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metadata.yaml
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about: []
access:
- schemaKey: AccessRequirements
status: dandi:OpenAccess
assetsSummary:
approach:
- name: electrophysiological approach
schemaKey: ApproachType
- name: behavioral approach
schemaKey: ApproachType
dataStandard:
- identifier: RRID:SCR_015242
name: Neurodata Without Borders (NWB)
schemaKey: StandardsType
measurementTechnique:
- name: surgical technique
schemaKey: MeasurementTechniqueType
- name: multi electrode extracellular electrophysiology recording technique
schemaKey: MeasurementTechniqueType
- name: signal filtering technique
schemaKey: MeasurementTechniqueType
- name: analytical technique
schemaKey: MeasurementTechniqueType
- name: behavioral technique
schemaKey: MeasurementTechniqueType
- name: spike sorting technique
schemaKey: MeasurementTechniqueType
numberOfBytes: 23585285354
numberOfFiles: 179
numberOfSubjects: 18
schemaKey: AssetsSummary
species:
- identifier: http://purl.obolibrary.org/obo/NCBITaxon_10090
name: Mus musculus - House mouse
schemaKey: SpeciesType
variableMeasured:
- ElectricalSeries
- Units
- LFP
- ProcessingModule
- ElectrodeGroup
- BehavioralTimeSeries
citation: Chang, Yi-Ting; OConnor, Daniel H (2024) Rule-based modulation of a sensorimotor
transformation across cortical areas (Version draft) [Data set]. DANDI archive.
https://dandiarchive.org/dandiset/000232/draft
contributor:
- affiliation: []
email: ychang73@jhmi.edu
identifier: 0000-0001-5327-250X
includeInCitation: true
name: Chang, Yi-Ting
roleName:
- dcite:Author
- dcite:ContactPerson
schemaKey: Person
- affiliation: []
email: dan.oconnor@jhmi.edu
identifier: 0000-0002-9193-6714
includeInCitation: true
name: OConnor, Daniel H
roleName:
- dcite:Author
- dcite:ContactPerson
schemaKey: Person
- affiliation: []
email: luiz_tauffer@hotmail.com
includeInCitation: false
name: Tauffer, Luiz
roleName:
- dcite:Other
schemaKey: Person
- affiliation: []
email: ben.dichter@gmail.com
identifier: 0000-0001-5725-6910
includeInCitation: false
name: Dichter, Ben
roleName:
- dcite:Other
schemaKey: Person
- awardNumber: R01NS089652, 1R01NS104834-01
contactPoint: []
identifier: https://ror.org/01cwqze88
includeInCitation: false
name: National Institute of Health
roleName:
- dcite:Funder
schemaKey: Organization
url: http://www.nih.gov/
- awardNumber: S-2021-GR-045
contactPoint: []
identifier: https://ror.org/00kztt736
includeInCitation: false
name: The Kavli Foundation
roleName:
- dcite:Funder
schemaKey: Organization
url: http://www.kavlifoundation.org/
- contactPoint: []
includeInCitation: false
name: Ministry of Education of Taiwan
roleName:
- dcite:Funder
schemaKey: Organization
url: https://english.moe.gov.tw/mp-1.html
dateCreated: '2022-04-11T15:37:16.661978+00:00'
datePublished: '2024-05-10T20:38:21.534058+00:00'
description: 'Flexible responses to sensory stimuli based on changing rules are critical
for adapting to a dynamic environment. However, it remains unclear how the brain
encodes and uses rule information to guide behavior. Here, we made single-unit recordings
while head-fixed mice performed a cross-modal sensory selection task where they
switched between two rules: licking in response to tactile stimuli while rejecting
visual stimuli, or vice versa. Along a cortical sensorimotor processing stream including
the primary (S1) and secondary (S2) somatosensory areas, and the medial (MM) and
anterolateral (ALM) motor areas, single-neuron activity distinguished between the
two rules both prior to and in response to the tactile stimulus. We hypothesized
that neural populations in these areas would show rule-dependent preparatory states,
which would shape the subsequent sensory processing and behavior. This hypothesis
was supported for the motor cortical areas (MM and ALM) by findings that (1) the
current task rule could be decoded from pre-stimulus population activity; (2) neural
subspaces containing the population activity differed between the two rules; and
(3) optogenetic disruption of pre-stimulus states impaired task performance. Our
findings indicate that flexible action selection in response to sensory input can
occur via configuration of preparatory states in the motor cortex.'
ethicsApproval: []
id: DANDI:000232/draft
identifier: DANDI:000232
keywords: []
license:
- spdx:CC-BY-4.0
manifestLocation:
- https://api.dandiarchive.org/api/dandisets/000232/versions/draft/assets/
name: Rule-based modulation of a sensorimotor transformation across cortical areas
protocol: []
publishedBy:
endDate: '2024-05-10T20:38:21.534058+00:00'
id: urn:uuid:529780f0-9c17-4c42-bb25-1270fad99008
name: DANDI publish
schemaKey: PublishActivity
startDate: '2024-05-10T20:38:21.534058+00:00'
wasAssociatedWith:
- id: urn:uuid:0d89dcbb-dd6e-45d7-9237-3fed7d490cf3
identifier: RRID:SCR_017571
name: DANDI API
schemaKey: Software
version: 0.1.0
relatedResource:
- identifier: 10.5281/zenodo.11176244
name: 'Processed data for: Rule-based modulation of a sensorimotor transformation
across cortical areas'
relation: dcite:IsSupplementTo
repository: Zenodo
resourceType: dcite:Dataset
schemaKey: Resource
url: https://zenodo.org/records/11176244
- identifier: 10.1101/2023.08.21.554194
name: 'Preprint for: Rule-based modulation of a sensorimotor transformation across
cortical areas'
relation: dcite:IsSourceOf
repository: BioRxiv
resourceType: dcite:Preprint
schemaKey: Resource
url: https://www.biorxiv.org/content/10.1101/2023.08.21.554194v2
- identifier: '728394894'
name: 'Code for: Rule-based modulation of a sensorimotor transformation across cortical
areas'
relation: dcite:IsSupplementTo
repository: GitHub
resourceType: dcite:Software
schemaKey: Resource
url: https://github.com/YitingChang/cross_modal_task.git
- identifier: 12:RP92620
name: 'Paper for: Rule-based modulation of a sensorimotor transformation across
cortical areas'
relation: dcite:IsSourceOf
repository: eLife
resourceType: dcite:JournalArticle
schemaKey: Resource
url: https://elifesciences.org/reviewed-preprints/92620v1
repository: https://dandiarchive.org
schemaKey: Dandiset
schemaVersion: 0.6.2
studyTarget: []
url: https://dandiarchive.org/dandiset/000232/draft
version: draft
wasGeneratedBy: []