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@ARTICLE{Shebanova:819456,
      author       = {Shebanova, Anastasia and Ismagulova, Tatiana and
                      Solovchenko, Alexei and Baulina, Olga and Lobakova, Elena
                      and Ivanova, Alexandra and Moiseenko, Andrey and Shaitan,
                      Konstantin and Polshakov, Vladimir and Nedbal, Ladislav and
                      Gorelova, Olga},
      title        = {{V}ersatility of the green microalga cell vacuole function
                      as revealed by analytical transmission electron microscopy},
      journal      = {Protoplasma},
      volume       = {254},
      number       = {3},
      issn         = {0033-183X},
      address      = {Wien},
      publisher    = {Springer},
      reportid     = {FZJ-2016-05120},
      pages        = {1323–1340},
      year         = {2017},
      abstract     = {Vacuole is a multifunctional compartment central to a large
                      number of functions (storage, catabolism, maintenance of the
                      cell homeostasis) in oxygenic phototrophs including
                      microalgae. Still, microalgal cell vacuole is much less
                      studied than that of higher plants although knowledge of the
                      vacuolar structure and function is essential for
                      understanding physiology of nutrition and stress tolerance
                      of microalgae. Here, we combined the advanced analytical and
                      conventional transmission electron microscopy methods to
                      obtain semi-quantitative, spatially resolved at the
                      subcellular level information on elemental composition of
                      the cell vacuoles in several free-living and symbiotic
                      chlorophytes. We obtained a detailed record of the changes
                      in cell and vacuolar ultrastructure in response to
                      environmental stimuli under diverse conditions. We suggested
                      that the vacuolar inclusions could be divided into
                      responsible for storage of phosphorus (mainly in form of
                      polyphosphate) and those accommodating non-protein nitrogen
                      (presumably polyamine) reserves, respectively.},
      cin          = {IBG-2},
      ddc          = {570},
      cid          = {I:(DE-Juel1)IBG-2-20101118},
      pnm          = {582 - Plant Science (POF3-582)},
      pid          = {G:(DE-HGF)POF3-582},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000399037400017},
      doi          = {10.1007/s00709-016-1024-5},
      url          = {https://juser.fz-juelich.de/record/819456},
}