Description
Accession Number: GSE83804
Platform:
GPL14138: Illumina HiSeq 2000 (Harpegnathos saltator)
Organism: Harpegnathos saltator
Published on 2017-08-10
Summary:
Harpegnathos workers were induced to transition to reproductive gamergates and mRNA from their brains was sequenced to determine changes in gene expression at different time points (0, 6, 13, and 110 days after transition onset)
Overall Design:
Ants were removed from their original colony at d0 and placed in boxes lacking a dominant reproductive. Dueling was monitored and the top three individuals displaying the most dueling were collected 6 and 13 days later. Pre-transfer individuals (d0) and stable gamergates at d110 were also harvested. Whole brains (including optic lobes) were dissected and processed for RNA-seq.
Contact:
Name: Roberto Bonasio
Organization: University of Pennsylvania
Laboratory: Roberto Bonasio
Deparment: Cell and Developmental Biology
Address: 3400 Civic Center Blvd., 9th floor Philadelphia PA 19104 USA
Organization: GEO
Address: USA
Platform:
GPL14138: Illumina HiSeq 2000 (Harpegnathos saltator)
Organism: Harpegnathos saltator
Published on 2017-08-10
Summary:
Harpegnathos workers were induced to transition to reproductive gamergates and mRNA from their brains was sequenced to determine changes in gene expression at different time points (0, 6, 13, and 110 days after transition onset)
Overall Design:
Ants were removed from their original colony at d0 and placed in boxes lacking a dominant reproductive. Dueling was monitored and the top three individuals displaying the most dueling were collected 6 and 13 days later. Pre-transfer individuals (d0) and stable gamergates at d110 were also harvested. Whole brains (including optic lobes) were dissected and processed for RNA-seq.
Contact:
Name: Roberto Bonasio
Organization: University of Pennsylvania
Laboratory: Roberto Bonasio
Deparment: Cell and Developmental Biology
Address: 3400 Civic Center Blvd., 9th floor Philadelphia PA 19104 USA
Organization: GEO
Address: USA
| Date made available | 2017 |
|---|---|
| Publisher | Gene Expression Omnibus |