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Automated synapse-level reconstruction of neural circuits in the larval zebrafish brain

Fabian Svara, Dominique Förster, Fumi Kubo, Michał Januszewski, Marco Dal Maschio, Philipp J. Schubert, Joergen Kornfeld, Adrian Wanner, Eva Laurell, Winfried Denk, Herwig Baier

2022Nature Methods114 citationsDOIOpen Access PDF

Abstract

Abstract Dense reconstruction of synaptic connectivity requires high-resolution electron microscopy images of entire brains and tools to efficiently trace neuronal wires across the volume. To generate such a resource, we sectioned and imaged a larval zebrafish brain by serial block-face electron microscopy at a voxel size of 14 × 14 × 25 nm 3 . We segmented the resulting dataset with the flood-filling network algorithm, automated the detection of chemical synapses and validated the results by comparisons to transmission electron microscopic images and light-microscopic reconstructions. Neurons and their connections are stored in the form of a queryable and expandable digital address book. We reconstructed a network of 208 neurons involved in visual motion processing, most of them located in the pretectum, which had been functionally characterized in the same specimen by two-photon calcium imaging. Moreover, we mapped all 407 presynaptic and postsynaptic partners of two superficial interneurons in the tectum. The resource developed here serves as a foundation for synaptic-resolution circuit analyses in the zebrafish nervous system.

Topics & Concepts

NeuroscienceSynapseBiological neural networkPostsynaptic potentialZebrafishSlice preparationComputer scienceConnectomicsCalcium imagingNeuroanatomyBiologyConnectomeArtificial intelligenceMaterials scienceElectrophysiologyCalciumReceptorGeneFunctional connectivityMetallurgyBiochemistryNeural dynamics and brain functionAdvanced Fluorescence Microscopy TechniquesZebrafish Biomedical Research Applications
Automated synapse-level reconstruction of neural circuits in the larval zebrafish brain | Litcius