ULTRASTRUCTURAL EVIDENCE FOR UPTAKE OF SILICON-CONTAINING SILICIC-ACID ANALOGS BY URTICA-PILULIFERA AND INCORPORATION INTO CELL-WALL SILICA

In natural environments the stinging nettle plant, Urtica pilulifera, bears stinging cells in which electron dense silica deposits occupy a significant volume of the cell wall. Plants were grown in hydroponic solutions with and without supplements of silicic acid, the chemical form of silicon available to biological systems to determine if this plant and the stinging cells will grow normally under conditions of silicon starvation. In separate experiments, several analogs of silicic acid were added as supplements to the hydroponic solution to determine whether silicic acid binding sites had detectably different specificities for the different molecular structures of the analogs. The analogs [(R-)nSi(-OH)m] have the following structures (R, n, m): (1)-H, 1, 3; (2)-CH3, 1, 3; (3)-CH3, 2, 2; (4)-CH3, 3, 1; (5)-CH2CH3, 1, 3; and (6)-C6H5, 1, 3. Electron microscopy was used as an assay for the uptake and incorporation of analogs into an electron dense silica-like product in the stinging cell wall. The results indicate that cell wall silica production occurred only when the analog contained at least three hydroxyl groups. The morphology and ontogeny of the plant was normal except for: 1, the appearance of green spots on the leaves when the analog contained two or more hydroxyl groups, and 2, total blockage of flowering by the two methyl derivative of silicic acid, (CH3)2Si(OH)2. © 1979 Springer-Verlag.