• Journal of Korean Society of Forest Science
• /
• v.71 no.1
• /
• pp.45-49
• /
• 1985

Protoplast-source meterial and enzyme strength had a significant influence on protoplast yield from hybrid poplar, Populus alba ${\times}$ P. grandidentata. The yield of protoplasts from in vitro culture of 1 month-old plantlets was more than that from greenhouse grown 4 month-old stock plant. In vitro cultured plantlets regulary produced more viable protoplasts with E-I enzyme solution (0.5% cellulase and 0.1% macerase) than those with E-II enzyme solution (1.0% cellulase and 0.2% macerase) after overnight incubation. The mean yield of protoplasts from in vitro cultured plantlets was $4{\times}10^6$ with E-I enzyme solution. Cell division was observed in these protoplast cultures after 7-10 days. Protoplast-derived hybrid poplar cells survived over 3 weeks in culture and some continuous cell divisions were evident. Other aspects associated with protoplasts from in vitro cultured plantlet are also discussed.

• Korean Journal of Plant Tissue Culture
• /
• v.28 no.3
• /
• pp.153-157
• /
• 2001

Protoplasts were isolated from hypocotyls, cotyledons, and young leaves of Chinese cabbage grown under in vitro environmental condition. An enzyme mixture of 1% Cellulysin and 0.5% Macerozyme in combination with 0.4 M mannitol was most effective condition for protoplast isolation. The highest yield of protoplasts, 7.6$\times$10$^{5}$ protoplast/g of fresh weight, was obtained from the treatment of leaves for 12~16 hours at 27~28$^{\circ}C$ with shaking at 30 rpm. The most suitable medium for an initial cell division was K8p basal medium supplemented with 5 mg/L 2,4-D and 2 mg/L kinetin. Within 7~10 days, protoplasts derived from hypocotyl and cotyledon tissues formed cell colonies. When the cells were grown at the size of 8~10 cells, they were embedded into semi-solid medium containing 0.2% agarose. Calli derived from protoplast culture were transferred to the 100 different types of plant regeneration media, but no completely regenerated plants from inbred lines of Chinese cabbage used for this study wore obtained, though frequent rooting took place in several media tested.

• Korean Journal of Plant Tissue Culture
• /
• v.28 no.3
• /
• pp.141-146
• /
• 2001

Protoplasts were isolated from cotyledons, hypocotyls, and mesophyll tissues of three species of Capsicum species (C. anuumm, C. bacatuum, and C. chacoense). Combination of Cellulysin (1%) and Macero-zyme (0.25%) in 0.65 M sorbitol was found to be the most effective for the digestion of cell wall, regardless of the Capsicum species. Antioxidant MES (2-［N-Morpholino］ethanesulfonic acid) in the enzyme solution helped protoplasts overcome browning. After 5 days of initial culture, Cell division occurred in modified K8p medium containing 1~5 mg/L zeatin, 0.5 mg/L IAA, 0.1~0.5 mg/L TDZ, and 1 mg/L 2,4-D under continuous dark condition at $25^{\circ}C$. Semi-solid agarose culture method was more effective than liquid culture, and it also protected the cells from browning caused by polyphenolic compound released during protoplast culture. A total of 4000 calli were obtained from protoplast culture of different capsicum species. All of these calli were transferred to the 100 combinations of regeneration media using various plant growth regulators; TDZ, IAA, 2ip, BAP, NAA, and zeatin. These calli derived from protoplast of three species of capsicum were, however, not differentiated into shoots.

• Proceedings of the Ginseng society Conference
• /
• 1974.09a
• /
• pp.9-22
• /
• 1974

Unlike the tissue culture in animals and human being, in higher plants various parts of the plant are cultured for varied purposes, and they are named variously depending on which parts are used as explants or what purposes they are cultured for. Followings are some of the names of culture used frequently: organ culture, tissue culture, callus culture, single cell culture, meristem culture, mericlone culture, ovary culture, ovule culture, embryo culture, endosperm culture, anther culture, pollen culture, protoplast culture, etc.. As the names of the culture indicate, in some kinds of culture the explants used for culture are actually not tissues, but organs, single cells, or protoplasts. It seems, however, convenient to call all of the above-mentioned cultures grossly as tissue culture. Several kinds of tissue culture were attempted using Panax ginseng as material and some of the results were summarized below. 1. Callus culture After dormancy of the sed was broken, whole embryo or parts (hypocotyl, cotyledon and epicotyl) of partly grown embryo were cultured in the media supplemented with growth regulators. Rapid swelling occurred in a few weeks, but most of the swelling was observed only in the basal part of epicotyl, changes in the other parts of embryo appearing in much later stages. The swelling or increase in size, however, was resulted not from the divisions of cells, but from the mere expansion of cell. Real calli were formed about two months after inoculation of explants. Callus tissues developed from cortex, pith, and vascular bundle in the cases of hypo- and epicotyl, from mesophyl tissue in the case of cotyledon. Shoots developed more easily from cotyledons regardless of whether they are detached from or attached to the embryo proper. 2. Culture in the Knudson C medium When cotyledons, detached from or attached to the embryo proper, were cultured in the growth regulator-free Knudson C medium comprision only several kinds of mineral compounds and sucrose, shoot primordium or callus developed profusely and finally plantlets were produced directly from shoot primordium or indirectly through callus. In this medium epidermal cells as well as mesophyl cells of the cotyledon became meristematic and divided, changing into multinucleate cells or multicellular bodies, developing eventually into either shoot primordia or calli. 3. Anther culture Anthers were cultured in the media supplemented with various growth regulators applied singly or in combinations. Callus was formed mostly in the connective tissue of anther. Cells of anther wall layers changed in appearance, but no division occurred. Microspores of all stages in development were not changed, ruling out the possibility that microspore-originated callus might be formed. 4. Isolation of protoplast Protoplasts were isolated from young root, leaf, and epicotyl, using 0.7M D-mannitols as osmoticum and using macerozyme and cellulase respectively for maceration and digestion of the cell wall. Production in large number of naked intact protoplast was rather difficult as compared with other plant species. Fusion of protoplasts occurred infrequently mainly due to the fewer number of naked protoplasts in the solution.

• Korean Journal of Plant Tissue Culture
• /
• v.22 no.1
• /
• pp.7-11
• /
• 1995

Protoplasts were isolated from hypocotyl tissues of 5-day-old Brassica oleracea var capitata Green Challenger seedlings. Several media were used for protoplast culture and shoot regeneration. The shoot-regeneration rapacity of protoplast derived callus depended on the initial culture medium. Protoplasts were cultured in liquid medium (B5 medium supplemented with CaCl2, 2H2O 600mg/L, g1ucose 20g/L, D-mannito1 70g/L, NAA lmg/L, BA lmg/L, 2.4-D 0.25 mg/L)at 27$^{\circ}C$ under the dark After 5 to 10 days, cultlues were diluted with medium with a reduced osmotic stabilizer and then transferred to illuminated conditions. The culture medium was changed with the fresh medium at 7- to 10-day-intervals until the formation of microcallus. Hypocotyl protoplast-derived callus proliferated when transferred to MS medium supplemented with NAA lmg/L, BA 1mg/L and GA$_3$ 0.02mg/L. Upon transfer to MS basal medium without growth regulators, roots were produced. In an attempt to increase the regeneration frequency, 10g/L polyvinylpyrrolidone was added to the regeneration medium, but the shoot regeneration was mot improved. The regenerated whole plants were acclimated in a sterized soilless mixture(vermiculite 2;perlite 2;peat moss1) in a culture room.

• Journal of Plant Biology
• /
• v.36 no.3
• /
• pp.211-218
• /
• 1993

Plant regeneration was accomplished from protoplast culture of rice (Oryza sativa L. cv. Taebaeg). Embryogenic callus was induced from mature seed on MS medium containing 5 mM proline, 2.5 mg/L 2,4-D, 30 g/L sucrose in the dark at 28$^{\circ}C$ and used to establish embryogenic cell suspension culture. Suspension cells were subcultured every one week in N6 medium supplemented with 5 mM proline, 200 mg/L casein hydrolysate, 2.5 mg/L 2,4-D and amino acids of AA medium. Suspension cultures were composed of cells that were densely cytoplasmic, potentially embryogenic and were at least maintained for more than 6 months in liquid medium. Protoplasts were isolated from fast-growing suspension culture cells and cultured in a slightly modified KpR medium by mixed nurse culture. Isolated protoplasts began to divide within 5~7 days and thereafter, protoplast-derived calli were sequentially transferred to callus proliferating medium that soft agar MS medium contained 2 mg/L 2,4-D and produced distinct embryogenic cells. Microcolonies were then transferred to solid medium which consisted of MS medium containing 5 mg/L kinetin, 1 mg/L NAA, 1 mg/L ABA, 30 g/L sucrose and 10 g/L sorbitol under fluorescent light. Mulitple shoots of 4~5 per callus emerged and were transferred to hormone-free MS medium for root initiation. Thereafter, The plantlets were transferred to pots of soil to mature in the culture room.

• Journal of Plant Biology
• /
• v.29 no.1
• /
• pp.11-18
• /
• 1986

Protopasts were isolated from cultured cells of potato (Solanum tuberosum L.) tuber tissue. The ability of callus formation from the culture cells was higher in cultivars Dejima and Superior than in Shimabara and Irish Cobbler on Lam's medium. Therefore, the former was used as sources for protoplast isolation. Friable calli were transferred to liquid media and cells in exponential phase were used for protoplast isolation. In both of Dejima and Superior, the yield of protoplasts was high in the enzyme solution of 2% Onozuka cellulase and 1% macerozyme. Also, viability of isolated protoplasts was very good. Thus, it seems that these protoplasts would be applicable to various aims of research.

• Korean Journal of Plant Tissue Culture
• /
• v.22 no.5
• /
• pp.277-281
• /
• 1995

The present study was performed to investigate the effect of calcium ion on the mesophyll protoplast culture of Arabidopsis thaliana. The mesophyll protoplase were isolated and cultured on an IMH medium supplemented with CaCl$_2$of various concentrations. When the protoplasts were cultured on the medium containing 0 to 12.5 mM CaCl$_2$, extreme vacuolization occurred without cell division. When the protoplasts were cultured with higher levels of CaCl$_2$ up to 50 mM, vacuolization decreased dose-dependent): and the number of plasma-rich cells increased. Cell division was induced when the protoplast were cultured on the medium with CaCl$_2$ higher than 25 mM. The highest plating efficiency (5-6%) was obtained with 50 mM CaCl$_2$. However the plating efficiency was markedly inhibited by 100mM CaCl$_2$ or above. These resole suggest that the relatively high concentration (50 mM) of calcium ion may be required for the culture of protoplasts.

• Journal of Life Science
• /
• v.6 no.2
• /
• pp.94-103
• /
• 1996

To understand effect of inoculum size, cell density, sucrose concentration and concentrations of MS basal on suspension culture and protoplast isolation of wild viola(Viola patrinii DC.) callus from petiole segments this experiment was conducted. In the lot of 30 mesh inoculum size, two observations were; One was that a considerable increase in the fresh and dry weight of callus was determined. Another was that the callus mass was relatively compact compared with others. A recommendable cell density was 0.4g for 20ml culture medium and the higher sucrose concentration, the higher fresh and dry weight were obtained. The dilution of MS basal salt was differently affected on fresh and dry weight; the highest fresh weight was found in 1x MS salt, while the higest dry weight was in 1/3x dilution.The addition of casein hydrolysate(3g/L) was more effective to increase of both fresh and dry weight. THe contents of protein was great in the inoculum lots with larger inoculum sizeand higher concentration of MS basal salts contenting 3g/L of casein hydrolysate and higher sucrose compared with others. The greatest protoplasts were isolated from the lot of 10 mesh size treated with 1%pectinase SE-150 and 2% cellulase YC. In general, for optimal protoplast isolation the followingconditions were recommended; 1) Use of smaller cell size cultured for 2-5 weeks, and 2) more than 5 hours incubation using the combined mixture of the enzymes with proper concentrations.

• Korean Journal of Microbiology
• /
• v.21 no.3
• /
• pp.156-162
• /
• 1983

Conditions for effcient formation and regeneration of protoplasts of Micromonospora rosaria and Micromonospora purpurea were investigated. The state of inoculm, culture stage and growth in a medium containing partially growth-inhibiting concentration of glycing have significant effects on portoplasting. A high frequency of regeneration (up to 30%) was accomplished with a hypertonic regeneration agar medium defined by Okanishi for Strptomyces. Using the optimal conditions for protroplasting and regeneration, protoplast fusion of auxotrophic M.rosaria was carried out. Polyethylene glycol 1,000 was chosen for fusogenic agent. When signgle auxotrophs were used, the recombinant frequency of auxortrophic markers varied from 1.3 to 3.2%. Using two double auxotrophs, the recombinant frequencies of 0.7-4.3% were obtained. Much lower frequencies(three or more orders of magnitude) were observed by the conventional matings.