This repository contains the complete, unprocessed dataset underlying the publication:

McGill, S. H., Xin, Q., Yadav, T., Zhao, C. W., Paszkowski, P., Darby, F., Guha, M., Nguyen, T., Jin, D. S., Nir, Y., Liu, J., Sieu, L-A., & Blumenfeld, H. (2025). Auditory sensory processing induces cortical and thalamic event-related desynchronization in the mouse. PLOS ONE, 20(10), e0334293. https://doi.org/10.1371/journal.pone.0334293

The repository archives all raw behavioral, electrophysiological, histological, and metadata files associated with this study, organized for transparency and reuse in accordance with best-practice guidelines of Dryad and PLOS One.

1. Overview

The study investigated neural correlates of auditory processing in mice by recording local field potentials (LFPs) from the frontal association cortex (FrA), centrolateral thalamic nucleus (CL), primary auditory cortex (A1), and primary visual cortex (V1) during passive listening and go/no-go auditory discrimination tasks.

Mice exhibited early broadband gamma activity (0–250 ms) followed by late alpha/beta event-related desynchronizations (ERDs) (250–750 ms) in cortical and thalamic regions. These observations are analogous to phenomena previously observed in humans.

The data in this repository consists of:

• Automated behavioral session outputs (.txt): trial-level records of task performance and related parameters
• Electrophysiological recordings (.smrx, .s2rx): raw LFP data acquired with Spike2 alongside key data associated with animal behavior
• Histological images (.jpg,.png,.tif): microscope images verifying electrode placements
• Individual animal datasheets (.xlsx): metadata tables summarizing implant maps, water restriction weights, and session notes

All compressed archives are provided in .zip format and can be extracted using native OS utilities or the open-source tool 7-Zip.

2. Data Collection and Experimental Design

The data in this repository were collected from thirty-two C57Bl/6 mice (sixteen male and sixteen female) between two and six months of age. Neural activity was recorded from four regions of interest: the frontal association cortex (FrA), primary auditory cortex (A1), primary visual cortex (V1), and centrolateral thalamic nucleus (CL). During data collection, the animals participated in two behavioral paradigms: a passive listening task and an auditory Go/No-Go lick-response task.

Auditory stimuli consisted of 50-millisecond complex chords spanning frequencies from 4 to 20 kHz. These sounds were presented at variable amplitudes superimposed on a white-noise background (63.5 dB baseline; 65.7 dB maximum). Local field potentials were acquired using a CED Micro1401-4 data acquisition unit at a sampling rate of 1 kHz, with signals low-pass filtered at 100 Hz.

All analyses described in the accompanying manuscript were performed in MATLAB R2023b. The dataset supports replication of the published results, including time–frequency spectrogram generation, cluster-based permutation testing, power spectral density (PSD) analyses across early (0–250 ms) and late (250–750 ms) post-stimulus windows, and regression analyses relating stimulus intensity to LFP power within defined frequency bands.

3. Repository Structure

Each major data category for each mouse is stored in a separate compressed archive.

Except for the consolidated Animal_Datasheets.zip, each archive corresponds to a single experimental subject.

File names within each archive follow standardized conventions described in Section 4.

4. Archive Contents and File Naming Conventions

4.1 Behavioral Session Results

Each behavioral session dataset is stored within an archive named according to the convention AnimalName_Behavioral_Session_Results.zip.

Within each archive, two types of text files are included for every behavioral session: a session results file and a session settings file.

The session results files follow the naming pattern of AnimalName_SessionDate_session_results[_SessionNumber].txt, while the session settings files follow the corresponding pattern AnimalName_SessionDate_session_settings[_SessionNumber].txt.

Each results-settings pair represents a single behavioral session.

If multiple sessions were conducted on the same day, the ordinal value appended as _SessionNumber distinguishes them. For the first session of each day, this identifier is omitted.

4.1.1 Session Results (.txt)

The session results files are tab-delimited text tables in which each row represents a single behavioral trial and each column corresponds to a recorded variable or parameter.

These files can be opened using most standard spreadsheet or data-analysis programs, including Microsoft Excel, LibreOffice Calc, MATLAB, or R.

The table below summarizes the key variables contained within the session results files and provides brief descriptions and examples of their contents:

4.1.2 Session Settings (.txt)

The session settings files contain newline-delimited key–value pairs that specify the parameters used to configure each behavioral session. These parameters define how the session was administered, including the task type, reward limits, and maximum duration. The files can be opened and read in any text editor or parsed programmatically using standard data-processing tools.

The table below summarizes the principal parameters included in the session settings files, along with brief descriptions and representative examples:

4.1.3 List of All Associated Archives

• Alluring_Siren_Behavioral_Session_Results.zip
• Ambassador_Oak_Behavioral_Session_Results.zip
• Breathless_Knight_Behavioral_Session_Results.zip
• Charmbreaker_Devil_Behavioral_Session_Results.zip
• Cramped_Bunker_Behavioral_Session_Results.zip
• Cunning_Lethemancer_Behavioral_Session_Results.zip
• Downhill_Charge_Behavioral_Session_Results.zip
• Drogskol_Reaver_Behavioral_Session_Results.zip
• Fart_Mouse_Behavioral_Session_Results.zip
• Filigree_Familiar_Behavioral_Session_Results.zip
• Gearshift_Ace_Behavioral_Session_Results.zip
• Geyserfield_Stalker_Behavioral_Session_Results.zip
• Grim_Flayer_Behavioral_Session_Results.zip
• Harvest_Season_Behavioral_Session_Results.zip
• Humble_Budoka_Behavioral_Session_Results.zip
• Impelled_Giant_Behavioral_Session_Results.zip
• Jade_Guardian_Behavioral_Session_Results.zip
• Jirana_Kudro_Behavioral_Session_Results.zip
• Kessig_Naturalist_Behavioral_Session_Results.zip
• Killer_Service_Behavioral_Session_Results.zip
• Lathnu_Hellion_Behavioral_Session_Results.zip
• Lore_Drakkis_Behavioral_Session_Results.zip
• Molten_Tributary_Behavioral_Session_Results.zip
• Neurok_Transmuter_Behavioral_Session_Results.zip
• Oakgnarl_Warrior_Behavioral_Session_Results.zip
• Phantasmagorian_Behavioral_Session_Results.zip
• Reliquary_Tower_Behavioral_Session_Results.zip
• Serum_Sovereign_Behavioral_Session_Results.zip
• Setessan_Skirmisher_Behavioral_Session_Results.zip
• Simic_Fluxmage_Behavioral_Session_Results.zip
• Tangled_Kelp_Behavioral_Session_Results.zip
• Voldaren_Thrillseeker_Behavioral_Session_Results.zip

4.2 Spike2 Recordings

Each electrophysiological dataset is contained within an archive named according to the convention AnimalName_Spike2_Recordings.zip.

Within each archive, there are two files for every recording session: a data file (.smrx) and a corresponding settings file (.s2rx).

The data files follow the naming pattern AnimalName_SessionDate[_SessionNumber].smrx, while the settings files follow the corresponding pattern AnimalName_SessionDate[_SessionNumber].s2rx.

Each file pair represents a single recording session, and the optional _SessionNumber field is included only when multiple sessions occurred on the same day.

The .smrx data files contain multichannel recordings collected using Spike2 acquisition software. Each channel represents a specific signal source, as summarized in the table below.

Channels 1 and 4, 2 and 5, and 3 and 6 represent the same electrodes recorded after and before analog low-pass filtering, respectively.

The SigOut channel additionally records extended high and low pulses to mark key events, including the start of each session and transitions between behavioral states.

The .smrx and .s2rx files can be opened using the proprietary Spike2 software developed by Cambridge Electronic Design (CED).

For users seeking open-source alternatives, CED provides freely available MATLAB and Python libraries capable of reading and processing these file types, which can be downloaded at https://ced.co.uk/downloads/latestsoftware.

4.2.1 List of All Associated Archives

• Alluring_Siren_Spike2_Recordings.zip
• Ambassador_Oak_Spike2_Recordings.zip
• Breathless_Knight_Spike2_Recordings.zip
• Charmbreaker_Devil_Spike2_Recordings.zip
• Cramped_Bunker_Spike2_Recordings.zip
• Cunning_Lethemancer_Spike2_Recordings.zip
• Downhill_Charge_Spike2_Recordings.zip
• Drogskol_Reaver_Spike2_Recordings.zip
• Fart_Mouse_Spike2_Recordings.zip
• Filigree_Familiar_Spike2_Recordings.zip
• Gearshift_Ace_Spike2_Recordings.zip
• Geyserfield_Stalker_Spike2_Recordings.zip
• Grim_Flayer_Spike2_Recordings.zip
• Harvest_Season_Spike2_Recordings.zip
• Humble_Budoka_Spike2_Recordings.zip
• Impelled_Giant_Spike2_Recordings.zip
• Jade_Guardian_Spike2_Recordings.zip
• Jirana_Kudro_Spike2_Recordings.zip
• Kessig_Naturalist_Spike2_Recordings.zip
• Killer_Service_Spike2_Recordings.zip
• Lathnu_Hellionn_Spike2_Recordings.zip
• Lore_Drakkis_Spike2_Recordings.zip
• Molten_Tributary_Spike2_Recordings.zip
• Neurok_Transmuter_Spike2_Recordings.zip
• Oakgnarl_Warrior_Spike2_Recordings.zip
• Phantasmagorian_Spike2_Recordings.zip
• Reliquary_Tower_Spike2_Recordings.zip
• Setessan_Skirmisher_Spike2_Recordings.zip
• Serum_Sovereign_Spike2_Recordings.zip
• Simic_Fluxmage_Spike2_Recordings.zip
• Tangled_Kelp_Spike2_Recordings.zip
• Voldaren_Thrillseeker_Spike2_Recordings.zip

4.3 Histology Slides

Each set of histological images is contained within an archive named according to the format AnimalName_Histology_Slides.zip.

Within each archive, individual image files are labeled according to one of two naming conventions: either AnimalName_FileCreationDate_SliceRegion_SlideNumber or, in some cases, AnimalName_FileCreationDate_SlideNumber. Both formats reflect the labels written directly on the physical glass slides from which the images were derived.

In the first convention, the SliceRegion field identifies the approximate brain region or electrode site represented in the image. The following codes are used to indicate these regions:

Each image file, typically in .jpg, .png, or .tif format, contains up to eight coronal brain sections captured from a single glass slide.

The images were acquired using a Leica DM6 B microscope and stitched together using Leica’s LAS-X imaging software to create composite representations of electrode trajectories and surrounding anatomical structures.

All image files can be viewed using standard operating system image viewers. For users seeking open-source software, the program Oculante provides a lightweight, cross-platform alternative suitable for high-resolution image inspection.

4.3.1 List of All Associated Archives

• Alluring_Siren_Histology_Slides.zip
• Ambassador_Oak_Histology_Slides.zip
• Breathless_Knight_Histology_Slides.zip
• Charmbreaker_Devil_Histology_Slides.zip
• Cramped_Bunker_Histology_Slides.zip
• Cunning_Lethemancer_Histology_Slides.zip
• Downhill_Charge_Histology_Slides.zip
• Drogskol_Reaver_Histology_Slides.zip
• Fart_Mouse_Histology_Slides.zip
• Filigree_Familiar_Histology_Slides.zip
• Gearshift_Ace_Histology_Slides.zip
• Geyserfield_Stalker_Histology_Slides.zip
• Grim_Flayer_Histology_Slides.zip
• Harvest_Season_Histology_Slides.zip
• Humble_Budoka_Histology_Slides.zip
• Impelled_Giant_Histology_Slides.zip
• Jade_Guardian_Histology_Slides.zip
• Jirana_Kudro_Histology_Slides.zip
• Kessig_Naturalist_Histology_Slides.zip
• Killer_Service_Histology_Slides.zip
• Lathnu_Hellion_Histology_Slides.zip
• Lore_Drakkis_Histology_Slides.zip
• Molten_Tributary_Histology_Slides.zip
• Neurok_Transmuter_Histology_Slides.zip
• Oakgnarl_Warrior_Histology_Slides.zip
• Phantasmagorian_Histology_Slides.zip
• Reliquary_Tower_Histology_Slides.zip
• Setessan_Skirmisher_Histology_Slides.zip
• Simic_Fluxmage_Histology_Slides.zip
• Tangled_Kelp_Histology_Slides.zip
• Voldaren_Thrillseeker_Histology_Slides.zip

4.4 Animal Datasheets

All metadata and reference information for the experimental animals are contained within a single archive named Animal_Datasheets.zip.

Each file within this archive is an Excel workbook labeled according to the convention CreationDate_AnimalName_Data Sheets.xlsx, where CreationDate denotes the date on which the datasheet was first created. Each workbook corresponds to a single animal and contains three worksheets, entitled as follows:

• Head Post -> Head Stage Patch
• Water Restriction Weight
• Behavioral Session Data

These files can be opened in Microsoft Excel or any compatible spreadsheet program. For users preferring open-source software, LibreOffice offers full support for viewing and editing .xlsx files across major operating systems.

The purpose of each worksheet and the meaning of its columns are described below. In general, however, these files were only used as a means of taking notes and collected data that would be useful to later reference.

4.4.1 Worksheet: Head Post -> Head Stage Patch

This sheet documents how the animal’s head-mounted electrode connector (“head post”) is wired to the headstage preamplifiers used for recording local field potentials (LFPs). This page will allow users to determine which Spike2 LFP channel corresponds to each implanted brain region and to understand how each connector pin is used.

Each row corresponds to a single wire/pin on the patch cable. The columns are:

For interpretation of LFP channels, note that LFP1 is always connected to the auditory cortex (AUD), LFP3 is always connected to the centrolateral thalamic nucleus (CL), and LFP2 is connected to either the frontal association cortex (FRA) or the visual cortex (VIS), depending on which region was implanted in a given animal.

4.4.2 Worksheet: Water Restriction Weight

This sheet tracks daily weights, baseline weight changes, and water allocation for each animal during water restriction. It also includes derived fields related to reward volumes and the amount of supplemental water administered.

Each row corresponds to a single day of record. The columns are:

4.4.3 Worksheet: Behavioral Session Data

This sheet provides a session-level summary of behavioral performance, training stage, and derived metrics for each behavioral session. Each row corresponds to a single session for that animal.

The columns are:

In this worksheet, negative values or missing entries in accuracy-related fields (e.g. Catch Trial Accuracy) indicate that the measure is not valid or not defined for that particular session.

4.4.4 List of All Associated Archives

• Animal_Datasheets.zip

5. Usage and Reuse Notes

This dataset is intended to support a range of research and analytical applications related to sensory processing and neural dynamics. It enables full reproduction of the analyses presented in McGill et al. (2025), including the figures derived from spectral and event-related analyses of local field potentials.

Beyond replication, the data may be used to investigate event-related desynchronization (ERD) mechanisms across cortical and thalamic regions, to benchmark algorithms for signal processing and time–frequency analysis, or to develop automated pipelines for annotating neural and behavioral data.

6. Software and Viewing Recommendations

7. Licensing and Contact Information

This dataset is released under a CC0 Public Domain Dedication. All materials may be freely reused, redistributed, or adapted without restriction, provided that appropriate credit is given to the original authors and citation of the associated publication is included where possible.

Questions regarding the dataset’s structure, contents, or analysis procedures may be directed to the corresponding author listed in the accompanying PLOS ONE publication.

Data collection and analysis were conducted through the Yale Blumenfeld Laboratory. Additional acknowledgments and funding sources are detailed in the manuscript.

Notes for Users

This dataset provides an open foundation for exploring the neural mechanisms underlying auditory event-related desynchronization in mice. Researchers interested in cross-species comparisons of ERD, sensory processing, or thalamocortical dynamics are encouraged to reuse these data and to reference McGill et al. (2025) when doing so.