Distinct subnetworks of the thalamic reticular nucleus

The thalamic reticular nucleus (TRN), the major source of thalamic inhibition, regulates thalamocortical interactions that are critical for sensory processing, attention and cognition1-5. TRN dysfunction has been linked to sensory abnormality, attention deficit and sleep disturbance across multiple...

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Main Authors:	Li, Yinqing (Author), Lopez Huerta, Violeta (Author), Adiconis, Xian (Author), Levandowski, Kirsten (Author), Choi, Soonwook (Author), Simmons, Sean K. (Author), Arias-Garcia, Mario A. (Author), Guo, Baolin (Author), Yao, Annie (Author), Blosser, Timothy R. (Author), Wimmer, Ralf D (Author), Aida, Tomomi (Author), Atamian, Alexander (Author), Naik, Tina (Author), Sun, Xuyun (Author), Bi, Dasheng (Author), Malhotra, Diya (Author), Hession, Cynthia C. (Author), Shema Tirosh, Reut (Author), Gomes, Marcos (Author), Li, Taibo (Author), Hwang, Eunjin (Author), Krol, Alexandra (Author), Kowalczyk, Monika (Author), Peça, João (Author), Pan, Gang (Author), Halassa, Michael (Author), Levin, Joshua Z. (Author), Fu, Zhanyan (Author), Feng, Guoping (Author)
Other Authors:	McGovern Institute for Brain Research at MIT (Contributor), Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences (Contributor), Klarman Cell Observatory (Broad Institute) (Contributor)
Format:	Article
Language:	English
Published:	Springer Science and Business Media LLC, 2021-04-07T21:02:09Z.
Subjects:	Article
Online Access:	Get fulltext

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Distinct subnetworks of the thalamic reticular nucleus

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