Protocorm-like bodies (PLBs) of Dendrobium candidum Wall. ex Lindl., orchid, were successfully cryopreserved using an encapsulation vitrification method. PLBs were precultured in liquid Murashige and Skoog (MS) medium containing 0.2 mg l -1 a-naphthalene acetic acid and 0.5 mg l -1 6-benzyladenine enriched with 0.75 M sucrose, and grown under continuous light (36 lmol m -2 s -1 ) at 25 ± 1°C for 5 days. PLBs were osmoprotected with a mixture of 2 M glycerol and 1 M sucrose for 80 min at 25°C and dripped in a 0.5 M CaCl 2 solution containing 0.5 M sucrose at 25 ± 1°C and left for 15 min to form Ca-alginate beads (about 4 mm in diameter). Then, these were dehydrated with a plant vitrification solution 2 (PVS 2 ) consisting of 30% (w/v) glycerol, 15% (w/v) ethylene glycol, and 15% (w/v) dimethyl sulfoxide in 0.5 M sucrose, pH 5.8, for 150 min at 0°C. Encapsulated and dehydrated PLBs were plunged directly into liquid nitrogen for 1 h. Cryopreserved PLBs were then rapidly re-warmed in a water bath at 40°C for 3 min and then washed with MS medium containing 1.2 M sucrose for three times at 10 min intervals. Within 60 days, plantlets with the cryopreserved PLBs developed normal shoots and roots, and without any observed morphological abnormalities, were obtained. The survival rate of encapsulated-vitrified PLBs was above 85%. Thus, this encapsulation-vitrification method was deemed promising for cryopreservation of PLBs of D. candidum.
Embryogenic calli of Dioscorea bulbifera L. were successfully cryopreserved using an encapsulationvitrification method. Embryogenic calli were cooled at 6°C for 5 days on solid MS medium (Murashige and Skoog 1962) containing 2 mg L -1 Kinetin (Kn), 0.5 mg L -1 a-naphthalene acetic acid (NAA) and 0.5 mg L -1 2,4-dichlorophenoxy-acetic acid (2,4-D). These were prior precultured on liquid basal MS medium enriched with 0.75 M sucrose at 25 ± 1°C for 7 days. Embryogenic calli were osmoprotected with a mixture of 2 M glycerol and 1 M sucrose for 80 min at 25°C and dropped in a 0.1 M CaCl 2 solution containing 0.4 M sucrose at 25 ± 1°C. After 15 min of polymerization, Ca-alginate beads (about 4 mm in diameter) were dehydrated for 150 min at 0°C in a PVS 2 solution [30% glycerol, 15% ethylene glycol, and 15% dimethyl sulfoxide (w/v)] containing 0.5 M sucrose. The encapsulated embryogenic calli were then plunged directly into LN (liquid nitrogen) for 1 h. After rapid thawing in a water bath (37°C; 2 min), the beads were washed 3 times at 10-min intervals in liquid basal MS medium containing 1.2 M sucrose. Following thawing, the embryogenic calli were transferred to fresh solid basal MS media supplemented with Kn 2 mg L -1 , 0.09 M sucrose and 0.75% (w/v) agar (embryoid induction medium) and cultured under light conditions of 12-h photoperiod with a light intensity of 36 lmol m -2 s -1 provided by white cool fluorescent tubes after a 2-day dark period at 25 ± 1°C. After 30 days, the embryoids developed from embryogenic calli were transferred to fresh solid basal MS media supplemented with Kn 2 mg L -1 , NAA 0.5 mg L -1 , 3% (w/v) sucrose and 0.75% (w/v) agar (regeneration medium). After 60 days, the embryogenic calli developed normal shoots and roots. No morphological abnormalities were observed after plating on the regeneration medium. The survival rate of encapsulated vitrified embryogenic callus reached over 70%. This encapsulation-vitrification method appears promising as a routine and simple method for the cryopreservation of Dioscorea bulbifera embryogenic callus.
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