Improved isolation method to establish axenic strains of Paramecium

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  • Ishida Masaki
    School of Science Education, Nara University of Education
  • Hori Manabu
    Division of Environmental Science and Engineering, Graduate School of Science and Engineering, Yamaguchi University

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  • Improved isolation method to establish axenic strains of <i>Paramecium</i>

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<p>Before aseptic isolation, two Paramecium strains with genome sequences compiled in ParameciumDB were rinsed with sterilized saline solution and were starved for 1 day in the same solution. After starvation, the cells were transferred to Klebsiella-dominant green barley infusion for two days to eliminate unknown bacteria of the bacterized culture to some degree. Then cells were processed using an aseptic isolation method combining two classical isolation methods: “tree” and “handwashing.” They were inoculated into the axenic medium. Asepsis of these cultures was examined using an agar plate test and PCR with universal primer for 16S rRNA gene. The maximum cell density of the axenic culture in both species increased linearly with the times of subculture increase. After adaptation to the axenic medium, the maximum cell density reached a plateau level: 3,000–4,000 cells/ml in P. multimicronucleatum and 14,000–15,000 cells/ml in P. tetraurelia. The generation times at the mid-log phase of growth were calculated as 14.2 and 12.2 h in P. multimicronucleatum and P. tetraurelia, respectively. In this study, egg yolk or the soybean lecithin was tested as a substitute for phosphatidylethanolamine, with fixing of the lipid/stigmasterol ratio at 80 : 1. Results show that the maximum cell density, equivalent to that obtained using phosphatidylethanolamine, was obtained using soybean lecithin. This report includes data demonstrating the percentage of cells in a reproductive stage of every axenic strain using DAPI.</p>

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