Data from: Long-term social memory of mate copying in Drosophila melanogaster is localized in the mushroom bodies
Data files
Feb 07, 2025 version files 99.64 KB
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Data_RutLTM.xlsx
93 KB
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README.md
6.64 KB
Abstract
Long-term social memory (LTSM) is a key feature to elicit the cultural inheritance of behaviour independently of genetics. However, the neurobiological basis of LTSM remains largely unknown. We previously used the Drosophila animal model, which is known to perform mate copying through observational learning of the mate choice of conspecifics to show that the expression of the rutabaga gene, a calcium/calmodulin-dependent adenylyl cyclase (AC-Rut+) that acts as a coincidence detector enabling associative learning, is necessary and sufficient in the γ-Kenyon cells (KCs) of the mushroom bodies (MBs). Here, we show that the expression of AC-Rut+ in both the g- and the a/b-KCs is required for LTSM involving de novo protein synthesis in a mate-copying context, whether using demonstrations involving real flies or involving pictures of copulating conspecifics. Thus, pathways of short- and long-term memory show considerable overlap in the MBs across social vs asocial learning contexts.
https://doi.org/10.5061/dryad.gxd2547xf
Description of the data and file structure
Data from: “Long-term social memory of mate copying in Drosophila melanogaster is localized in the mushroom bodies”
by Sabine Nöbel, Etienne Danchin & Guillaume Isabel
Contacts
Sabine Nöbel sabine.noebel@zoologie.uni-halle.de
Etienne Danchin etienne.danchin@univ-tlse3.fr
Guillaume Isabel guillaume.isabel@univ-tlse3.fr
Files and variables
File: Data_RutLTM.xlsx
Description:
To study the formation of long-term social memory in Drosophila melanogaster, we used a training protocol with 5 repeated demonstrations. To identify the neurons involved, we used different Gal4 driver lines specific for MB neurons and rutabaga mutants that show a learning deficit in the absence of rutabaga protein. By specifically expressing the protein in certain groups of neurons, we were able to determine which neurons are essential for the formation of long-term social memory.
Variables:
| Variable name | Levels | Explanation |
|---|---|---|
| dateD | Day of the demonstration | |
| timeD | Time of the demonstration | |
| demoType | Live | Demonstration with living flies |
| Foto | Demonstration with pictures | |
| PicID | Picture identification number | |
| block | Indicates which trials were performed at the same time | |
| treatment | Genotype of the observer female | |
| 7 | rut/rut; C739/+ | |
| 8 | rut/rut; C739/UAS-rut+ | |
| 9 | rut/rut; NP1131/+ | |
| 10 | rut/rut; NP1131/UAS-rut+ | |
| 11 | +/+; C739/+ | |
| 12 | +/+; NP1131/+ | |
| 16 | rut/rut;; MB247/+ | |
| 17 | rut/rut; UAS-rut/+; MB247/+ | |
| 18 | +/+;; MB247/+ | |
| 19 | Wild type (WT +/+) fed with cycloheximide (CXM) | |
| 20 | Wild type (WT +/+) | |
| neurons | alpha/beta | Group of neurons addressed in the Mushroom bodies |
| gamma | ||
| alpha/beta+gamma | ||
| temp | Room temperature [°C] | |
| humidity | Humidity in the room [%] | |
| AP | Air pressure [hPa] | |
| ColChosenD | Male color copulating in the demonstration | |
| G | Green | |
| P | Pink | |
| dateT | Day of the test | |
| timeT | Time of the test | |
| ColCourt1 | Male color that started the 1. courtship | |
| G | Green | |
| P | Pink | |
| ColCourt2 | Male color that started the 2. courtship | |
| G | Green | |
| P | Pink | |
| ColChosenT | Male color copulating in the test | |
| G | Green | |
| P | Pink | |
| MCS | Mate-copying scores | |
| 0 | Observer female chose to copulate with the opposite color as the demonstrator female | |
| 1 | Observer female chose to copulate with the same color as the demonstrator female |
We did behavioral observations of fruit fly mate choice decisions using different observer female genotypes to identify the formation of long-term memory.