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
Distinct representation and distribution of visual information by specific cell types in mouse superficial superior colliculus.
Samuel D. Gale,Gabe J. Murphy +1 more
TL;DR: This work has identified the visual stimuli to which specific classes of sSC neurons respond, the downstream regions they target, and transgenic mice enabling class-specific manipulations that enable direct tests of their functional role.
Journal ArticleDOI
High-resolution whole-brain staining for electron microscopic circuit reconstruction
Shawn Mikula,Winfried Denk +1 more
TL;DR: A preparation, BROPA (brain-wide reduced-osmium staining with pyrogallol-mediated amplification), that results in the preservation and staining of ultrastructural details throughout the brain at a resolution necessary for tracing neuronal processes and identifying synaptic contacts between them is described.
Journal ArticleDOI
Large-Scale Automated Histology in the Pursuit of Connectomes
David Kleinfeld,Arjun Bharioke,Pablo Blinder,David Bock,Kevin L. Briggman,Dmitri B. Chklovskii,Winfried Denk,Moritz Helmstaedter,John Patrick Kaufhold,Wei-Chung Lee,Hanno S. Meyer,Kristina D. Micheva,Marcel Oberlaender,Steffen Prohaska,Robert J. Reid,Stephen J. Smith,Shin-ya Takemura,Philbert S. Tsai,Bert Sakmann +18 more
TL;DR: The state of the art is presented on the reconstruction of circuits and vasculature that link brain anatomy and function in all three dimensions, as well as software and machine learning for data analysis and visualization.
Journal ArticleDOI
The Stimulus Selectivity and Connectivity of Layer Six Principal Cells Reveals Cortical Microcircuits Underlying Visual Processing
Mateo Vélez-Fort,Charly V. Rousseau,Christian J. Niedworok,Ian R. Wickersham,Ede A. Rancz,Alexander Brown,Molly Strom,Troy W. Margrie,Troy W. Margrie +8 more
TL;DR: It is shown that CC-projecting cells encompass a broad spectrum of selectivity to stimulus orientation and are predominantly innervated by deep layer V1 neurons, and CT- Projecting cells are ultrasparse firing, exquisitely tuned to orientation and direction information, and receive long-range input from higher cortical areas.
Journal ArticleDOI
Species-specific wiring for direction selectivity in the mammalian retina
TL;DR: A detailed connectomic reconstruction of SAC circuitry in mouse retina is presented and two previously unknown features of synapse distributions along SAC dendrite are described: input and output synapses are segregated, with inputs restricted to proximal dendrites; and the distribution of inhibitory inputs is fundamentally different from that observed in rabbit retina.
References
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Journal ArticleDOI
Two-Photon Laser Scanning Fluorescence Microscopy
TL;DR: The fluorescence emission increased quadratically with the excitation intensity so that fluorescence and photo-bleaching were confined to the vicinity of the focal plane as expected for cooperative two-photon excitation.
Journal ArticleDOI
User-guided 3D active contour segmentation of anatomical structures: Significantly improved efficiency and reliability
Paul A. Yushkevich,Joseph Piven,Heather C. Hazlett,Rachel Gimpel Smith,Sean Ho,James C. Gee,Guido Gerig +6 more
TL;DR: The methods and software engineering philosophy behind this new tool, ITK-SNAP, are described and the results of validation experiments performed in the context of an ongoing child autism neuroimaging study are provided, finding that SNAP is a highly reliable and efficient alternative to manual tracing.
Journal ArticleDOI
The structure of the nervous system of the nematode Caenorhabditis elegans
TL;DR: The structure and connectivity of the nervous system of the nematode Caenorhabditis elegans has been deduced from reconstructions of electron micrographs of serial sections as discussed by the authors.
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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