Cross-species consensus atlas of the primate basal ganglia

Nelson Johansen; Yuanyuan Fu; Matthew T. Schmitz; Alma Dubuc; Niklas Kempynck; Morgan Wirthlin; Aaron D. Garcia; Madeleine N. Hewitt; Meghan A. Turner; Stephanie C. Seeman; Brian Long; Xiao-Ping Liu; Shu Dan; Michael DeBerardine; Inkar Kapen; Anna Marie Yanny; Alida Avola; Samuel T. Barlow; Darren Bertagnolli; Ashwin A. Bhandiwad; Agata Budzillo; Victor Eduardo Nieto Caballero; Lakme Caceres; Tamara Casper; Anish Bhaswanth Chakka; Rushil Chakrabarty; Michael Clark; Scott Daniel; Jeroen Eggermont; Rebecca Ferrer; Leon French; Jessica Gloe; Jeff Goldy; Nathan Guilford; Junitta Guzman; Daniel Hirschstein; Windy Ho; K. James; Danielle L. Jones; Matthew Jungert; Madhav Kannan; Katarzyna Kedzierska; Thomas Kroes; Mckaila Leytze; Arena A. Manning; Rachel McCue; Christopher Morrison; Beagan Nguy; Sven Otto; Nick Pena; Trangthanh Pham; Elliot J Phillips; Abhejit Rajagopal; Christine Rimorin; Andrea Rivera; Dana B. Rocha; Raymond Sanchez; Geoffrey Schau; Jessica Schembri; Nadiya V. Shapovalova; Jamie A. Sherman; Julian Thijssen; Michael Tieu; Amy Torkelson; Alex Tran; Alexander Vieth; Yongqi Wang; Dan Yuan; Jennie Close; Tanya L. Daigle; Rachel Dalley; Nick Dee; Song‐Lin Ding; Elysha Fiabane; Nathan W. Gouwens; Grace Huynh; Brian Lee; Boaz P. Levi; Delissa McMillen; Jeremy A. Miller; Tyler Mollenkopf; Lydia Ng; Patrick L. Ray; Cassandra Sobieski; Staci A. Sorensen; Zizhen Yao; Faraz YazdaniBanafsheDaragh; Winrich A. Freiwald; Boudewijn P. F. Lelieveldt; Brian Kalmbach; C. Dirk Keene; Jesse Gillis; David Osumi-Sutherland; Jonathan T. Ting; Hongkui Zeng; Kimberly A. Smith; Fenna M. Krienen; Rebecca D. Hodge; Ed S. Lein; Trygve E. Bakken

doi:10.64898/2025.12.15.694496

Cross-species consensus atlas of the primate basal ganglia

Nelson Johansen(Allen Institute), Yuanyuan Fu(Allen Institute), Matthew T. Schmitz(Allen Institute), Alma Dubuc(Université Claude Bernard Lyon 1), Niklas Kempynck(VIB-KU Leuven Center for Cancer Biology), Morgan Wirthlin(Allen Institute), Aaron D. Garcia(Allen Institute), Madeleine N. Hewitt(Allen Institute), Meghan A. Turner(Allen Institute), Stephanie C. Seeman(Allen Institute), Brian Long(Allen Institute), Xiao-Ping Liu(Allen Institute), Shu Dan(Princeton University), Michael DeBerardine(Princeton University), Inkar Kapen(Allen Institute), Anna Marie Yanny(Allen Institute), Alida Avola(Wellcome Sanger Institute), Samuel T. Barlow(Allen Institute), Darren Bertagnolli(Allen Institute), Ashwin A. Bhandiwad(Allen Institute), Agata Budzillo(Allen Institute), Victor Eduardo Nieto Caballero(Princeton University), Lakme Caceres(Princeton University), Tamara Casper(Allen Institute), Anish Bhaswanth Chakka(Allen Institute), Rushil Chakrabarty(Allen Institute), Michael Clark(Allen Institute), Scott Daniel(Allen Institute), Jeroen Eggermont(Leiden University Medical Center), Rebecca Ferrer(Allen Institute), Leon French(Cellular Research (United States)), Jessica Gloe(Allen Institute), Jeff Goldy(Allen Institute), Nathan Guilford(Allen Institute), Junitta Guzman(Allen Institute), Daniel Hirschstein(Allen Institute), Windy Ho(Allen Institute), K. James(Allen Institute), Danielle L. Jones(Allen Institute), Matthew Jungert(Allen Institute), Madhav Kannan(Allen Institute), Katarzyna Kedzierska(Allen Institute), Thomas Kroes(Leiden University Medical Center), Mckaila Leytze(Allen Institute), Arena A. Manning(Allen Institute), Rachel McCue(Allen Institute), Christopher Morrison(Allen Institute), Beagan Nguy(Allen Institute), Sven Otto(Allen Institute), Nick Pena(Allen Institute), Trangthanh Pham(Allen Institute), Elliot J Phillips(Allen Institute), Abhejit Rajagopal(University of California, San Francisco), Christine Rimorin(Allen Institute), Andrea Rivera(Wellcome Sanger Institute), Dana B. Rocha(Allen Institute), Raymond Sanchez(Allen Institute), Geoffrey Schau(Allen Institute), Jessica Schembri(Princeton University), Nadiya V. Shapovalova(Allen Institute), Jamie A. Sherman(Allen Institute), Julian Thijssen(Leiden University Medical Center), Michael Tieu(Allen Institute), Amy Torkelson(Allen Institute), Alex Tran(Allen Institute), Alexander Vieth(Leiden University Medical Center), Yongqi Wang(Princeton University), Dan Yuan(Allen Institute), Jennie Close(Allen Institute), Tanya L. Daigle(University of Washington), Rachel Dalley(Allen Institute), Nick Dee(Allen Institute), Song‐Lin Ding(Allen Institute), Elysha Fiabane(Allen Institute), Nathan W. Gouwens(Allen Institute), Grace Huynh(Allen Institute), Brian Lee(Allen Institute), Boaz P. Levi(Allen Institute), Delissa McMillen(Allen Institute), Jeremy A. Miller(Allen Institute), Tyler Mollenkopf(Allen Institute), Lydia Ng(Allen Institute), Patrick L. Ray(Allen Institute), Cassandra Sobieski(Allen Institute), Staci A. Sorensen(Allen Institute), Zizhen Yao(Allen Institute), Faraz YazdaniBanafsheDaragh(Rockefeller University), Winrich A. Freiwald(Rockefeller University), Boudewijn P. F. Lelieveldt(Leiden University Medical Center), Brian Kalmbach(University of Washington), C. Dirk Keene(University of Washington), Jesse Gillis(Cellular Research (United States)), David Osumi-Sutherland(Wellcome Sanger Institute), Jonathan T. Ting(University of Washington), Hongkui Zeng(Allen Institute), Kimberly A. Smith(Allen Institute), Fenna M. Krienen(Princeton University), Rebecca D. Hodge(Allen Institute), Ed S. Lein(Allen Institute), Trygve E. Bakken(Allen Institute)

bioRxiv (Cold Spring Harbor Laboratory)

December 16, 2025

10.64898/2025.12.15.694496

Cited by 8Open Access

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Abstract

The basal ganglia (BG) are conserved brain regions essential for motor control, learning, emotion, and cognition, and are implicated in neurological and psychiatric disease. Yet a unified cross-species taxonomy of BG cell types is lacking, limiting translation of BG circuit mechanisms, interpretation of human genetic risk, and development of cell type-targeted tools. We present a multiomic consensus atlas of 1.8 million nuclei from human, macaque, and marmoset spanning eight BG structures. Integrating cross-species gene expression, open chromatin, and spatial profiling enables definition of conserved and divergent cell types. Alignment to existing mouse and human atlases identifies 61 homologous cell types conserved over 80 million years. We identify a STRd D2 StrioMat Hybrid medium spiny neuron (MSN) type with molecular, electrophysiological, and morphological features that clarify hybrid MSN identities. Comparative cis-regulatory analysis reveals conserved sequence grammars that encode cell identity and inform viral targeting strategies, providing a foundational resource for BG evolution, function, and disease.

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