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Long-Term Heat Selection of the Coral Endosymbiont Cladocopium C1 acro (Symbiodiniaceae) Stabilizes Associated Bacterial Communities.

Patrick BuergerRuby T VanstoneJustin MaireMadeleine J H van Oppen
Published in: International journal of molecular sciences (2022)
Heat-tolerant strains of the coral endosymbiont, Cladocopium C1 acro (Symbiodiniaceae), have previously been developed via experimental evolution. Here, we examine physiological responses and bacterial community composition (using 16S rRNA gene metabarcoding) in cultures of 10 heat-evolved (SS) and 9 wild-type (WT) strains, which had been exposed for 6 years to 31 °C and 27 °C, respectively. We also examine whether the associated bacterial communities were affected by a three-week reciprocal transplantation to both temperatures. The SS strains had bacterial communities with lower diversities that showed more stability and lower variability when exposed to elevated temperatures compared with the WT strains. Amplicon sequence variants (ASVs) of the bacterial genera Labrenzia , Algiphilus , Hyphobacterium and Roseitalea were significantly more associated with the SS strains compared with the WT strains. WT strains showed higher abundance of ASVs assigned to the genera Fabibacter and Tropicimonas . We hypothesize that these compositional differences in associated bacterial communities between SS and WT strains also contribute to the thermal tolerance of the microalgae. Future research should explore functional potential between bacterial communities using metagenomics to unravel specific genomic adaptations.
Keyphrases
  • escherichia coli
  • copy number
  • heat stress
  • wild type
  • stem cells
  • gene expression
  • genome wide
  • mesenchymal stem cells
  • risk assessment
  • dna methylation
  • bone marrow
  • current status
  • study protocol
  • wastewater treatment