SysEB
Student Competition 10-Minute Paper
Erik Gobbo
Stockholm, SWE
Jack Hearn
Liverpool School of Tropical Medicine
Liverpool, England, United Kingdom
Nicolas Lartillot
Université de Lyon
Lyon, Auvergne, France
Graham Stone
University of Edinburgh
Edinburgh, Scotland, United Kingdom
yoshihisa Abe
Kyushu University
Fukuoka, Fukuoka, Japan
Christopher Wheat
Stockholm University
Stockholm, Stockholms Lan, Sweden
Tatsuya Ide
National Museum of Nature and Science, Tokyo
Tokyo, Tokyo, Japan
Fredrik Ronquist
Swedish Museum of Natural History
Stockholm, Stockholms Lan, Sweden
Gall wasps (Hymenoptera: Cynipidae) induce complex galls on oaks, roses and other plants, but the mechanism of gall induction is still unknown. Here we take a comparative genomic approach to revealing the genetic basis of gall-induction. We focus on Synergus itoensis, a species that induces galls inside oak acorns. Previous studies suggested that this species evolved the ability to initiate gall formation recently, as it is deeply nested within the genus Synergus, whose members are mostly inquilines that develop inside the galls of other species. We compared the genome of S. itoensis to that of three related Synergus inquilines to identify genomic changes associated with the origin of gall induction. We used a novel Bayesian selection analysis, which accounts for branch-specific and gene-specific selection effects, to search for signatures of selection in 7,600 single-copy orthologous genes shared by the four Synergus species. We found that the terminal branch leading to S. itoensis had more genes with elevated dN/dS ratio (Positive Signature Genes, PSGs) than the other terminal branches in the tree; the S. itoensis branch also had more genes with a significantly decreased dN/dS ratio. Gene set enrichment analysis showed that the PSG set of S. itoensis, unlike those of the inquiline species, is enriched in several biological process Gene Ontology terms, such as “Ovarian Follicle Cell Development”. Our results indicate that the origin of gall induction is associated with distinct genomic changes, and provide a good starting point for further characterization of the genes involved.