating the slow afterhyperpolarization in developing starburst amacrine cells. J Neurophysiol (2013) 0.78
AMG 900, pan-Aurora kinase inhibitor, preferentially inhibits the proliferation of breast cancer cell lines with dysfunctional p53. Breast Cancer Res Treat (2013) 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
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
Neuroscience: Activity acts locally. Nature (2009) 0.75
Role for Visual Experience in the Development of Direction-Selective Circuits. Curr Biol (2017) 0.75
CORRIGENDUM: CRIM-negative infantile Pompe disease: characterization of immune responses in patients treated with ERT monotherapy. Genet Med (2015) 0.75