Genetic Engineering and Society Center

GES Colloquium - Tuesdays 12-1PM (via Zoom) NC State University | http://go.ncsu.edu/ges-colloquium GES Mediasite - See videos, full abstracts, speaker bios, and slides https://go.ncsu.edu/ges-mediasite Twitter - https://twitter.com/GESCenterNCSU

Coral reefs worldwide are suffering mass mortality due to elevated sea temperatures. Corals die from starvation after they expel their algal nutritional symbionts in a process referred to as bleaching. With evidence that the algal symbionts are more sensitive to heat than corals, we hypothesized that increasing heat tolerance in the symbionts could prevent bleaching of the coral hosts. Using assisted evolution, we artificially selected for heat tolerance over 4 years in 10 clonal strains of a common algal symbiont species. All selected strains became more heat tolerant, but only 3 conferred bleaching tolerance to their coral host in symbiosis. All selected strains also secreted less reactive oxygen species, but the 3 conferring bleaching tolerance also exhibited higher constitutive expression of genes involved in carbon fixation. The genome sequences of one heat-tolerant strain (SS08) that conferred bleaching tolerance was compared to two heat-tolerant strains (SS03, SS05) that did not, and to the heat-sensitive wild type (WT). Single nucleotide polymorphisms (SNPs) were observed at 190 loci. The mutations in the heat-evolved strains were clustered into particular regions of the genome. Strains SS03 and SS05 followed very similar evolutionary trajectories, and showed low levels of within-strain polymorphism. Strain SS08 followed a very different evolutionary trajectory with much lower divergence from the wild type, and retained much more polymorphism than the other two adapted strains. These findings show that bleaching resistant coral stock can be developed through laboratory-based adaptation of their microalgal symbionts

Links & Resources - P. Buerger, C. Alvarez-Roa, C. W. Coppin, S. L. Pearce, L. J. Chakravarti, J. G. Oakeshott, O. R. Edwards and M. J. H. van Oppen. Heat-evolved microalgal symbionts increase coral bleaching tolerance. Science Advances 13 May 2020: Vol. 6, no. 20, eaba2498. DOI: 10.1126/sciadv.aba2498. https://advances.sciencemag.org/content/6/20/eaba2498

Guest Speaker

Dr. Owain Edwards (@CSIRO) leads the Environment & Biocontrol Domain of CSIRO’s Future Science Platform in Synthetic Biology (Commonwealth Scientific and Industrial Research Organisation in Australia). Within this platform, Dr Edwards oversees the application of synthetic biology technologies for bioremediation, genetic control of pest and invasive species, and engineering resilience to environmental change.

GES Center -  Integrating scientific knowledge & diverse public values in shaping the futures of biotechnology.

Find out more at https://ges-center-lectures-ncsu.pinecast.co