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Thursday Seminar: Polyploidy and the origins of novelty: impact of duplication on genomes and network evolution

Thursday, March 24, 2016
12:00 AM
1200 Chemistry

plants
Abstract
Ancient whole genome duplications (WGDs) are ubiquitous throughout the evolutionary history of higher eukaryotic lineages. These events have been hypothesized to be the basis for major evolutionary transitions, including the origin of novel traits in large species radiations across plants, fungi, protozoa, and animals. Repeated rounds of WGDs, or polyploid events, have been best documented among the flowering plants, and tend to be phylogenetically near the origin of speciose clades. However, the mechanism driving diversification remains poorly understood. We analyzed the impact of the two most recent WGDs in Arabidopsis on diversification rates and the origin of novel phenotypes. Phylogenetic analyses of these two WGDs show that both events occurred following mass extinction events. The origin of two novel classes of chemical defenses, indole and met- derived glucosinolates (i.e. mustard oils), are associated with duplicated regulatory and biosynthetic pathways that arose via WGDs. Our analyses suggest that the origin of these novel defense compounds spurred an evolutionary arms-race with insect herbivores, resulting in massive co-radiations of both the host plant and predatory insects.

Host: Professor Stephen Smith

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