Identifying metabolic pathways for production of extracellular polymeric substances by the diatom Fragilariopsis cylindrus inhabiting sea ice

SN Aslam, J Strauss, DN Thomas, T Mock… - The ISME …, 2018 - academic.oup.com
The ISME journal, 2018academic.oup.com
Diatoms are significant primary producers in sea ice, an ephemeral habitat with steep
vertical gradients of temperature and salinity characterizing the ice matrix environment. To
cope with the variable and challenging conditions, sea ice diatoms produce polysaccharide-
rich extracellular polymeric substances (EPS) that play important roles in adhesion, cell
protection, ligand binding and as organic carbon sources. Significant differences in EPS
concentrations and chemical composition corresponding to temperature and salinity …
Abstract
Diatoms are significant primary producers in sea ice, an ephemeral habitat with steep vertical gradients of temperature and salinity characterizing the ice matrix environment. To cope with the variable and challenging conditions, sea ice diatoms produce polysaccharide-rich extracellular polymeric substances (EPS) that play important roles in adhesion, cell protection, ligand binding and as organic carbon sources. Significant differences in EPS concentrations and chemical composition corresponding to temperature and salinity gradients were present in sea ice from the Weddell Sea and Eastern Antarctic regions of the Southern Ocean. To reconstruct the first metabolic pathway for EPS production in diatoms, we exposed Fragilariopsis cylindrus, a key bi-polar diatom species, to simulated sea ice formation. Transcriptome profiling under varying conditions of EPS production identified a significant number of genes and divergent alleles. Their complex differential expression patterns under simulated sea ice formation was aligned with physiological and biochemical properties of the cells, and with field measurements of sea ice EPS characteristics. Thus, the molecular complexity of the EPS pathway suggests metabolic plasticity in F. cylindrus is required to cope with the challenging conditions of the highly variable and extreme sea ice habitat.
Oxford University Press
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