A transcriptomic and epigenomic cell atlas of the mouse primary motor cortex
Author:
Yao ZizhenORCID, Liu Hanqing, Xie Fangming, Fischer Stephan, Adkins Ricky S.ORCID, Aldridge Andrew I.ORCID, Ament Seth A.ORCID, Bartlett Anna, Behrens M. MargaritaORCID, Van den Berge Koen, Bertagnolli Darren, de Bézieux Hector RouxORCID, Biancalani TommasoORCID, Booeshaghi A. SinaORCID, Bravo Héctor Corrada, Casper Tamara, Colantuoni Carlo, Crabtree JonathanORCID, Creasy HeatherORCID, Crichton Kirsten, Crow MeganORCID, Dee Nick, Dougherty Elizabeth L., Doyle Wayne I., Dudoit SandrineORCID, Fang Rongxin, Felix Victor, Fong Olivia, Giglio MichelleORCID, Goldy Jeff, Hawrylycz MikeORCID, Herb Brian R., Hertzano Ronna, Hou Xiaomeng, Hu Qiwen, Kancherla Jayaram, Kroll Matthew, Lathia Kanan, Li Yang EricORCID, Lucero Jacinta D., Luo Chongyuan, Mahurkar AnupORCID, McMillen Delissa, Nadaf Naeem M., Nery Joseph R.ORCID, Nguyen Thuc NghiORCID, Niu Sheng-Yong, Ntranos Vasilis, Orvis Joshua, Osteen Julia K.ORCID, Pham ThanhORCID, Pinto-Duarte AntonioORCID, Poirion Olivier, Preissl SebastianORCID, Purdom ElizabethORCID, Rimorin Christine, Risso Davide, Rivkin Angeline C., Smith KimberlyORCID, Street Kelly, Sulc Josef, Svensson Valentine, Tieu Michael, Torkelson Amy, Tung HermanORCID, Vaishnav Eeshit DhavalORCID, Vanderburg Charles R., van Velthoven CindyORCID, Wang XinxinORCID, White Owen R., Huang Z. JoshORCID, Kharchenko Peter V.ORCID, Pachter Lior, Ngai John, Regev AvivORCID, Tasic BosiljkaORCID, Welch Joshua D.ORCID, Gillis Jesse, Macosko Evan Z.ORCID, Ren BingORCID, Ecker Joseph R.ORCID, Zeng HongkuiORCID, Mukamel Eran A.ORCID
Abstract
AbstractSingle-cell transcriptomics can provide quantitative molecular signatures for large, unbiased samples of the diverse cell types in the brain1–3. With the proliferation of multi-omics datasets, a major challenge is to validate and integrate results into a biological understanding of cell-type organization. Here we generated transcriptomes and epigenomes from more than 500,000 individual cells in the mouse primary motor cortex, a structure that has an evolutionarily conserved role in locomotion. We developed computational and statistical methods to integrate multimodal data and quantitatively validate cell-type reproducibility. The resulting reference atlas—containing over 56 neuronal cell types that are highly replicable across analysis methods, sequencing technologies and modalities—is a comprehensive molecular and genomic account of the diverse neuronal and non-neuronal cell types in the mouse primary motor cortex. The atlas includes a population of excitatory neurons that resemble pyramidal cells in layer 4 in other cortical regions4. We further discovered thousands of concordant marker genes and gene regulatory elements for these cell types. Our results highlight the complex molecular regulation of cell types in the brain and will directly enable the design of reagents to target specific cell types in the mouse primary motor cortex for functional analysis.
Publisher
Springer Science and Business Media LLC
Subject
Multidisciplinary
Reference71 articles.
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