1. Hierarchical organization of cortical and thalamic connectivity
- Author
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Harris, Julie A., Mihalas, Stefan, Hirokawa, Karla E., Whitesell, Jennifer D., Choi, Hannah, Bernard, Amy, and Bohn, Phillip
- Subjects
Neural circuitry -- Structure ,Thalamus -- Comparative analysis ,Cerebral cortex -- Comparative analysis ,Memory -- Analysis ,Connectionism -- Analysis ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
The mammalian cortex is a laminar structure containing many areas and cell types that are densely interconnected in complex ways, and for which generalizable principles of organization remain mostly unknown. Here we describe a major expansion of the Allen Mouse Brain Connectivity Atlas resource.sup.1, involving around a thousand new tracer experiments in the cortex and its main satellite structure, the thalamus. We used Cre driver lines (mice expressing Cre recombinase) to comprehensively and selectively label brain-wide connections by layer and class of projection neuron. Through observations of axon termination patterns, we have derived a set of generalized anatomical rules to describe corticocortical, thalamocortical and corticothalamic projections. We have built a model to assign connection patterns between areas as either feedforward or feedback, and generated testable predictions of hierarchical positions for individual cortical and thalamic areas and for cortical network modules. Our results show that cell-class-specific connections are organized in a shallow hierarchy within the mouse corticothalamic network. Using mouse lines in which subsets of neurons are genetically labelled, the authors provide generalized anatomical rules for connections within and between the cortex and thalamus., Author(s): Julie A. Harris [sup.1] , Stefan Mihalas [sup.1] , Karla E. Hirokawa [sup.1] , Jennifer D. Whitesell [sup.1] , Hannah Choi [sup.1] [sup.2] , Amy Bernard [sup.1] , Phillip [...]
- Published
- 2019
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