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Can retinal ganglion cell dipoles seed iso-orientation domains in the visual cortex?Ten Simple Rules for Taking Advantage of Git and GitHubNeuronal clustering and fasciculation phenotype in Dscam- and Bax-deficient mouse retinasA multi-component model of the developing retinocollicular pathway incorporating axonal and synaptic growth.A data repository and analysis framework for spontaneous neural activity recordings in developing retinaA quick guide to teaching R programming to computational biology studentsBurst-time-dependent plasticity robustly guides ON/OFF segregation in the lateral geniculate nucleus.Mapping by waves. Patterned spontaneous activity regulates retinotopic map refinement.Estimating the location and size of retinal injections from orthogonal images of an intact retina.Geniculo-Cortical Projection Diversity Revealed within the Mouse Visual Thalamus.LL5beta: a regulator of postsynaptic differentiation identified in a screen for synaptically enriched transcripts at the neuromuscular junction.Development of regular cellular spacing in the retina: theoretical models.Canalization of genetic and pharmacological perturbations in developing primary neuronal activity patterns.Characterization of Early Cortical Neural Network Development in Multiwell Microelectrode Array PlatesA comparison of computational methods for detecting bursts in neuronal spike trains and their application to human stem cell-derived neuronal networks.Theoretical models of spontaneous activity generation and propagation in the developing retina.A molecular mechanism for the topographic alignment of convergent neural maps.Modeling developmental patterns of spontaneous activity.Parasol cell mosaics are unlikely to drive the formation of structured orientation maps in primary visual cortex.Following the ontogeny of retinal waves: pan-retinal recordings of population dynamics in the neonatal mouseNeural circuits for peristaltic wave propagation in crawling Drosophila larvae: analysis and modeling.Homeostatic Activity-Dependent Tuning of Recurrent Networks for Robust Propagation of Activity.Lateral cell movement driven by dendritic interactions is sufficient to form retinal mosaics.The role of retinal waves and synaptic normalization in retinogeniculate development.Quantitative assessment of computational models for retinotopic map formationAnalysis of spatial relationships in three dimensions: tools for the study of nerve cell patterning.Quantitative differences in developmental profiles of spontaneous activity in cortical and hippocampal cultures.Detecting pairwise correlations in spike trains: an objective comparison of methods and application to the study of retinal waves.Homotypic constraints dominate positioning of on- and off-center beta retinal ganglion cells.Self-organization in the developing nervous system: theoretical models.Editorial: Quantitative Analysis of Neuroanatomy.Open access: sharing your data is easier than you think.Influence of cell fate mechanisms upon retinal mosaic formation: a modelling study.Segregation of ON and OFF retinogeniculate connectivity directed by patterned spontaneous activity.Developmental loss of synchronous spontaneous activity in the mouse retina is independent of visual experience.Determinants of the exclusion zone in dopaminergic amacrine cell mosaics.Developmental modulation of retinal wave dynamics: shedding light on the GABA saga.Dopaminergic amacrine cells in the inner nuclear layer and ganglion cell layer comprise a single functional retinal mosaic.Analysis of simultaneous multielectrode recordings with 4,096 channels: changing dynamics of spontaneous activity in the developing retina.Toward standard practices for sharing computer code and programs in neuroscience.
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Computational biologist at the University of Cambridge
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