Alternative Genetic Foundations for a Key Social Polymorphism in Fire Ants

Alternative Genetic Foundations for a Key Social Polymorphism in Fire Ants

Kenneth G. Ross^a, Michael J. B. Krieger^a, and D. DeWayne Shoemaker^b
^a Department of Entomology, University of Georgia, Athens, Georgia 30602
^b Department of Entomology, University of Wisconsin, Madison, Wisconsin 53706

Corresponding author: Kenneth G. Ross, 413 Biological Sciences Bldg., University of Georgia, Athens, GA 30602-2603., kenross{at}uga.edu (E-mail)

Communicating editor: M. FELDMAN

Little is known about the genetic foundations of colony socialorganization. One rare example in which a single major geneis implicated in the expression of alternative social organizationsinvolves the presumed odorant-binding protein gene Gp-9 in fireants. Specific amino acid substitutions in this gene invariablyare associated with the expression of monogyny (single queenper colony) or polygyny (multiple queens per colony) in fireant species of the Solenopsis richteri clade. These substitutionsare hypothesized to alter the abilities of workers to recognizequeens and thereby regulate their numbers in a colony. We examinedwhether these same substitutions underlie the monogyny/polygynysocial polymorphism in the distantly related fire ant S. geminata.We found that Gp-9 coding region sequences are identical inthe polygyne and monogyne forms of this species, disprovingour hypothesis that one or a few specific amino acid replacementsin the protein are necessary to induce transitions in socialorganization in fire ants. On the other hand, polygyne S. geminatadiffers genetically from the monogyne form in ways not mirroredin the two forms of S. invicta, a well-studied member of theS. richteri clade, supporting the conclusion that polygyny didnot evolve via analogous routes in the two lineages. Specifically,polygyne S. geminata has lower genetic diversity and differentgene frequencies than the monogyne form, suggesting that thepolygyne form originated via a founder event from a local monogynepopulation. These comparative data suggest an alternative routeto polygyny in S. geminata in which loss of allelic variationat genes encoding recognition cues has led to a breakdown indiscrimination abilities and the consequent acceptance of multiplequeens in colonies.

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