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Illuminate the hidden: in vivo mapping of microscale pH in the mycosphere using a novel whole-cell biosensor.

Bi-Jing XiongChristian DusnyLin WangJens AppelKristin LindstaedtDietmar SchlosserHauke HarmsLukas Y Wick
Published in: ISME communications (2021)
The pH of an environment is both a driver and the result of diversity and functioning of microbial habitats such as the area affected by fungal hyphae (mycosphere). Here we used a novel pH-sensitive bioreporter, Synechocystis sp. PCC6803_peripHlu, and ratiometric fluorescence microscopy, to spatially and temporally resolve the mycosphere pH at the micrometre scale. Hyphae of the basidiomycete Coprionopsis cinerea were allowed to overgrow immobilised and homogeneously embedded pH bioreporters in an agarose microcosm. Signals of >700 individual cells in an area of 0.4 × 0.8 mm were observed over time and used to create highly resolved (3 × 3 µm) pH maps using geostatistical approaches. C. cinerea changed the pH of the agarose from 6.9 to ca. 5.0 after 48 h with hyphal tips modifying pH in their vicinity up to 1.8 mm. pH mapping revealed distinct microscale spatial variability and temporally stable gradients between pH 4.4 and 5.8 over distances of ≈20 µm. This is the first in vivo mapping of a mycosphere pH landscape at the microscale. It underpins the previously hypothesised establishment of pH gradients serving to create spatially distinct mycosphere reaction zones.
Keyphrases
  • high resolution
  • single cell
  • stem cells
  • quantum dots
  • cell proliferation
  • mesenchymal stem cells
  • nitric oxide
  • optical coherence tomography
  • mass spectrometry
  • protein kinase
  • pi k akt