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Environmental pH signals the release of monosaccharides from cell wall in coral symbiotic alga.

Yuu IshiiHironori IshiiTakeshi KurohaRyusuke YokoyamaRyusaku DeguchiKazuhiko NishitaniJun MinagawaMasakado KawataShunichi TakahashiShinichiro Maruyama
Published in: eLife (2023)
Reef-building corals thrive in oligotrophic environments due to their possession of endosymbiotic algae. Confined to the low pH interior of the symbiosome within the cell, the algal symbiont provides the coral host with photosynthetically fixed carbon. However, it remains unknown how carbon is released from the algal symbiont for uptake by the host. Here we show, using cultured symbiotic dinoflagellate, Breviolum sp., that decreases in pH directly accelerates the release of monosaccharides, that is, glucose and galactose, into the ambient environment. Under low pH conditions, the cell surface structures were deformed and genes related to cellulase were significantly upregulated in Breviolum . Importantly, the release of monosaccharides was suppressed by the cellulase inhibitor, glucopyranoside, linking the release of carbon to degradation of the agal cell wall. Our results suggest that the low pH signals the cellulase-mediated release of monosaccharides from the algal cell wall as an environmental response in coral reef ecosystems.
Keyphrases
  • cell wall
  • cell surface
  • single cell
  • climate change
  • particulate matter
  • type diabetes
  • stem cells
  • human health
  • blood pressure
  • skeletal muscle
  • mass spectrometry
  • cell therapy