Abstract
Corals house a variety of microorganisms which they depend on for their survival, including endosymbiotic dinoflagellates (Symbiodiniaceae) and bacteria. While cnidarian–microorganism interactions are widely studied, Symbiodiniaceae–bacteria interactions are only just beginning to receive attention. Here, we describe the localization and composition of the bacterial communities associated with cultures of 11 Symbiodiniaceae strains from nine species and six genera. Three-dimensional confocal laser scanning and electron microscopy revealed bacteria are present inside the Symbiodiniaceae cells as well as closely associated with their external cell surface. Bacterial pure cultures and 16S rRNA gene metabarcoding from Symbiodiniaceae cultures highlighted distinct and highly diverse bacterial communities occur intracellularly, closely associated with the Symbiodiniaceae outer cell surface and loosely associated (i.e., in the surrounding culture media). The intracellular bacteria are highly conserved across Symbiodiniaceae species, suggesting they may be involved in Symbiodiniaceae physiology. Our findings provide unique new insights into the biology of Symbiodiniaceae.
Highlights
All eukaryotes associate with symbiotic bacteria [1,2,3], and unicellular algae are no exception
Through threedimensional confocal laser scanning microscopy (CLSM) and scanning electron microscopy (SEM) on long-term cultures of six genera, we provide unequivocal evidence that bacteria are present inside Symbiodiniaceae cells, as well as on the cell’s exterior
We show the occurrence of three different classes within, and outside, Symbiodiniaceae cells: Alpha- and Gammaproteobacteria, and Flavobacteriia
Summary
All eukaryotes associate with symbiotic bacteria [1,2,3], and unicellular algae are no exception. Algae–bacteria associations are widespread in the marine environment, including the pelagic zone [4, 5] and coral reefs [6]. Extensive interactions in the phycosphere, an extracellular boundary layer composed of algal exudates, These authors contributed : Justin Maire, Sam K.
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