Litcius/Paper detail

Bacterial microbiome variation across symbiotic states and clonal lines in a cnidarian model

Ezra Curtis, Joanne Moseley, Riccardo Racicot, Rachel M. Wright

2023Frontiers in Marine Science10 citationsDOIOpen Access PDF

Abstract

Introduction Exaiptasia diaphana is a popular model organism for exploring the symbiotic relationship observed between cnidarians and their microsymbionts. While physiological roles of algal photosymbionts (Symbiodinaceae) are well studied, the contributions of bacterial communities are less defined in this system. Methods We investigated microbial variation between distinct parts of the body and symbiotic state across four genets held in identical environmental conditions using 16s rRNA gene amplicon sequencing. Results We found differentially abundant taxa between body part and symbiotic state that highlight the roles these bacteria may play in holobiont heterotrophy and nutrient cycling. Beta-diversity analysis revealed distinct communities between symbiotic states consistent with previous studies; however, we did not observe the presence of previously reported core microbiota. We also found community differences across clonal lines, despite years of identical rearing conditions. Conclusion These findings suggest the Exaiptasia bacterial microbiome is greatly influenced by host genetics and unpredictable environmental influences.

Topics & Concepts

BiologyHolobiontMicrobiomeSymbiosisEcologyMicrobial ecologyTaxonHost (biology)Amplicon sequencingEvolutionary biologyOrganism16S ribosomal RNAZoologyBacteriaGeneticsMarine and coastal plant biologyMicrobial Community Ecology and PhysiologyCoral and Marine Ecosystems Studies
Bacterial microbiome variation across symbiotic states and clonal lines in a cnidarian model | Litcius