Identification of a Major Gene Regulating Complex Social Behavior
- 11 January 2002
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 295 (5553) , 328-332
- https://doi.org/10.1126/science.1065247
Abstract
Colony queen number, a major feature of social organization in fire ants, is associated with worker genotypes at the gene Gp-9. We sequenced Gp-9 and found that it encodes a pheromone-binding protein, a crucial molecular component in chemical recognition of conspecifics. This suggests that differences in worker Gp-9 genotypes between social forms may cause differences in workers' abilities to recognize queens and regulate their numbers. Analyses of sequence evolution indicate that regulation of social organization by Gp-9 is conserved in South American fire ant species exhibiting social polymorphism and suggest that positive selection has driven the divergence between the alleles associated with alternate social organizations. This study demonstrates that single genes of major effect can underlie the expression of complex behaviors important in social evolution.Keywords
This publication has 16 references indexed in Scilit:
- Do Pheromone Binding Proteins Converge in Amino Acid Sequence When Pheromones Converge?Journal of Molecular Evolution, 2000
- Major gene effects on phenotype and fitness: the relative roles of Pgm-3 and Gp-9 in introduced populations of the fire ant Solenopsis invictaJournal of Evolutionary Biology, 1999
- Queen Dispersal Strategies in the Multiple‐Queen Form of the Fire AntSolenopsis invictaThe American Naturalist, 1999
- Rapid evolution of a primate sperm protein: relaxation of functional constraint or positive Darwinian selection?Molecular Biology and Evolution, 1999
- Integrative animal behaviour and sociogenomicsTrends in Ecology & Evolution, 1999
- Genetic control of social organization in an antProceedings of the National Academy of Sciences, 1998
- ECOLOGY AND EVOLUTION OF SOCIAL ORGANIZATION: Insights from Fire Ants and Other Highly Eusocial InsectsAnnual Review of Ecology and Systematics, 1995
- PCR amplification of anEscherichia coligene using mixed primers containing deoxyinosine at ambiguous positions in degenerate amino acid codonsNucleic Acids Research, 1990
- The Molecular Basis of Pheromone Reception: Its Influence on BehaviorPublished by Elsevier ,1987
- Toward Defining the Course of Evolution: Minimum Change for a Specific Tree TopologySystematic Zoology, 1971