Abstract
Primary embryogenic callus ofDrosera rotundifolia and long-term cultured embryogenic callus ofZea mays possess a conspicuous extracellular matrix (ECM) around and between embryogenic cells. The structural arrangement of ECM depends on the developmental stage of the embryogenic cells. Single embryoid cells were covered with, and connected by net-like material. However, surface cells of young globular embryoids were covered with a coherent layer of ECM which forms bridges with net-like material between the cells which was gradually reduced to coarse strands. When protodermis was formed on the surface of globular embryoids, the ECM disappeared completely. The ECM network was never observed on the surface of heart- and torpedo-shaped embryoids. Safranine (especially 0.1%) stabilized the structure of ECM. Digestion with pronase E and proteinase K indicated that the ECM contains proteinaceous components. Similar developmental patterns of ECM were observed in dicotyledonous and monocotyledonous examples. The ECM represents a stable morphological structure even during long-term embryogenic culture in maize.
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