Abstract
AbstractIn many freshwater habitats, green algae form intracellular symbioses with a variety of heterotrophic host taxa including several species of freshwater sponge. These sponges perform important ecological roles in their habitats, and the poriferan:green algae partnerships offers unique opportunities to study the evolutionary origins and ecological persistence of endosymbioses. We examined the association betweenEphydatia muelleriand its chlorophyte partner to identify features of host cellular and genetic responses to the presence of intracellular algal partners.Chlorella-likegreen algal symbionts were isolated from field-collected adultE. muelleritissue harboring algae. The sponge-derived algae were successfully cultured and subsequently used to reinfect aposymbioticE. muelleritissue. We used confocal microscopy to follow the fate of the sponge-derived algae after inoculating algae-freeE. muellerigrown from gemmules to show temporal patterns of symbiont location within host tissue. We also infected aposymbioticE. muelleriwith sponge-derived algae, and performed RNASeq to study differential expression patterns in the host relative to symbiotic states. We compare and contrast our findings with work in other systems (e.g., endosymbioticHydra) to explore possible conserved evolutionary pathways that may lead to stable mutualistic endosymbioses. Our work demonstrates that freshwater sponges offer many tractable qualities to study features of intracellular occupancy and thus meet criteria desired for a model system.
Publisher
Cold Spring Harbor Laboratory