Data from: Synchronized excitability in a network enables generation of internal neuronal sequences

Wang Y, Roth Z, Pastalkova E

Date Published: April 20, 2017

DOI: http://dx.doi.org/10.5061/dryad.j021s

 

Files in this package

Content in the Dryad Digital Repository is offered "as is." By downloading files, you agree to the Dryad Terms of Service. To the extent possible under law, the authors have waived all copyright and related or neighboring rights to this data. CC0 (opens a new window) Open Data (opens a new window)

Title Wang_et_al_eLife2016_data_part1
Downloaded 24 times
Description Summary The DRYAD data sets Wang_et_al_eLife2016_data contain neuronal data recorded by two 64-channel silicon probes from CA1 hippocampal regions of rats that were performing a delayed left/right arm alternation task. Some recordings were performed after medial septum inactivation (see Wang et al., Nature Neuroscience 2015 for details). The data structures include: • Wave-forms of putative spikes extracted from original raw broadband signals • LFPs (local field potentials) • Results of spike sorting • Information about the animal behavior during the experiment Data files Control conditions (before medial septum inactivation) Wang_et_al_eLife2016_data_part1.tar: A498-20120807-01_BehavElectrDataLFP.mat A498-20120809-01_BehavElectrDataLFP.mat A498-20120813-01_BehavElectrDataLFP.mat A498-20120815-01_BehavElectrDataLFP.mat A498-20120823-01_BehavElectrDataLFP.mat A498-20120827-01_BehavElectrDataLFP.mat
Download Wang_et_al_eLife2016_data_part1.tar (886.5 Mb)
Download README.pdf (31.75 Kb)
Details View File Details
Title Wang_et_al_eLife2016_data_part2.tar
Downloaded 31 times
Description Summary The DRYAD data sets Wang_et_al_eLife2016_data contain neuronal data recorded by two 64-channel silicon probes from CA1 hippocampal regions of rats that were performing a delayed left/right arm alternation task. Some recordings were performed after medial septum inactivation (see Wang et al., Nature Neuroscience 2015 for details). The data structures include: • Wave-forms of putative spikes extracted from original raw broadband signals • LFPs (local field potentials) • Results of spike sorting • Information about the animal behavior during the experiment Data files Control conditions (before medial septum inactivation) Wang_et_al_eLife2016_data_part2.tar: A543-20120412-01_BehavElectrDataLFP.mat A543-20120422-01_BehavElectrDataLFP.mat A543-20120425-01_BehavElectrDataLFP.mat A943-20120515-01_BehavElectrDataLFP.mat A943-20120521-01_BehavElectrDataLFP.mat A943-20120523-01_BehavElectrDataLFP.mat A943-20120526-01_BehavElectrDataLFP.mat
Download README.pdf (31.75 Kb)
Download Wang_et_al_eLife2016_data_part2.tar (898.4 Mb)
Details View File Details
Title Wang_et_al_eLife2016_data_part3
Downloaded 20 times
Description Summary The DRYAD data sets Wang_et_al_eLife2016_data contain neuronal data recorded by two 64-channel silicon probes from CA1 hippocampal regions of rats that were performing a delayed left/right arm alternation task. Some recordings were performed after medial septum inactivation (see Wang et al., Nature Neuroscience 2015 for details). The data structures include: • Wave-forms of putative spikes extracted from original raw broadband signals • LFPs (local field potentials) • Results of spike sorting • Information about the animal behavior during the experiment Data files Experimental conditions (after medial septum inactivation) Wang_et_al_eLife2016_data_part3.tar: A498-20120807-04_BehavElectrDataLFP.mat A498-20120809-05_BehavElectrDataLFP.mat A498-20120813-02_BehavElectrDataLFP.mat A498-20120815-03_BehavElectrDataLFP.mat A498-20120827-03_BehavElectrDataLFP.mat
Download README.pdf (31.75 Kb)
Download Wang_et_al_eLife2016_data_part3.tar (1.906 Gb)
Details View File Details
Title Wang_et_al_eLife2016_data_part4
Downloaded 19 times
Description Summary The DRYAD data sets Wang_et_al_eLife2016_data contain neuronal data recorded by two 64-channel silicon probes from CA1 hippocampal regions of rats that were performing a delayed left/right arm alternation task. Some recordings were performed after medial septum inactivation (see Wang et al., Nature Neuroscience 2015 for details). The data structures include: • Wave-forms of putative spikes extracted from original raw broadband signals • LFPs (local field potentials) • Results of spike sorting • Information about the animal behavior during the experiment Data files Wang_et_al_eLife2016_data_part4.tar: A543-20120412-03_BehavElectrDataLFP.mat A543-20120422-03_BehavElectrDataLFP.mat A543-20120425-02_BehavElectrDataLFP.mat A943-20120515-03_BehavElectrDataLFP.mat A943-20120521-03_BehavElectrDataLFP.mat A943-20120523-03_BehavElectrDataLFP.mat A943-20120526-03_BehavElectrDataLFP.mat
Download README.pdf (31.75 Kb)
Download Wang_et_al_eLife2016_data_part4.tar (1.968 Gb)
Details View File Details

When using this data, please cite the original publication:

Wang Y, Roth Z, Pastalkova E (2016) Synchronized excitability in a network enables generation of internal neuronal sequences. eLife 5:e20697. http://dx.doi.org/10.7554/elife.20697

Additionally, please cite the Dryad data package:

Wang Y, Roth Z, Pastalkova E (2016) Data from: Synchronized excitability in a network enables generation of internal neuronal sequences. Dryad Digital Repository. http://dx.doi.org/10.5061/dryad.j021s
Cite | Share
Download the data package citation in the following formats:
   RIS (compatible with EndNote, Reference Manager, ProCite, RefWorks)
   BibTex (compatible with BibDesk, LaTeX)

Search for data

Be part of Dryad

We encourage organizations to: