1. A repeated molecular architecture across thalamic pathways
- Author
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Brett D. Mensh, Joshua T. Dudman, Jayaram Chandrashekar, Johan Winnubst, Chenghao Liu, James W Phillips, Wyatt Korff, Erina Hara, Andrew L. Lemire, Brenda C Shields, Lihua Wang, Anton Schulmann, Adam W. Hantman, Vera Valakh, and Sacha B. Nelson
- Subjects
0301 basic medicine ,Thalamus ,Action Potentials ,Mice, Transgenic ,Sensory system ,Biology ,Article ,Transcriptome ,Mice ,03 medical and health sciences ,Atlases as Topic ,0302 clinical medicine ,Neural Pathways ,medicine ,Animals ,Humans ,Cerebral Cortex ,Extramural ,General Neuroscience ,Motor control ,030104 developmental biology ,Mouse Thalamus ,medicine.anatomical_structure ,nervous system ,Cerebral cortex ,Forebrain ,Neuroscience ,030217 neurology & neurosurgery - Abstract
The thalamus is the central communication hub of the forebrain and provides the cerebral cortex with inputs from sensory organs, subcortical systems and the cortex itself. Multiple thalamic regions send convergent information to each cortical region, but the organizational logic of thalamic projections has remained elusive. Through comprehensive transcriptional analyses of retrogradely labeled thalamic neurons in adult mice, we identify three major profiles of thalamic pathways. These profiles exist along a continuum that is repeated across all major projection systems, such as those for vision, motor control and cognition. The largest component of gene expression variation in the mouse thalamus is topographically organized, with features conserved in humans. Transcriptional differences between these thalamic neuronal identities are tied to cellular features that are critical for function, such as axonal morphology and membrane properties. Molecular profiling therefore reveals covariation in the properties of thalamic pathways serving all major input modalities and output targets, thus establishing a molecular framework for understanding the thalamus.
- Published
- 2019
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