Evolutionary ecologist Amy Toth of Iowa State University, Ames, Iowa, will speak on "Molecular Evolution in Insect Societies: Insights from Genomics of Primitively Social Paper Wasps" at a seminar hosted Wednesday, May 13 by the UC Davis Department of Entomology and Nematology.
Toth, an assistant professor in the Department of Ecology, Evolution and Organismal Biology, Department of Entomology," will speak from 12:10 to 1 p.m. in 122 Briggs Hall.
"The evolution of highly cooperative, eusocial behavior from solitary ancestry represents one of the major transitions in the evolution of life," says Toth. "Thus, understanding the evolution of insect eusociality can provide important insights into the evolution of complexity. Recently, with the advent of the genomic era, there has been great interest in understanding the molecular underpinnings of social behavior and its evolution. Several hypotheses about how eusociality have been proposed; these ideas can be roughly divided into two camps—one proposes that eusociality involved new (novel, or rapidly evolving) genes, and the other, that old (deeply conserved) genes took on new functions via shifts in gene regulation."
In her seminar, Toth will provide an overview of recent research in her laboratory aiming to address the genomic basis of social evolution in insects, with a focus on gene expression. "Utilizing a comparative approach involving multiple species and lineages of bees and wasps, as well as de novo sequencing of genomes, transcriptomes, and epigenomes, our work aims to trace the types of genomic changes related to the evolutionary transition from solitary to eusocial behavior," she said.
Toth will present results from several lines of research mainly focused on primitively social Polistes paper wasps, that have led to the following insights:
- Relatively minor shifts in gene expression patterns may accompany earlier stages of social evolution
- Convergent evolution of social behavior in different lineages involves similar gene expression patterns in a small set of key pathways, and
- Epigenetic mechanisms such as DNA methylation are variable across species and evolutionarily labile.
"Although more data on additional solitary and social species, and on novel genes, are needed, the emerging picture is that earlier transitions from solitary to simple eusociality involved relatively small changes in gene expression and regulation," she said.
Toth said she is especially interested in the mechanisms and evolution of insect sociality, using paper wasps and honey bees as model systems.
Toth received her bachelor's degree in biology in 2006 from Bard College, Annandale-on-Hudson, New York and her doctorate in ecology and evolutionary biology in 2006 from the University of Illinois, Urbana-Champaign, where she was advised by major professor Gene Robinson. She did postdoctoral work with Christina Grozinger at Pennsylvania State University, where she was a USDA postdoctoral fellow. She focused on uncovering conserved molecular pathways for social insect reproduction and social behavior. Earlier she was a postdoctoral research associate with the Department of Entomology and Institute for Genomic Biology, University of Illinois, where she studied with advisor Gene Robinson. Her work centered on genomic analyses of insect social behavior.
Plans call for recording her seminar for later posting on UCTV.
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