dandiarchive-dataset/s3://dandiarchive/dandisets/000471/draft/dandiset.jsonld

{"id":"DANDI:000471/draft","url":"https://dandiarchive.org/dandiset/000471/draft","name":"Identifying neurons required for visually-driven reward predictions in Drosophila.","about":[],"access":[{"status":"dandi:EmbargoedAccess","schemaKey":"AccessRequirements"}],"license":["spdx:CC-BY-4.0"],"version":"draft","@context":"https://raw.githubusercontent.com/dandi/schema/master/releases/0.6.4/context.json","citation":"Dias-Ferreira, Eduardo; Maimon, Gaby (2023) Identifying neurons required for visually-driven reward predictions in Drosophila (Version draft) [Data set]. DANDI archive. https://dandiarchive.org/dandiset/000471/draft","keywords":["Drosophila","associative learning","visual","appetitive","reward prediction","mushroom body","Kenyon cells"],"protocol":[],"schemaKey":"Dandiset","identifier":"DANDI:000471","repository":"https://dandiarchive.org","contributor":[{"name":"The Rockefeller University","roleName":["dcite:Affiliation"],"schemaKey":"Organization","identifier":"https://ror.org/0420db125","contactPoint":[],"includeInCitation":false},{"name":"Dias-Ferreira, Eduardo","email":"eferreira@rockefeller.edu","roleName":["dcite:Author","dcite:Conceptualization","dcite:ContactPerson","dcite:DataCollector"],"schemaKey":"Person","identifier":"0009-0008-3787-5456","affiliation":[{"name":"The Rockefeller University","schemaKey":"Affiliation","identifier":"https://ror.org/0420db125"},{"name":"Howard Hughes Medical Institute","schemaKey":"Affiliation","identifier":"https://ror.org/006w34k90"}],"awardNumber":"EMBO Long-Term Fellowship (ALTF 160-2014), Marie Curie Actions, European Comission. Mohapatra Fellowship in Vision Research at The Rockefeller University.","includeInCitation":true},{"url":"https://maimonlab.rockefeller.edu/","name":"Maimon, Gaby","email":"maimon@rockefeller.edu","roleName":["dcite:Author","dcite:Conceptualization","dcite:ContactPerson","dcite:Supervision"],"schemaKey":"Person","identifier":"0000-0003-1219-5856","affiliation":[{"name":"The Rockefeller University","schemaKey":"Affiliation","identifier":"https://ror.org/0420db125"},{"name":"Howard Hughes Medical Institute","schemaKey":"Affiliation","identifier":"https://ror.org/006w34k90"}],"includeInCitation":true},{"name":"Howard Hughes Medical Institute","roleName":["dcite:Affiliation","dcite:Funder"],"schemaKey":"Organization","identifier":"https://ror.org/006w34k90","contactPoint":[],"includeInCitation":false},{"name":"National Institutes of Health (NIH)","roleName":["dcite:Funder"],"schemaKey":"Organization","awardNumber":"1 R01 NS 121904-01"}],"dateCreated":"2023-04-03T16:05:28.189225+00:00","description":"This dataset presents the results of a hypothesis-driven screen to identify neurons in Drosophila that are necessary for visual learning in an appetitive conditioning paradigm. To achieve this, we silenced electrical activity in various subtypes of Kenyon cells using UAS-Kir(human) in a new, trial-based, visual learning paradigm in head-fixed Drosophila. During the experiment, small drops of sugar-water were delivered to the fly's proboscis in coordination with the presentation of a moving visual grating. We monitored the reflexive movements of the proboscis in anticipation of sugar-reward to follow the dynamics of conditioning for hundreds of trials. For more information about this dataset, including different download options and various raw/processed data formats, please contact Eduardo Dias-Ferreira and/or Gaby Maimon.","studyTarget":[],"assetsSummary":{"schemaKey":"AssetsSummary","numberOfBytes":0,"numberOfFiles":0},"schemaVersion":"0.6.4","ethicsApproval":[],"wasGeneratedBy":[],"relatedResource":[],"manifestLocation":["https://api.dandiarchive.org/api/dandisets/000471/versions/draft/assets/"]}