A large-scale, standardized physiological survey reveals higher order coding throughout the mouse visual cortex

Saskia de Vries(Allen Institute for Brain Science), Jérôme Lecoq(Allen Institute for Brain Science), Michael A. Buice(Allen Institute for Brain Science), Peter A. Groblewski(Allen Institute for Brain Science), Gabriel Koch Ocker(Allen Institute for Brain Science), Michael Oliver(Allen Institute for Brain Science), David Feng(Allen Institute for Brain Science), Nicholas Cain(Allen Institute for Brain Science), Peter Ledochowitsch(Allen Institute for Brain Science), Daniel Millman(Allen Institute for Brain Science), Kate Roll(Allen Institute for Brain Science), Marina Garrett(Allen Institute for Brain Science), Tom Keenan(Allen Institute for Brain Science), Leonard Kuan(Allen Institute for Brain Science), Ştefan Mihalaş(Allen Institute for Brain Science), Shawn R. Olsen(Allen Institute for Brain Science), Carol L. Thompson(Allen Institute for Brain Science), Wayne Wakeman(Allen Institute for Brain Science), Jack Waters(Allen Institute for Brain Science), Derric Williams(Allen Institute for Brain Science), Chris Barber(Allen Institute for Brain Science), Nathan Berbesque(Allen Institute for Brain Science), Brandon Blanchard(Allen Institute for Brain Science), Nicholas Bowles(Allen Institute for Brain Science), Shiella Caldejon(Allen Institute for Brain Science), Linzy Casal(Allen Institute for Brain Science), Andrew Cho(Allen Institute for Brain Science), Sissy Cross(Allen Institute for Brain Science), Chinh Dang(Allen Institute for Brain Science), Tim Dolbeare(Allen Institute for Brain Science), Melise M. Edwards(Allen Institute for Brain Science), John Galbraith(Allen Institute for Brain Science), Nathalie Gaudreault(Allen Institute for Brain Science), Fiona Griffin(Allen Institute for Brain Science), Perry Hargrave(Allen Institute for Brain Science), Robert Howard(Allen Institute for Brain Science), Lawrence Huang(Allen Institute for Brain Science), Sean Jewell(Allen Institute for Brain Science), Nika H. Keller(Allen Institute for Brain Science), Ulf Knoblich(Allen Institute for Brain Science), Josh Larkin(Allen Institute for Brain Science), Rachael Larsen(Allen Institute for Brain Science), Chris Lau(Allen Institute for Brain Science), Eric Lee(Allen Institute for Brain Science), Felix Lee(Allen Institute for Brain Science), Arielle Leon(Allen Institute for Brain Science), Lu Li(Allen Institute for Brain Science), Fuhui Long(Allen Institute for Brain Science), Jennifer Luviano(Allen Institute for Brain Science), Kyla Mace(Allen Institute for Brain Science), Thuyanh V. Nguyen(Allen Institute for Brain Science), Jed Perkins(Allen Institute for Brain Science), Miranda Robertson(Allen Institute for Brain Science), Sam Seid(Allen Institute for Brain Science), Eric Shea‐Brown(Allen Institute for Brain Science), Jianghong Shi(Allen Institute for Brain Science), Nathan Sjoquist(Allen Institute for Brain Science), Cliff Slaughterbeck(Allen Institute for Brain Science), David Sullivan(Allen Institute for Brain Science), Ryan Valenza(Allen Institute for Brain Science), Casey White(Allen Institute for Brain Science), Ali Williford(Allen Institute for Brain Science), Daniela Witten(Allen Institute for Brain Science), Jun Zhuang(Allen Institute for Brain Science), Hongkui Zeng(Allen Institute for Brain Science), Colin Farrell(Allen Institute for Brain Science), Lydia Ng(Allen Institute for Brain Science), Amy Bernard(Allen Institute for Brain Science), John W. Phillips(Allen Institute for Brain Science), R. Clay Reid(Allen Institute for Brain Science), Christof Koch(Allen Institute for Brain Science)
bioRxiv (Cold Spring Harbor Laboratory)
June 29, 2018
10.1101/359513
Cited by 152Open Access
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Abstract

Summary To understand how the brain processes sensory information to guide behavior, we must know how stimulus representations are transformed throughout the visual cortex. Here we report an open, large-scale physiological survey of neural activity in the awake mouse visual cortex: the Allen Brain Observatory Visual Coding dataset. This publicly available dataset includes cortical activity from nearly 60,000 neurons collected from 6 visual areas, 4 layers, and 12 transgenic mouse lines from 221 adult mice, in response to a systematic set of visual stimuli. Using this dataset, we reveal functional differences across these dimensions and show that visual cortical responses are sparse but correlated. Surprisingly, responses to different stimuli are largely independent, e.g. whether a neuron responds to natural scenes provides no information about whether it responds to natural movies or to gratings. We show that these phenomena cannot be explained by standard local filter-based models, but are consistent with multi-layer hierarchical computation, as found in deeper layers of standard convolutional neural networks.

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