Establishment of axenic endosymbiotic strains of Japanese Paramecium bursaria and the utilization of carbohydrate and nitrogen compounds by the isolated algae

Cells of the green paramecium, Paramecium bursaria, contain several hundred endosymbiont cells. The properties of the symbionts are considered to vary depending on the collection site of the host. Difficulties in achieving axenic cells and maintenance of axenic strains for long periods have been reported for symbiotic algae from P. bursaria isolated in Japan. To establish axenic algal strains from such Japanese P. bursaria, symbionts were isolated carefully, and isolated axenic strains were grown on an agar medium containing organic nitrogen compounds. Symbiotic algal strains were obtained from three Japanese P. bursaria strains and their axenicity was confirmed by DAPI staining, cultural tests of bacterial contamination, and DGGE-PCR. These axenic strains have been maintained for over 2 years. Utilization of carbohydrates and nitrogen compounds by symbionts was examined. Monosaccharides (glucose and fructose) increased the growth of the symbiont but disaccharides (maltose and sucrose) did not. Japanese axenic symbionts were able to use ammonia and amino acids, but not nitrate or nitrite. While potent nitrite reductase activity was stimulated by nitrate induction, nitrate reductase activity was not. Nitrate utilization of Japanese symbionts differed from that reported for European and American symbionts. (c) 2005 Elsevier GmbH. All rights reserved.