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Abstract
Cytological examination during somatic embryogenesis in Iris pumila L. and Iris setosa Pall, were performed using light and electron microscopy. The first sign of the cellular differentiation in the initial embryogenic callus (EC; stage 1) of both Iris species was the formation of short and elongated cell types. After the onset of embryogenesis, short cells divided producing a mass of densely packed meristematic cells, closely connected with numerous plasmodesmata. Further differentiation into globular embryos (GE) led to a loss of plasmodesmata and cell separation. In vacuolated elongated cells, cytoplasm was located near the wall and around the nucleus. In both cell types amyloplasts and small mitochondria with poorly developed crystae were abundant.
Cell of GE (stage 2) contained an increased number of mitochondria and plastids comparing to those from stage 1, indicating further differentiation. Thylakoids and starch grains were observed within the plastids, while the number of cristae within the mitochondria was increasing.
In cells of embryos with coleoptile (ECl) (stage 3), plastids differentiated into chloroplasts with thylakoids. In all stages of cell differentiation, short and long cisternae of endoplasmic reticulum with ribosomes were seen. Activity of dictyosomes was increased in stages 1 and 2, then reduced in stage 3.
Ultrastructure of EC cells was identical to that of proembryogenic cells, i.e. of early GE. Ultrastructural appearance of GE cells was identical in both Iris species, but evident, and increasing, differences in mitochondria and plastids were observed between GE and ECl embryos.The presence of bi-, three- and eight- cell proembryos demonstrates that they originate from a single cell in both Iris species.