Drosophila Food-Associated Pheromones: Effect of Experience, Genotype and Antibiotics on Larval Behavior

6533b861fe1ef96bd12c502b

RESEARCH PRODUCT

Drosophila Food-Associated Pheromones: Effect of Experience, Genotype and Antibiotics on Larval Behavior

Jérôme Cortot Julien Thibert Jean-françois Ferveur Jean-pierre Farine

subject

0301 basic medicine melanogaster lcsh:Medicine [ SDV.BA ] Life Sciences [q-bio]/Animal biology Biochemistry Pheromones Larvae Antibiotics Medicine and Health Sciences insects lcsh:Science Animal Signaling and Communication Larva Multidisciplinary Insect Metamorphosis biology Animal Behavior Behavior Animal Ecology Antimicrobials communication Drosophila Melanogaster [SDV.BA]Life Sciences [q-bio]/Animal biology aggression sex-pheromones Drugs Animal Models Attraction Pupa Sex pheromone Larva courtship Neurosciences (Sciences cognitives)Drosophila Drosophila melanogaster Cues recognition Pupariation Research Article attraction Computer and Information Sciences Arthropoda Genotype Zoology Research and Analysis Methods Microbiology 03 medical and health sciences Model Organisms Invertebrate Zoology SEX-PHEROMONES;MELANOGASTER;AGGRESSION;COURTSHIP;COMMUNICATION;RECOGNITION;ATTRACTION;EVOLUTION;MUTATION;INSECTS Microbial Control evolution Animals Drosophila Sensory cue Pharmacology Behavior Metamorphosis Data Visualization lcsh:R fungi Organisms Biology and Life Sciences Pupae biology.organism_classification Zoologie des invertébrés Invertebrates Color Codes 030104 developmental biology Food Odorants lcsh:Q mutation Zoology Entomology Neuroscience Developmental Biology

description

International audience; Animals ubiquitously use chemical signals to communicate many aspects of their social life. These chemical signals often consist of environmental cues mixed with species-specific signals-pheromones-emitted by conspecifics. During their life, insects can use pheromones to aggregate, disperse, choose a mate, or find the most suitable food source on which to lay eggs. Before pupariation, larvae of several Drosophila species migrate to food sources depending on their composition and the presence of pheromones. Some pheromones derive from microbiota gut activity and these food-associated cues can enhance larval attraction or repulsion. To explore the mechanisms underlying the preference (attraction/repulsion) to these cues and clarify their effect, we manipulated factors potentially involved in larval response. In particular, we found that the (i) early exposure to conspecifics, (ii) genotype, and (iii) antibiotic treatment changed D. melanogaster larval behavior. Generally, larvae-tested either individually or in groups-strongly avoided food processed by other larvae. Compared to previous reports on larval attractive pheromones, our data suggest that such attractive effects are largely masked by food-associated compounds eliciting larval aversion. The antagonistic effect of attractive vs. aversive compounds could modulate larval choice of a pupariation site and impact the dispersion of individuals in nature.

year	journal	country	edition	language
2016-03-01

10.1371/journal.pone.0151451 https://hal-univ-bourgogne.archives-ouvertes.fr/hal-01394260