Aery Jones et al (2026) Entorhinal cortex represents task-relevant remote locations independent of CA1
DOI:
10.48324/dandi.001701/0.260120.0303
10.48324/dandi.001701/0.260120.0303
ID: 001701
0.260120.0303
0.260120.0303
Contact Aery Jones, Emily
File Count 218
Size 6.2 GB
Created January 20, 2026
Last update January 20, 2026
Licenses: spdx:CC-BY-4.0
Access Information: dandi:OpenAccess
This dataset contains Neuropixels recordings from medial entorhinal cortex and hippocampus while mice learned a spatial match-to-sample task. Data includes spike times, LFP from select channels, trial information, 2D position, and head direction.
Keywords:
entorhinal cortex
hippocampus
spatial navigation
population decoding
Funding information
National Institute of Neurological Disorders and Stroke
- Award Number: K99NS134734, F32NS138225, U19NS118284
National Institute of Mental Health
- Award Number: R01MH106475, R01MS118284
Simons Foundation Collaboration on the Global Brain
- Award Number: 542987SPI
Stanford University
- Award Number: Dean’s Postdoctoral Fellowship, Jump Start Award, Interdisciplinary Graduate Fellowship
A.P. Giannini Foundation
- Award Number: Postdoctoral Fellowship
James S McDonnell Foundation
- Award Number: Scholar Award
Vallee Foundation
- Award Number: Scholar Award
Assets Summary
Approach
electrophysiological approach
behavioral approach
Data StandardRRID:SCR_015242
Neurodata Without Borders (NWB)
Number Of Subjects
12
Variable Measured
CompassDirection
ProcessingModule
LFP
Position
Units
ElectricalSeries
ElectrodeGroup
SpatialSeries
Measurement Technique
multi electrode extracellular electrophysiology recording technique
behavioral technique
signal filtering technique
surgical technique
spike sorting technique
analytical technique