Ontogenetic analysis of siliceous cell wall formation in Triparma laevis f. inornata (Parmales, Stramenopiles).

Triparma laevis f. inornata is a unicellular alga belonging to the Bolidophyceae, which is most closely related to diatoms. Like diatoms, T. laevis f. inornata has a siliceous cell wall. The cell wall of T. laevis f. inornata consists of four round plates (three shields and one ventral plate) and one dorsal and three girdle plates. But, unlike diatoms, T. laevis f. inornata cells can grow when concentrations of silica are depleted. We took advantage of this ability, using TEM to study the ontogeny of the siliceous plate, pattern center formation, and development. Two types of pattern centers (annulus and sternum) were observed in the early and middle stage of plate formation. During their formation, the annuli were initially crescent-shaped but eventually their ends fused to make a ring. Only outward silica deposition of the branching ribs occurred on the growing annulus until it became a ring, resulting in an unfilled circle inside the annulus. The pattern center of the shield plate was always an annulus, but in ventral plates both annulus and sternum were observed. The annuli and sterna in T. laevis f. inornata round plates were very similar to the annuli and sterna in diatom valves. These results suggested that the round plates of Parmales are homologous to diatom valves. This information on the plate ontogeny of T. laevis f. inornata provides new insights into the evolution of the siliceous cell wall in the Parmales and diatoms.

Effect of pamamycin-607 on secondary metabolite production by Streptomyces spp.

The effect of the aerial mycelium-inducing compound, pamamycin-607, on antibiotic production by several Streptomyces spp. was examined. Exposure to 6.6 µM pamamycin-607 stimulated by 2.7 fold the puromycin production by Streptomyces alboniger NBRC 12738, in which pamamycin-607 had first been isolated, and restored aerial mycelium formation. Pamamycin-607 also stimulated the respective production of streptomycin by S. griseus NBRC 12875 and that of cinerubins A and B by S. tauricus JCM 4837 by approximately 1.5, 1.7 and 1.9 fold. The antibiotic produced by Streptomyces sp. 91-a was identified as virginiamycin M(1), and its synthesis was enhanced 2.6 fold by pamamycin-607. These results demonstrate that pamamycin-607 not only restored or stimulated aerial mycelium formation, but also stimulated secondary metabolite production.