Abstract
BackgroundCyanobacteria from the genus Microcystis can form large mucilaginous colonies with attached heterotrophic bacteria—their microbiome. However, the nature of the relationship between Microcystis and its microbiome remains unclear. Is it a long-term, evolutionarily stable association? Which partners benefit? Here we report the genomic diversity of 109 individual Microcystis colonies—including cyanobacteria and associated bacterial genomes—isolated in situ and without culture from Lake Champlain, Canada and Pampulha Reservoir, Brazil.ResultsWe identified 14 distinct Microcystis genotypes from Canada, of which only two have been previously reported, and four genotypes specific to Brazil. Microcystis genetic diversity was much greater between than within colonies, consistent with colony growth by clonal expansion rather than aggregation of Microcystis cells. We also identified 72 bacterial species in the microbiome. Each Microcystis genotype had a distinct microbiome composition, and more closely related genotypes had more similar microbiomes. This pattern of phylosymbiosis could be explained by co-phylogeny in only two out of the nine most prevalent associated bacterial genera, Roseomonas and Rhodobacter. These phylogenetically associated genera could enrich the metabolic repertoire of Microcystis, for example by encoding the biosynthesis of complementary carotenoid molecules. In contrast, other colony-associated bacteria showed weaker signals of co-phylogeny, but stronger evidence of horizontal gene transfer with Microcystis. These observations suggest that acquired genes are more likely to be retained in both partners (Microcystis and members of its microbiome) when they are loosely associated, whereas one gene copy is sufficient when the association is physically tight and evolutionarily long-lasting.ConclusionsWe have introduced a method for culture-free isolation of single colonies from nature followed by metagenomic sequencing, which could be applied to other types of microbes. Together, our results expand the known genetic diversity of both Microcystis and its microbiome in natural settings, and support their long-term, specific, and potentially beneficial associations.A9SU3YME_Rf3MWzGs5jm1TVideo
Highlights
Cyanobacteria from the genus Microcystis can form large mucilaginous colonies with attached heterotrophic bacteria—their microbiome
Genotypic diversity of Microcystis colonies in Lake Champlain and Pampulha Reservoir To study the relationship between Microcystis and its associated bacteria (AB) in natural settings, we sequenced 109 individual Microcystis colonies from 16 lake samples (82 colonies from Lake Champlain, Quebec, Canada and 27 from Pampulha Reservoir, Minas Gerais, Brazil; Supplementary Table 1)
Microcystis genomes recovered from the colonies have more than 90% completeness and less than 10% redundance based on a set of 139 single-copy core genes [33], except for M04BS1, which has 82.7% completeness (Supplementary Table 1), with an average genome size of 4.76 Mb
Summary
Cyanobacteria from the genus Microcystis can form large mucilaginous colonies with attached heterotrophic bacteria—their microbiome. Many cyanobacteria and eukaryotic algae grow in mucilaginous colonies surrounded by a zone, called the phycosphere, rich in cell exudates, where metabolites are exchanged between numerous microorganisms [2, 3]. In this microhabitat, the interactions between cyanobacteria and associated bacteria (AB) might include mutualism (with all partners benefitting), competition (with all partners competing for resources), antagonism (inhibiting one of the partners), commensalism (with one partner benefitting) and parasitism (with one partner benefitting at the expense of the other) [3,4,5]. Understanding the contributions of AB to cyanobacterial growth and toxin production has implications for our ability to predict and control harmful blooms
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
