Long-Read Sequencing Unlocks New Insights into the Amphidinium carterae Microbiome

Mar Drugs. 2024 Jul 27;22(8):342. doi: 10.3390/md22080342.

Abstract

Dinoflagellates are one of the largest groups of marine microalgae and exhibit diverse trophic strategies. Some dinoflagellates can produce secondary metabolites that are known to be toxic, which can lead to ecologically harmful blooms. Amphidinium carterae is one species of dinoflagellate that produces toxic compounds and is used as a model for dinoflagellate studies. The impact of the microbiome on A. carterae growth and metabolite synthesis is not yet fully understood, nor is the impact of bacterial data on sequencing and assembly. An antibiotic cocktail was previously shown to eliminate 16S amplification from the dinoflagellate culture. Even with drastically reduced bacterial numbers during antibiotic treatment, bacterial sequences were still present. In this experiment, we used novel Nanopore long-read sequencing techniques on A. carterae cultures to assemble 15 full bacterial genomes ranging from 2.9 to 6.0 Mb and found that the use of antibiotics decreased the percentage of reads mapping back to bacteria. We also identified shifts in the microbiome composition and identified a potentially deleterious bacterial species arising in the absence of the antibiotic treatment. Multiple antibiotic resistance genes were identified, as well as evidence that the bacterial population does not contribute to toxic secondary metabolite synthesis.

Keywords: dinoflagellate; long-read sequencing; microbiome; secondary metabolites.

MeSH terms

  • Anti-Bacterial Agents* / pharmacology
  • Bacteria / drug effects
  • Bacteria / genetics
  • Bacteria / metabolism
  • Dinoflagellida* / genetics
  • Genome, Bacterial*
  • Microbiota*

Substances

  • Anti-Bacterial Agents

Grants and funding

This research was funded by the Vetlesen foundation and the IMET Angel Investor Program.