Journal ArticleDOI
Wiring specificity in the direction-selectivity circuit of the retina
TLDR
It is shown, using serial block-face electron microscopy and two-photon calcium imaging, that the dendrites of mouse starburst amacrine cells make highly specific synapses with direction-selective ganglion cells depending on the ganglION cell’s preferred direction.Abstract:
The proper connectivity between neurons is essential for the implementation of the algorithms used in neural computations, such as the detection of directed motion by the retina. The analysis of neuronal connectivity is possible with electron microscopy, but technological limitations have impeded the acquisition of high-resolution data on a large enough scale. Here we show, using serial block-face electron microscopy and two-photon calcium imaging, that the dendrites of mouse starburst amacrine cells make highly specific synapses with direction-selective ganglion cells depending on the ganglion cell's preferred direction. Our findings indicate that a structural (wiring) asymmetry contributes to the computation of direction selectivity. The nature of this asymmetry supports some models of direction selectivity and rules out others. It also puts constraints on the developmental mechanisms behind the formation of synaptic connections. Our study demonstrates how otherwise intractable neurobiological questions can be addressed by combining functional imaging with the analysis of neuronal connectivity using large-scale electron microscopy.read more
Citations
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Journal ArticleDOI
Orientation Selectivity in the Retina: ON Cell Types and Mechanisms.
TL;DR: Orientation selectivity was first described in cat primary visual cortex as the selectivity of neuronal firing for elongated visual stimuli oriented along a specific axis and identified orientation-selective ganglion cells (OSGCs) in OSGCs.
Journal ArticleDOI
Computational and Molecular Properties of Starburst Amacrine Cell Synapses Differ With Postsynaptic Cell Type.
TL;DR: In this paper, the authors investigated computation at output synapses of the starburst amacrine cell (SAC), a critical component of the classical direction-selective (DS) circuit in the retina.
Posted ContentDOI
The impact of neuron morphology on cortical network architecture
Daniel Udvary,Philipp Harth,Jakob H. Macke,Hans-Christian Hege,Christiaan P. J. de Kock,Bert Sakmann,Marcel Oberlaender +6 more
TL;DR: In this article, the structural composition of the neuropil provides a prominent source by which wiring specificity can emerge in cortical networks, which can result from synapse formation mechanisms that interconnect neurons depending on their activity or genetically defined identity.
Book ChapterDOI
Complex Networks in Health and Disease
Loan Vulliard,Jörg Menche +1 more
TL;DR: A brief introduction to the emerging field of network medicine is provided and commonly used networks are reviewed, ranging from the molecular interaction networks that form the basis of all biological processes in the cell to the global transportation networks that govern the spread of global epidemics.
Proceedings ArticleDOI
Deep Convolutional Encoder-Decoder Architecture for Neuronal Structure Segmentation
TL;DR: The novel introduction of summation-based skip connection is aimed to connect decoding path with encoding path, and its architecture consists of an encoding path that enables feature extraction in electro microscopic connectomics.
References
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Journal ArticleDOI
The structure of the nervous system of the nematode Caenorhabditis elegans
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Journal ArticleDOI
The mechanism of directionally selective units in rabbit's retina.
Horace Barlow,W. R. Levick +1 more
TL;DR: Experiments are described which show, first, that directional selectivity is not due to optical aberrations of some kind and, secondly, that it is not a simple matter of the latency of response varying systematically across the receptive field.
Journal ArticleDOI
Serial block−face scanning electron microscopy to reconstruct three−dimensional tissue nanostructure
Winfried Denk,Heinz Horstmann +1 more
TL;DR: It is demonstrated that datasets meeting these requirements can be obtained by automated block-face imaging combined with serial sectioning inside the chamber of a scanning electron microscope, opening the possibility of automatically obtaining the electron-microscope-level 3D datasets needed to completely reconstruct the connectivity of neuronal circuits.
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