High plating efficiency and plant regeneration frequency in low density protoplast cultures derived from an embryogenic Brassica napus cell suspension

Protoplasts were isolated from an embryogenic cell suspension culture derived from microspores of Brassica napus cv. Jet Neuf. Protoplast yield varied with the cell suspension growth medium. Optimization of protoplast plating density, manipulation of culture medium, carbon source and medium matrix, and inclusion of Ficoll resulted in protoplast plating efficiencies close to 30%. Placement of the protoplasts close to the gas interface contributed greatly to the elevated plating efficiency. Low density cultures could be induced to regenerate calli at optimum plating efficiencies if grown in the presence of nurse culture. This is of great advantage for manipulation of individual protoplasts or for microinjection. Plants were regenerated directly from the cell suspension or from the protoplast cultures.Abbreviations BA N⁶-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - NAA naphthaleneacetic acid     

Somatic embryogenesis and plant regeneration from protoplasts isolated from embryogenic cell suspensions of wheat (Triticum aestivum L.)

We describe the early formation of somatic embryos followed by plant regeneration from protoplasts isolated from an embryogenic wheat cell suspension, which was initiated from small granular (0.2 to 1 mm in size) embryogenic calli. These granular calli formed embryogenic cell suspensions within 20 days in liquid culture, and were selected gradually from young inflorescence-derived nodular embryogenic calli of the winter wheat cv. Kehong 1041. The division frequency of protoplasts was 11 to 16%, and the frequency of differentiation into plants was about 0.001% (number of plants formed divided by the total number of protoplasts plated). About 20% of somatic embryos present in the culture formed directly from protoplast-derived cells within 15 days of cultures.     

Fertile indica and japonica rice plants regenerated from protoplasts isolated from embryogenic haploid suspension cultures

Summary A system to regenerate fertile rice (Oryza sativa L.) plants (both indica and japonica varieties) from protoplasts isolated from anther-derived embryogenic haploid suspension cultures has been established. Green plants were regenerated from protoplast-derived cell clusters five months after suspension culture initiation. Protoplast yields and subsequent growth of the protoplast-derived microcalli were enhanced by transferring suspension cells into AA medium (Muller et al. 1978) three to four days prior to protoplast isolation. Protoplasts were cultured initially in Kao medium (Kao et al. 1977) and in association with nurse cells for four weeks. Protoplast-derived microcalli were transferred onto N6 (Chu et al. 1975) or MS (Murashige and Skoog 1962) media for callus proliferation. Callus growth was more rapid and the calli were more enbryogenic when grown on N6 medium. The 2,4-D concentration used to develop the suspension culture was important. Cell cultures grown in medium containing 0.5 mg/l 2,4-D released protoplasts whose plating efficiency was higher than for protoplasts obtained from suspension cultures grown in 2.0 mg/l 2,4-D. However, suspension cells grown in 2.0 mg/l 2,4-D were superior with regard to the ability of protoplast-derived calli to regenerate green plants. Amongst several hormone treatments evaluated, a combination of 0.5 mg/l NAA + 5.0 mg/l BAP resulted in the largest number of green plants regenerated. There were no significant differences between BAP or kinetin regarding total number of plants regenerated. More than 200 green plants have been produced form six independently initiated suspension cell lines. The number of regenerated plants per 10⁶ protoplats plated anged from 0.4 to 20.0, and the average seed fertility of single panicles of these R_O plants was about 40%.     

Fertile wheat (Triticum aestivum L.) regenerants from protoplasts of embryogenic suspension culture

We report regeneration of fertile, green plants from wheat (Triticum aestivum L. cv. Aura) protoplasts isolated from an embryogenic suspension initiated from somatic early-embryogenic callus. The present approach combines the optimization of protoplast culture conditions with screening for responsive genotypes. In addition to the dominant effect of the culture media, the increase in fresh mass and the embryogenic potential of somatic callus cultures varied considerably between the various genotypes tested. Establishment of suspension cultures with the required characters for protoplast isolation was improved by reduction of the ratio between cells and medium and by less frequent (monthly) transfer into fresh medium. A new washing solution was introduced to avoid the aggregation of protoplasts. However, the influence of the culture medium on cell division was variable in the different genotypes. We could identify cultures from cultivar Aura that showed approximately a 9% cell division frequency and morphogenic response. The protoplast-derived microcolonies formed both early and late-embryogenic callus on regeneration medium and green fertile plants were obtained through somatic embryogenesis. The reproducibility of plant regeneration from protoplast culture based on the cultivar Aura was demonstrated by several independent experiments. The maintenance of regeneration potential in Aura suspension cultures required establishment of new cultures within a 9-month period.     

Plant regeneration from highly embryogenic callus,cell suspension and protoplast cultures of Trifolium fragiferum

Using various media, tissue and protoplast cultures plant regeneration systems were developed for Trifolium fragiferum (2n=16). (L.). The best media for induction of embryogenic cultures were based on Kao (1977) or Kao and Michayluk (1975). Somatic embryogenesis was observed in cultures derived from green leaf mesophyll protoplasts of branching plants, somatic embryo protoplasts and cell suspension protoplasts, leaflets and various explants of immature zygotic embryos. The process of somatic embryogenesis was maintained for over two years on Murashige and Skoog's (1962) medium supplemented with 0.5 mg l^-1 benzyladenine and 0.05 mg l^-1 naphthaleneacetic acid. These long term cultures were capable of regenerating plants that were fertile and produced seeds. These results were compared with those from protoplast, tissue and organ culture of other species of the Trifolium genus. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration from embryogenic suspension-derived protoplasts of ginger (Zingiber officinale Rosc.)

A procedure is described to regenerate plants from embryogenic suspension-derived protoplasts of ginger (Zingiber officinale Rosc.). Somatic embryogenic calli were induced from ginger shoot tips on solid MS medium with half the concentration of NH₄NO₃ and supplemented with 1.0 mg l⁻¹ 2,4-Dichloroacetic acid (2, 4-D) and 0.2 mg l⁻¹ Kin. Rapid-growing and well-dispersed suspension cultures were established by subculturing the embryogenic calli in the same liquid medium. Protoplasts were isolated from embryogenic suspensions with an enzyme solution composed of 4.0 mg l⁻¹ cellulase, 1.0 mg l⁻¹ macerozyme, 0.1 mg l⁻¹ pectolyase, 11% mannitol, 0.5% CaCl₂ and 0.1% 2-(N-morpholino) ethane sulphonic acid (MES) for 12–14 h at 27°C with a yield of 6.27 × 10⁶ protoplasts g⁻¹ fresh weight. The protoplasts were cultured initially in liquid MS medium with 1.0 mg l⁻¹ 2, 4-D and 0.2 mg l⁻¹ Kin. Then the protoplast-derived calli (1.5 cm²) were transferred to a basal MS medium containing 0.2 mg l⁻¹ 2, 4-D, 5.0 mg l⁻¹ benzyladenine (BA), 3% sucrose and 0.7% agar. The white somatic embryos were transferred to MS medium lacking growth regulators for shoot development. Shoots developed into complete plantlets on a solid MS medium supplemented with 2.0 mg l⁻¹ BA and 0.6 mg l⁻¹ α-Naphthaleneacetic acid (NAA). In addition, the effects of AgNO₃, activated charcoal (AC) and ascorbic acid (AA) on browning of protoplast-derived calli are discussed.     

Plantlet regeneration from protoplast-derived haploid embryogenic calli of wheat

To search for an alternative method for protoplast culture, regenerable embryogenic calli were obtained from anther culture of three wheat cultivars, Karl 92, Jinghua #1, and Pavon 76. Protoplasts were isolated directly from the haploid embryogenic calli and cultured in modified PMI and LM8P media without going through cell suspension culture. After 8–11 days of subculture, the embryogenic calli produced the maximum yield of protoplasts and cell division was at the highest frequency when plated at a density of 3–4 × 10⁵ protoplasts ml⁻¹. Frequency of colony formation varied from 0.2% to 0.5% for Jinghua #1 and from 0.1% to 2% for Pavon 76, while Karl 92 failed to produce colonies, even though its embryogenic calli were friable and fast-growing on the maintenance medium. Green haploid plantlets of Jinghua #1 and Pavon 76 have been regenerated from protoplasts, which were cultured on a differentiation medium first and then on a rooting medium. This revised version was published online in June 2006 with corrections to the Cover Date.     

Regeneration of fertile plants from protoplasts derived from embryogenic cell suspensions of barley (Hordeum vulgare L.)

We report regeneration of fertile plants from barley (Hordeum vulgare L. cv. Igri) protoplasts isolated from regenerable suspension cultures initiated from anther-derived embryogenic callus. Plants were routinely regenerated from these suspension cultures, which maintained their regenerative capacity for several months. It was first possible to isolate protoplasts from suspensions after three months of culture and after four months protoplasts capable of division could be isolated. Protoplasts maintained the regenerative capacity of the donor cells and formed embryogenic callus. Green plants were regenerated from protoplast-derived calli, although the proportion of albino plantlets was high. Viable regenerants were transferred to soil and fertile plants were recovered.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - 6-BAP 6-benzylaminopurine - PP Protoplasts     

Plantlet regeneration from protoplast-derived embryogenic calli of Crocus cancellatus

Plant regeneration from protoplast culture of Crocus cancellatus was investigated using regenerable embryogenic calli obtained from shoot meristem culture on LS (Linsmaier and Skoog, 1965) medium containing 4 mg l⁻¹ kinetin and 1 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D). Protoplasts were isolated directly from embryogenic calli. The best protoplast growth was found on those embedded in Ca-alginate beads and cultured with nurse cells in MS (Murashige and Skoog, 1962) medium supplemented with 2 mg l⁻¹ kinetin, 1 mg l⁻¹ 2,4-D and 100 mg l⁻¹ ascorbic acid at 25 °C in darkness. After 4–5 weeks of culture, microcalli appeared on the surface of the Ca-alginate beads, but the protoplasts without immobilization in Ca-alginate beads showed very low cell division. Growth of the microcalli in the medium with nurse cells was much better than in the medium without nurse cells. Transferring beads onto half strength MS medium supplemented with 0.2 mg l⁻¹ kinetin and 0.1 mg l⁻¹ 2,4-D, increased the growth of embryogenic calli. Somatic embryo development was observed either on half strength MS medium growth regulator free or with 1 mg l⁻¹ abscisic acid. Matured embryos germinated on half strength MS medium containing 25 mg l⁻¹ of gibberelic acid. Plantlet formation was obtained on half strength MS medium containing 1 mg l⁻¹ 6-benzyladenine and 1 mg l⁻¹ α-naphthaleneacetic acid at 20 °C in a 16/8 h light/dark cycle. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration of rose (Rosa hybridia) from embryogenic cell-derived protoplasts

Culture conditions are described for sustained cell division and plant regeneration from protoplasts of rose (Rosa hybrida L. `Sumpath'). Protoplasts were enzymatically isolated from 2-week-old embryogenic cell suspension cultures. Freshly isolated protoplasts were plated as a thin layer onto protoplast culture medium (half-strength 21 Murashige and Skoog's medium containing 60 g l^–1 myo-inositol, 4.4 M BA, and 1.4 M 2,4-D) at a density of 5×10⁴ protoplasts ml^–1. The plating efficiency reached 3.9% after 2 weeks of culture. However, few protoplasts underwent cell division when cultured in protoplast culture medium in which 60 g l^–1 myo-inositol was replaced with the same osmolarity of 90 g l^–1 mannitol, indicating that myo-inositol is essential for sustained cell division of protoplasts. Colonies were formed after 8 weeks of culture at a frequency of 0.2%. Colonies were then transferred to colony culture medium (0.4% Gelrite-solidified protoplast culture medium) and maintained by subculturing at 4-week intervals to form embryogenic calluses. Upon transfer to half-strength MS basal medium, embryogenic calluses gave rise to numerous somatic embryos. Somatic embryos were transferred to half-strength MS basal medium containing 48 mg l^–1 ferric ethylenediamine di-(o-hydroxyphenylacetate), where they subsequently developed into plantlets at a frequency of 30.9%. The plantlets had the same chromosome number of 2n=3x=21 as the source plant. They were successfully transplanted to potting soil and grown to maturity in a greenhouse.     

Regeneration of plants from Ipomoea cairica L. protoplasts and production of somatic hybrids between I. cairica L. and sweetpotato, I. batatas (L.) Lam.

Plants were regenerated from mesophyll protoplasts of Ipomoea cairica L., a wild relative of sweetpotato (Ipomoea batatas (L.) Lam.), and somatic hybrids between I. cairica L. and sweetpotato cv. Xushu 18 were obtained by PEG-mediated method. I. cairica L. protoplasts were isolated from the leaves of in vitro grown plants and cultured in a modified MS medium containing 0.05 mg l⁻¹ 2,4-D and 0.5 mg l⁻¹ kinetin. Nine weeks after plating, the obtained small calluses up to about 2 mm in diameter were transferred to solid MS medium supplemented with 0.05 mg l⁻¹ 2,4-D and 0.5 mg l⁻¹ kinetin for callus proliferation. Three weeks after transfer, the calluses were transferred to MS medium supplemented with 0–1.0 mg l⁻¹ IAA and 1.0–3.0 mg l⁻¹ BAP and further to hormone-free MS medium for plant regeneration. The frequencies of calluses forming plants ranged from 6.0% to 41.3% based on the different concentrations of IAA and BAP, and 2.0 mg l⁻¹ BAP gave the highest regeneration frequency of protoplast-derived calluses in I. cairica L.. The regenerated plants, when transferred to soil, showed 100% survival. No morphological variations were observed. Mesophyll protoplasts of I. cairica L. were fused with protoplasts isolated from embryogenic suspension cultures of Xushu 18 by PEG-mediated method. The fused products were cultured with the best protoplast culture system of I. cairica L.. Finally, 114 plants were produced from 63 of the 182 calluses derived from the fused protoplasts, and 46 plants of them were confirmed to be somatic hybrids through peroxidase isozyme, RAPD, morphological and cytological analyses.     

Plant regeneration via somatic embryogenesis from protoplasts of six explants in Coker 201 (<Emphasis Type="Italic">Gossypium hirsutum</Emphasis>)

Fertile regenerated plants were obtained from protoplasts via somatic embryogenesis in Coker 201 (Gossypium hirsutum L.). Protoplasts were isolated from six different explantsleaves, hypocotyls, young roots, embryogenic callus, immature somatic embryos and suspension cultures and cultured in liquid thin layer KM8P medium. Callus-forming percentage of 20–50% was obtained in protoplast cultures from embryogenic callus, immature embryos and suspension cultures, and visible callus formed within 2 months. Callus-forming percentage of 5–20% in protoplast cultures from young roots, hypocotyls and leaves, and visible callus formed in 3 months. NAA 5.371 μM/kinetin 0.929 μM was effective to stimulate protoplast division and callus formation from six explants. Percentage of callus formation in the medium with 2,4-D 0.452 μM/kinetin 0.465 μM was over 40% from suspension cultures and immature embryos, 25% from embryogenic callus and 10% from hypocotyls. Callus from protoplasts developed into plantlets via somatic embryogenesis. Over 100 plantlets were obtained from protoplasts derived from 6 explants. Ten plants have been transferred to the soil, where they all have set seeds.     

Plant regeneration from protoplasts in Indian local Coriandrum sativum L.: scanning electron microscopy and histological evidences for somatic embryogenesis

Coriandrum sativum L. is an annual herb belonging to the family Umbelliferae. It is used as a spice plant in Indian subcontinent and it has several medicinal applications as well. In this present article, an efficient plant regeneration protocol from protoplasts via somatic embryogenesis was established and is reported. This is the first ever protoplast isolation study in Indian local coriander in which plant regeneration was achieved. Hypocotyl-derived embryogenic callus was used as a source of protoplast. The embryogenic callus suspension was prepared by transferring tissues onto rotary-agitated liquid Murashige and Skoog, added with 1.0 mg l^?1 2,4-Dichlorophenoxyacetic acid (2,4-D) and 1.0 mg l^?1 KIN (6-furfurylaminopurine). The suspension was digested with enzymatic solutions and a combination of cellulase (2.0 %), pectinase (1.0 %), macerozyme (0.02 %) and driselase (0.50 %) induced maximum yield of protoplasts (34.25 × 10⁵). In 1.0 mg l^?1 2,4-D + 1.0 mg l^?1 KIN containing medium, protoplasts divided well and formed maximum number of microcolonies (14.30/test tube). The protoplast callus (PC) biomass grew well in solid medium. The protoplast embryogenic callus was rich in protein, proline and sugar compared to non-embryogenic PC. The protoplast originated callus later differentiated into somatic embryos. The somatic embryo morphology, scanning electron microscopy and histology of embryo origin and development were investigated and discussed in details in this present communication. In 1.0 mg l^?1 2,4-D + 0.5 mg l^?1 BA (6-Benzyladenine), maximum number of embryos were formed on microcallus (26.6/callus mass). The embryo matured and germinated into plantlets at a low to moderate rate, highest (31.3 %) embryo germination was observed in 1.0 mg l^?1 BA + 0.5 mg l^?1 α-Naphthalene acetic acid added medium. The entire process of regeneration took about 4–5 months’ time for recovering plantlets from protoplasts.     

Somatic embryogenesis and plant regeneration of turf-type bermudagrass: Effect of 6-benzyladenine in callus induction medium

In order to optimize tissue culture conditions for bermudagrass, an important warm-season turfgrass species, tissue culture responses of young inflorescences of a hybrid bermudagrass cultivar `Tifgreen' (Cynodon dactylon×Cynodon transvaalensis) and a common bermudagrass cultivar `Savannah' (Cynodon dactylon) were investigated. When cultured on Murashige and Skoog medium with 4.52 to 13.57 μM (1–3 mg l^-1) 2,4-D, young inflorescence segments yielded non-embryogenic calli which were unorganized and had loosely associated, long tubular cells on the surface. However, inclusion of 6-benzyladenine (BA) in callus induction medium at a level of 0.044 μM (0.01 mg l^-1) induced formation of a compact, nodular embryogenic structure on approximately 20% of the calli. Calli with such a compact embryogenic structure were highly regenerable. When young inflorescences smaller than 0.75 cm were cultured, the embryogenic structure yielded green plantlets with regeneration rates of 79.5% and 83.3%, respectively for the two cultivars. All 96 plants regenerated from calli induced in the BA-containing medium were green and morphologically normal. The embryogenic nature of the compact structure was confirmed by scanning electron microscopy. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration from protoplasts of embryogenic cell suspensions of Coffea arabica L. cv. caturra

Coffee plants were regenerated from protoplasts isolated from embryogenic cell suspension cultures derived from somatic embryos of Coffea arabica L. cv. caturra. Yields of viable protoplasts ranged from 1×10⁵ to 6×10⁵ protoplast/g fresh weight. Protoplast preparations usually contained no contaminating cells, and when present, the number of cells never exceeded 0.1% of the total. Plating efficiencies of protoplast ranged from 1 to 10%. Embryogenic protocolonies obtained after several subcultures in a medium supplemented with 0.5 mg/l each of benzylaminopurine, 2,4-dichlorophenoxyacetic acid and naphtaleneacetic acid, were transferred to a medium lacking plant growth regulators. Well differentiated embryos were formed in selected protocolonies that contained many embryos-like structures. Approximately 70% of the somatic embryos developed into green rooted plantlets which were succesfully transferred to vessels containing sterilized scoria. Plants grown for two months in scoria were finally transferred to greenhouse.Abbreviations B5 medium according to Gamborg et. al.(1968) - BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphtaleneacetic acid     

Protoplast culture and plant regeneration ofPinellia ternata

A study was undertaken to develop a protoplast regeneration system for pinellia. A yield of 19 29 x 10⁵ protoplasts/g F. W. could be obtained from cell suspension cultures incubated in a digestion enzyme solution with 2% cellulase Onzuka R-10, 10% pectinase (Sigma), 0.01% pectolyase Y23. K8P and modified MS media were used to culture protoplasts in: a) liquid, b) liquid-solid double layer, or c) agarose embedded protoplast culture. The former two were conducive to colony formation from protoplast-derived cells. The frequency of cell division was about 8% after 3 days in culture. Gradually adding fresh medium of lower osmotic pressure into the medium for protoplast culture favored cell division. Calli (1–2 mm in diameter) formed after 30–40 days in culture. The calli transferred onto medium supplemented with KT (0.5 mg 1^–1) and NAA (0.2 mg 1)^–1) could regenerate plants after 40–50 days. Of 47 plantlets transplanted into plots, 29 flowered and were fertile.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - KT kinetin - CH casein hydrolysate     

Plant regeneration from cell suspension-derived protoplasts of Saintpaulia ionantha Wendl

Summary Friable calli were induced on leaf segments of Saintpaulia ionantha Wendl. on B5 medium containing 1 mg l^–1 2,4-D and 2 g l^–1 casein hydrolysate. Cell suspension cultures were readily established from these friable calli and protoplasts could be isolated from the cells with yields of 1–3×10⁷/g f. wt.. By culturing in 0.1 % gellan gum-solidified B5 medium supplemented with 1 mg l^–1 2,4-D and 0.1 M each of sucrose and mannitol at a density of 1×10⁵/ml, the protoplasts divided within 6 days and formed macro-colonies after 2 months of culture. Shoot regeneration from protoplast-derived calli was obtained by sequential treatment of the calli with plant growth regulators: initially with 1 mg l^–1 each of NAA and BA for 2 months followed by 0.01 mg l^–1 NAA and 5 mg l^–1 BA for 4 months. Regenerated plants were established after rooting of the shoots on half-strength MS medium, and successfully transferred to the greenhouse. The regenerated plants grew into flowering stage and showed the same phenotype as the parent plant.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - FDA fluorescein diacetate - f. wt fresh weight - MES 2-(N-morpholino)-ethanesulfonic acid - MS Murashige and Skoog (1962) - NAA -naphthaleneacetic acid - PE plating efficiency     

冬小麦原生质体培养的胚状体直接发生

冬小麦品种“京花一号”胚性愈伤组织在改良的N₆培养基(NBD培养基)上继代得到易碎型胚性愈伤组织,转入改良MS液体培养基(MSDL培养基)后得到胚性悬浮系,分离的原生质体在改良的MS培养基(MSDP培养基)上培养,再生细胞直接产生体细胞胚胎,并再生出完整植株。体细胞胚胎形成过程与小麦合子胚的形成过程十分相似。     

Efficient plant regeneration from protoplasts isolated from embryogenic suspension cultures of Cyclamen persicum Mill.

A protocol for plant regeneration from protoplasts has been developed, and then successfully applied to different genotypes of Cyclamen persicum Mill. Protoplasts were isolated from embryogenic suspension cultures by enzymatic digestion in 2% cellulase R10 and 0.5% macerozyme R10. Yields obtained varied between 1 and 5 × 10⁵ protoplasts per gram fresh mass depending on the genotype. Protoplasts were immobilized in alginate films, which promoted proper cell wall regeneration. The highest cell division frequencies were found in modified Kao and Michayluk (1975, Planta 126:105–110) medium containing the same types and concentrations of plant growth regulators that were applied for suspension culture (2.0 mg l⁻¹ 2,4-dichlorophenoxyacetic acid and 0.8 mg l⁻¹ 6-(γ,γ-dimethylallylamino)purine). Cell division was recorded for all 11 tested genotypes in frequencies of up to 12% and 18% after 7 and 14 days, respectively. However, cell division frequency varied strongly between different genotypes. After 4–6 weeks calluses were released from the alginate films and further cultured on hormone-containing medium for continued growth or transferred to hormone-free medium for regeneration of somatic embryos. Plant regeneration via somatic embryogenesis succeeded in 9 out of the 11 genotypes under investigation. Up to now protoplast-derived plants from four genotypes have been successfully transferred to soil.     

Plant regeneration from embryogenic cell suspensions and protoplasts in sugarcane (Saccharum spp.hybrid cv. CoL-54)

Embryogenic callus was developed from young leaves of sugarcane (Saccharum spp.hybrid, cv. CoL-54). A good embryogenic callus response was achieved using MS basal medium containing 2.0 mol (0.5 mg l^-1) picloram under dark conditions at 27±1°C. Initiation of fast growing homogeneous cell suspension cultures was achieved in MS and AA media, both supplemented with g mol (2 mg l^-1) 2,4-d and 500 mg l^-1 CH. Embryogenic callus was reinitiated from embryogenic cell suspension cultures using MS medium containing 30 g l^-1 sucrose, 500 mg l^-1 CH and 2.26 mol (0.5 mg l^-1) 2,4-d after 4–6 weeks of culture under 16-h photoperiod conditions. Plant regeneration was achieved after about 4 weeks in MS medium lacking growth regulators but containing CH (500 mg l^-1) and sucrose (60 g l^-1). Rooting was enhanced by transferring regenerated plantlets to half strength MS basal medium.Totipotent protoplasts with an average yield of 2.0×10⁷ to 1.0×10⁸ ml^-1 were obtained from embryogenic cell suspension cultures at log phase, i.e., 4–5 days after transfer to fresh media. The best growth response was achieved when protoplasts were cultured in a modifed KM8P medium at the density of 2.0×10⁵ m l^-1. Protoplasts were mainly embedded in 0.8% sea plaque agarose. Division efficiency of 22.2% was achieved after 20 days of culture and 0.26% of microcolonies continued growth and formed microcalluses after 30 days of culture under dark conditions. Microcalluses were proliferated in MS medium having 2,4-d (2 mg l^-1) under 16-h photoperiod. Transferring these embryogenic calluses in MS medium +9.29 mol kinetin (2 mg l^-1) +5.37 mol NAA (1.0 mg l^-1) + activated charcoal (200 mg l^-1) for 5 weeks favoured plant regeneration. Shoots and roots were further proliferated in half strength MS basal medium for 2–4 weeks. Regenerated plants were transferred to autoclaved sand for 2 weeks under 16-h photoperiod in growth room and transferred to soil in a greenhouse to raise to maturity.Abbreviations MS salts of Murashige & Skoog (1962) basal medium - AA salts of Muller & Grafe (1978) basal medium - N6 saits of Chuet al. (1975) basal medium - 2,4-d 2,4-dichlorophenoxyacetic acid - CH casein hydrolysate - KM8P protoplast culture medium of Kao & Michayluk (1975) - KPR protoplast culture medium of Kao (1977) - P9 protoplast culture medium (Chen & Shih, 1983) - BA Benzyladenine - Picloram 4-amino-3,5,6-trichloropicolinic acid - NAA Naphthalene acetic acid