동백나무 미숙배 배양으로부터 비정상 체세포배 형성과 식물체 재생

Anomalous somatic embryos formation and plant regeneration from the cultures of immature embryos of Camellia japonica L.

Embryogenic callus was induced from the cultures of immature embryos of Camellia japonica L. on Murashige & Skoog`s (MS) solid medium supplemented with 1 mg/L 2,4-dichlorophenoxy acetic acid (2,4-D), and then the embryogenic callus was proliferated on same medium for 4 weeks over. The embryogenic callus was sub-cultured on MS basal medium without 2,4-D to produce coyledonary stage of somatic embryo. The frequency (%) of somatic embryogenesis was 25.1%, and the majority of somatic embryos formed had a abnormal morphology with cupshaped cotyledon (48.3%), one cotyledon (12.6%), three cotyledons (9.4%), four cotyledons (1.9%), whereas was only normal morphology with two cotyledon (27.5%). When the somatic embryos with normal or abnormal cotyledons transfer to MS basal medium or ½ MS medium with/or without plant growth regulators (GA3, IBA) for regeneration, the frequency (%) of two-cotyledon embryos regenerated into plantlets was higher 11.1% than one cotyledon (0.0~8.3 %), three cotyledons (0.0~5.8%), four cotyledons (0.0%), cup-shaped (0.3~4.2%). These results demonstrated that the anomalous cotyledons of somatic embryos could caused to decrease the rate of plant regeneration.