Fine structure of protonemal apical cells of the mossPhyscomitrium turbinatum

Summary Elongating caulonemal apical cells of the mossPhyscomitrium turbinatum were cultivatedin vitro and observed during successive stages of cell elongation and division. Actively-growing cells which had completed approximately half of their growth in length were examined by electron microscopy. The distribution of many organelles changes progressively from the cell tip to the distal edge of the large basal vacuole, establishing an apical-basal gradient in organization. Whereas the vacuoles become progressively more extensive in more mature parts of the cell, the dictyosomes, chloroplasts and smooth endoplasmic reticulum are more numerous in younger regions. Some mitochondria in the younger regions of the cell contain localized areas of membrane invagination. Attempts were made to clarify the origin and growth of vacuoles, which become increasingly prominent as the apical cell elongates.Morphological evidence suggests that vacuoles arise in close association with endoplasmic reticulum and dictyosomes as a result of ER dilation and/or cytoplasmic sequestration. The number of vacuolar profiles is highest at the cell tip, decreasing progressively toward the base of the cell, Conversely, the mean area of vacuolar profiles increases progressively toward more basal regions of the cell. These features, along with the increasing number of closely grouped vacuolar profiles along an apical-basal gradient are compatible with the concept of vacuolar growth by coalescence, culminating in their union with the basal vacuole.