Comparative anatomy of embryogenic and non-embryogenic calli frompimpinella brachycarpa

Anatomical differences between embryogenic and non-embryogenic calli ofPimpinella brachycarpa were investigated by light microscopy and electron microscopy. Initial callus tissue emerged from expiants after 14 d of culturing. The embryogenie calli (EC) were firm, rather opaque, and light yellow in c...

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Bibliographic Details
Published in:Journal of plant biology = Singmul Hakhoe chi 2007-06, Vol.50 (3), p.344-350
Main Authors: Kim, Ki Woo, Kwack, Yurina, Kim, Sung Kyeom, Chun, Changhoo
Format: Article
Language:English
Subjects:
Callus
Cell walls
Clusters
Cytoplasm
Electron microscopes
Electron microscopy
Embryos
Friability
Light microscopy
Microscopy
Nuclei (cytology)
Optical microscopy
Ribosomes
Scanning electron microscopy
Somatic embryos
Transmission electron microscopy
Vacuoles
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Summary:Anatomical differences between embryogenic and non-embryogenic calli ofPimpinella brachycarpa were investigated by light microscopy and electron microscopy. Initial callus tissue emerged from expiants after 14 d of culturing. The embryogenie calli (EC) were firm, rather opaque, and light yellow in color. The cells usually formed small, compact clusters. Nonembryogenic calli (NEC), however, were friable, semitransparent, and yellow or gray. These formed relatively larger and loosely held clusters. Scanning electron microscopy showed that EC were composed of individual compact and spherical cells that were rather regular in size and approximately 20 µm long. All were tightly held together and appeared to organize globular embryos. In contrast, the NEC comprised elongated and loosely held cells that were approximately 50 µm long. Tubular and u-shaped NEC cells protruded irregularly, and were of varying heights along the cell aggregates. Transmission electron microscopy of the EC revealed typical eukaryotic cytoplasmic components, including nuclei, mitochondria, and vacuoles in the cytoplasm enclosed by an electron-transparent cell wall. Based on the numerous ribosomes within the cytoplasm, these cells appeared to be well-organized and metabolically active. The NEC cells were much larger and more highly vacuolated than those of the EC. In ultrathin sections, the former seemed to be almost devoid of other cellular contents except for plastids and nuclei. Furthermore, EC and NEC showed different regeneration capacities in their somatic embryo formation. Most EC produced hyperhydric somatic embryos, followed by normal somatic embryos; whereas only a few shooted or rooted somatic embryos arose from the NEC.
ISSN:1226-9239
1867-0725
DOI:10.1007/BF03030665