Author
Listed:
- Dora Angelaki
(New York University)
- Brandon Benson
(Stanford University)
- Julius Benson
(New York University)
- Daniel Birman
(University of Washington)
- Niccolò Bonacchi
(ISPA–Instituto Universitario)
- Kcénia Bougrova
(Champalimaud Foundation)
- Sebastian A. Bruijns
(University of Tübingen)
- Matteo Carandini
(University College London)
- Joana A. Catarino
(Champalimaud Foundation)
- Gaelle A. Chapuis
(University of Geneva)
- Anne K. Churchland
(University of California Los Angeles)
- Yang Dan
(University of California Berkeley)
- Felicia Davatolhagh
(University of California Los Angeles)
- Peter Dayan
(University of Tübingen)
- Eric EJ DeWitt
(Champalimaud Foundation)
- Tatiana A. Engel
(Cold Spring Harbor Laboratory)
- Michele Fabbri
(Champalimaud Foundation)
- Mayo Faulkner
(University College London)
- Ila Rani Fiete
(Massachusetts Institute of Technology)
- Charles Findling
(University of Geneva)
- Laura Freitas-Silva
(Champalimaud Foundation)
- Berk Gerçek
(University of Geneva)
- Kenneth D. Harris
(University College London)
- Michael Häusser
(University College London
The University of Hong Kong)
- Sonja B. Hofer
(University College London)
- Fei Hu
(University of California Berkeley)
- Félix Hubert
(University of Geneva)
- Julia M. Huntenburg
(University of Tübingen)
- Anup Khanal
(University of California Los Angeles)
- Christopher S. Krasniak
(Cold Spring Harbor Laboratory)
- Christopher Langdon
(Princeton University)
- Christopher Langfield
(Columbia University)
- Petrina Y. P. Lau
(University College London)
- Zachary F. Mainen
(Champalimaud Foundation)
- Guido T. Meijer
(Champalimaud Foundation)
- Nathaniel J. Miska
(University College London)
- Thomas D. Mrsic-Flogel
(University College London)
- Jean-Paul Noel
(New York University)
- Kai Nylund
(University of Washington)
- Alejandro Pan-Vazquez
(Princeton University)
- Liam Paninski
(Columbia University)
- Alexandre Pouget
(University of Geneva)
- Cyrille Rossant
(University College London)
- Noam Roth
(University of Washington)
- Rylan Schaeffer
(Stanford University)
- Michael Schartner
(Champalimaud Foundation)
- Yanliang Shi
(Princeton University)
- Karolina Z. Socha
(University College London)
- Nicholas A. Steinmetz
(University of Washington)
- Karel Svoboda
(Allen Institute for Neural Dynamics)
- Anne E. Urai
(Leiden University)
- Miles J. Wells
(University College London)
- Steven J. West
(University College London)
- Matthew R. Whiteway
(Columbia University)
- Olivier Winter
(Champalimaud Foundation)
- Ilana B. Witten
(Princeton University)
Abstract
A key challenge in neuroscience is understanding how neurons in hundreds of interconnected brain regions integrate sensory inputs with previous expectations to initiate movements and make decisions1. It is difficult to meet this challenge if different laboratories apply different analyses to different recordings in different regions during different behaviours. Here we report a comprehensive set of recordings from 621,733 neurons recorded with 699 Neuropixels probes across 139 mice in 12 laboratories. The data were obtained from mice performing a decision-making task with sensory, motor and cognitive components. The probes covered 279 brain areas in the left forebrain and midbrain and the right hindbrain and cerebellum. We provide an initial appraisal of this brain-wide map and assess how neural activity encodes key task variables. Representations of visual stimuli transiently appeared in classical visual areas after stimulus onset and then spread to ramp-like activity in a collection of midbrain and hindbrain regions that also encoded choices. Neural responses correlated with impending motor action almost everywhere in the brain. Responses to reward delivery and consumption were also widespread. This publicly available dataset represents a resource for understanding how computations distributed across and within brain areas drive behaviour.
Suggested Citation
Dora Angelaki & Brandon Benson & Julius Benson & Daniel Birman & Niccolò Bonacchi & Kcénia Bougrova & Sebastian A. Bruijns & Matteo Carandini & Joana A. Catarino & Gaelle A. Chapuis & Anne K. Churchla, 2025.
"A brain-wide map of neural activity during complex behaviour,"
Nature, Nature, vol. 645(8079), pages 177-191, September.
Handle:
RePEc:nat:nature:v:645:y:2025:i:8079:d:10.1038_s41586-025-09235-0
DOI: 10.1038/s41586-025-09235-0
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