Regeneration of whole plants from protoplasts isolated from tissue-cultured shoot primordia of garlic (Allium sativum L.)

Protoplasts derived from tissue-cultured shoot primordia of garlic (Allium sativum L.) initiated successive cell divisions within 4 days and formed small individual calli (0.2mm in diameter) after 5 weeks of culture on Gamborg's B5 medium supplemented with 0.1% casein hydrolysate, 1mg/1 1-naphthaleneacetic acid and 1mg/1 6-benzylaminopurine. Plating efficiency was roughly 5% at the density of 1x10⁴ protoplasts/ml of medium. Adventitious buds developed from the calli during subsequent subculture on Gamborg's B5 medium supplemented with 40mg/l adenine and 10% coconut milk. When transferred to the same medium without supplements, these buds grew into shoots and rooted. The regenerated garlic plantlets were successfully transferred to the greenhouse and grew into whole plants.     

Regeneration of plantlets fromEnteromorpha (Ulvales,Chlorophyta) protoplasts in axenic culture

High yields of protoplasts have been obtained from vegetative thalli of three species ofEnteromorpha by enzymatic degradation of the cell wall. Several commercial and crude enzymes prepared from the digestive system and hepatopancrease of abalone and top-shell were tested at different concentrations and combinations to evaluate the yield. Commercial enzymes in combination with either abalone or top-shell crude enzymes, consistently produced a high yield of protoplasts from all three species. High regeneration rate (85–95%) occurred in the protoplasts cultured at a density greater than 1.72 × 10³ cells cm⁻² at 20 and 25°C. Light intensities tested in the present study did not affect protoplast wall formation and regeneration. Protoplasts, after regenerating the cell wall, followed different types of developmental patterns under identical culture conditions. In one type some cells underwent repeated cell divisions and formed a round and oval shaped hollow thallus with a single layer of cells. In the second type many cells underwent one or two cell divisions (occasionally no division) and soon matured and discharged many motile spores, which on germination grew into normal plantlets. In the third type some cells divided irregularly to form a mass of callus-like cells (exceptE. prolifera). Culture medium supplemented with either mannitol, sorbitol, dextrose, saccharose or NaCl at higher concentrations (> 0.4 M) inhibited cell division and further differentiation in all species. author for correspondence     

Application of nurse culture for plant regeneration from protoplasts of Lilium japonicum thunb

Summary The regeneration of lily protoplasts isolated from suspension cells of Lilium japonicum was achieved by using the nurse culture method. The protoplasts divided only under the nurse culture application. The divided protoplasts grew into colonies and developed into visible calluses on a medium containing picloram. After the calluses were transferred to a hormone-free medium, plantlets formed from them. The highest frequency of plant regeneration was obtained on a medium containing 1 μM gibberellin 4 (GA₄). The cleaved amplified polymorphie sequences (CAPS) method was used to confirm that the regenerants were not plants that had escaped from nurse cells. We were able to transplant the plantlets to soil in pots without acclimatization, and they showed normal growth.     

Thin-alginate-layer technique for protoplast culture of tobacco leaf protoplasts: Shoot formation in less than two weeks

Summary Regeneration of plants from protoplasts is regarded a difficult and lengthy procedure which requires well developed skills on the side of the experimenter. Therefore, where alternative procedures for genetic engineering of plants are available, protoplast-based techniques are frequently avoided. Here, we demonstrate, that by our newly developed thin-alginate-layer technique it is possible to regenerate shoots from leaf protoplasts ofNicotiana tabacum L. at very high efficiency and very rapidly, with the first shoots appearing within less than two weeks. Root formation is induced on a third medium with first roots being found after only 10 more days of culture.     

Culture and fusion of pollen protoplasts of Brassica oleracea L. var. italica with haploid mesophyll protoplasts of B. rapa L. ssp. pekinensis

Hybrid callus was formed from the successful protoplast fusion between pollen protoplasts of Brassica oleracea var. italica and haploid mesophyll protoplasts of Brassica rapa. The pollen protoplast isolation frequency in broccoli was highly related to the ratio of trinucleate pollens in the male gametophyte population. Large quantities of pollen protoplasts with high vigor could be isolated, and the isolation frequency reached up to 90% in 6.0-7.0 mm long flower buds with about 94.7% trinucleate-stage pollens. Pollen protoplasts could be collected and purified by discontinuous gradient centrifugation. In 1% Na-alginate embedding culture, cell divisions were observed but no further development was found. The haploid mesophyll protoplasts were isolated from in vitro haploid plants of B. rapa. Results strongly showed the variability in culturability of mesophyll protoplasts from different haploid lines. Both pollen protoplasts and haploid mesophyll protoplasts retained a stable round shape in the designed prefusion solution with an osmotic pressure of 0.74 osmol/kg. Polyethylene glycol was used for the protoplast fusion, and 40% polyethylene glycol 4000 enabled the highest fusion frequency of about 20%. Some postfusion protoplasts showed cell divisions up to callus proliferation. Calli were screened by random amplified polymorphic DNA analysis for their hybrid character. Results revealed the existence of the hybrid calli. Some of the hybrid calli grew well with green color and shoot primordia. According to our knowledge, this is the first report about a hybrid formation between two haploid protoplasts. Potential comprehensive applications, as well as problems of this technique, are discussed.     

黑果枸杞原生质体培养及植株再生

该研究以黑果枸杞(Lycium ruthenicum)无菌苗为材料,建立了愈伤组织来源的原生质体再生体系,采用ISSR和FCM技术对再生植株进行了遗传稳定性分析。结果表明：(1)黑果枸杞叶片愈伤组织是产生原生质体的最好材料,在含0.5 mg·mL^-1甘露醇的酶液中,继代1次的叶片愈伤组织中原生质体产量为7.77×10⁶个·g^-1,活力为92%。(2)改良MS培养基 固体液体双层培养(MS₂ 固液双层)是培养原生质体的最好方式,培养10 d的原生质体分裂频率为45.9%,培养20 d的细胞团形成频率为22.9%。(3)在1.5 mg·mL^-1 6 BA+0.1 mg·mL^-1 IBA+MS培养基中,叶片愈伤组织产生的原生质体可分化获得再生植株。(4)ISSR分析显示,再生植株的平均遗传相似系数为0.88;FCM显示再生植株为二倍体,与亲本植株一致。该研究结果为进一步研究枸杞体细胞杂交技术转移野生植物抗逆遗传性状提供科学依据,为枸杞优良品种的选育奠定了基础。     

Embryogenesis and plant regeneration from isolated microspores of Brassica rapa L. ssp. Oleifera

Summary Conditions favourable to embryogenesis from isolated microspores of Brassica rapa L. ssp. oleifera (canola quality) were identified. A population with enhanced responsiveness for microspore embryogenesis (C200) was synthesized by crossing individual plants showing microspore embryogenic potential. For optimal microspore embryogenesis, buds (2–3mm in length, containing mid-late uninucieate microspores) were collected from older plants (2 months old) and microspores isolated and washed in iron-free B5 medium. NLN medium with its iron content reduced to half was beneficial for initial microspore culture. An elevated temperature(33–35°C) during the first day of culture, followed by maintenance at 25°C resulted in dozens of embryos from each isolation (about 100 buds). Seeds were obtained from plants regenerated from microsporederived embryos after colchicine treatment.     

Effect of thidiazuron on bud development of Cymbidium sinense Willd in vitro

Seed-derived rhizomes of Cymbidium sinense Willdwere able to initiate shoot buds in the presence of0.01--1 mg/l thidiazuron (TDZ). However, TDZ retardedrhizome proliferation. The regenerated shoot budswhich had been cultured on basal medium with asupplement of 0.5 mg/l 1-naphthalene acetic acid (NAA)and 1 g/l active charcoal were able to form 10 cmplantlets within four months. Plantlets weretransplanted to sphagnum moss and cultured on a mistbench for six months and then planted into soil-filledpots and maintained in the greenhouse, where they grewwell. In the 2nd year, 9.1% of the potted plants borenormal flowers. In the 3rd year, each of them produced5--6 shoots about 43 cm in height and about 20 roots;73% of the potted plants flowered normally.     

Isolation of protoplasts,and culture and regeneration into plants in <Emphasis Type="Italic">Alstroemeria</Emphasis>

Summary An efficient system for the regeneration of plants from protoplasts was developed in Alstroemeria. Friable embryogenic callus (FEC) proved to be the best source for protoplast isolation and culture when compared with leaf tissue and compact embryogenic callus. Protoplast isolation was most efficient when FEC was cultured under vacuum for 5 min in an enzyme solution consisting of 4% cellulase, 0.5% Driselase and 0.2% Macerozyme, followed by culture for 12–16h in the dark at 24°C. Cell wall formation and colony formation were better in a liquid medium than on a semi-solid agarose medium. Micro-calluses were formed after 4 wk of culture. Ninety percent of the micro-calluses developed into FEC after 12wk of culture on proliferation medium. FEC cultures produced somatic embryos on a regeneration medium and half of these somatic embryos developed shoots. Protoplast-derived plants showed more somaclonal variation than vegetatively propagated control plants.     

Protoplast isolation and regeneration from <Emphasis Type="Italic">Gracilaria changii</Emphasis> (Gracilariales,Rhodophyta)

The tropical agarophyte Gracilaria changii has been much researched and documented by the Algae Research Laboratory, University of Malaya, especially with regards to its potential as a seaweed bioreactor for valuable compounds. Protoplast regeneration of this seaweed was developed following the optimization of protoplast isolation protocol. Effect of the concentration and combination of isolating enzymes, incubation period, temperature, enzyme solution pH, tissue source on the protoplast yields were used to optimize the isolation protocol. The enzyme mixture with 4% w/v cellulase Onozuka R-10, 2% w/v macerozyme R-10 and 1 unit mL^-1 agarase was found to produce the highest yield of protoplast at 28°C and 3 h incubation period. Thallus tips gave higher yields of protoplasts than middle segments. Freshly isolated G. changii protoplasts were cultured in MES medium. Regeneration of protoplast cell walls after 24 h was confirmed by calcofluor white M2R staining under UV fluorescence microscopy. The protoplasts with regenerated cell walls then underwent a series of cell division to produce callus-like cell masses in MES medium. Following this, juvenile plants of G. changii were obtained.     

Efficient plant regeneration from cell suspension protoplasts of the woody medicinal plant Solanum dulcamara L. (bittersweet,woody nightshade)

Large populations of viable protoplasts were released from suspension cultured cells of the woody medicinal plant Solanum dulcamara (bittersweet, woody nightshade) when the cells were harvested 3 to 7 months after culture initiation and 4 to 5 days after transfer to fresh medium. A Bio-Gel p6 purified enzyme mixture enhanced the protoplast plating efficiency 6 fold compared to the unpurified mixture, without affecting protoplast yield. Agarose-solidified medium markedly improved protoplast division and colony formation, and enabled protoplasts to be plated at lower densities than in liquid medium. All protoplast-derived tissues produced shoots on MS based medium with 1.0 mgl^-1 zeatin. Shoots rooted readily on medium lacking phytohormones. Cytological examination revealed high chromosome stability of suspension cultured cells, of plants derived from such cells, and of protoplast-derived plants. The implication of these results is discussed in relation to the genetic manipulation of this pharmaceutically important plant.     

Production of bioflavor by regeneration from protoplasts of Ulva pertusa (Ulvales,Chlorophyta)

Protoplasts were isolated from thalli of Ulva pertusa using a mixed enzyme solution of 2.0% Cellulase Onozuka R-10, 2.0% Macerozyme R-10, and 2.0% Driselase. Isolated protoplasts regenerated cell walls, developed into thalli, and propagated in large numbers under aeration in the preparative scale-culture system. Typical bioflavor compounds produced from the regenerated plants, as well as from field-collected plants, were found to be long chain aldehydes, which gave a typical seaweed odor. The long chain aldehydes were formed enzymatically from unsaturated fatty acids and released into the culture fluid. A Percoll/mannitol discontinuous density gradient separation of the heterogeneous protoplasts led to a selection of cell lines with high production of bioflavor. The cells that regenerated from protoplasts were immobilized by polymer matrices such as alginate, -carrageenan, agarose, and agar. Living cells entrapped in alginate beads in aerated cultures survived best. However, the beads started to breakdown after two months. The immobilized cells demonstrated a higher bioflavor production than did the cultured cells.     

ANTHOCYANIN SYNTHESIS IN SALPIGLOSSIS SINUATA

Measurements were made of the growth and pigment content of developing flower buds of Salpiglossis sinuata. From the time the buds were approximately 10 mm long they grew in length exponentially until they reached their final length. The logarithm of bud length increased linearly with time and served as a convenient morphological index on which to relate the progress of anthocyanin synthesis. Buds shorter than about 42 mm had no anthocyanin, but when buds reached this length, anthocyanin production was initiated and proceeded rapidly. The maximum relative pigment concentration (pigment/mg fresh weight) was attained by the buds about 17 hr after the initiation of pigment synthesis. In the mahogany-colored variety used in these studies, two anthocyanidins were found and identified as cyanidin and delphinidin. Buds excised from the plants could be cultured in vitro. Buds started in culture at a length of 30–35 mm when they contained no anthocyanins developed pigment during their growth. The amount of pigment formed increased with increasing light intensity, while only small amounts of pigment could be formed in buds cultured in darkness. The anthocyanidins of these cultured buds were the same as those of the intact flowers, but the ratio of delphinidin to cyanidin decreased with decreasing light intensity. Brief daily irradiation of dark-grown buds with red, far-red or blue light did not increase pigment synthesis nor change the anthocyanidin ratio. If buds were placed in culture at 20–25 mm and grown in darkness, they developed a third anthocyanidin, identified as malvidin, which was not present in intact flowers, light-grown buds or 30–35-mm buds cultured in darkness.     

Mariculture of Laminaria japonica (Laminariales, Phaeophyceae) using protoplast regeneration

The conditions for culture of viable protoplasts from Laminaria japonica were investigated and the regenerative processes were observed in detail. As a result of culturing at four water temperatures (5, 10, 15, and 18°C), we found that low water temperature was better for survival, division and rhizoidal formation of protoplast‐derived cells. Only epidermis‐derived protoplasts developed into normal sporophytes through a direct developmental process. Protoplast‐derived cells divided after 5 days and 2–10 celled germlings formed the first rhizoids after 15 days. Only initial sporophytes with the first rhizoids grew to normal sporophytes with multilayered blades, stipes and holdfasts. When these young sporophytes were transplanted into the sea, they grew to normal fertile sporophytes.     

Fertile Indica rice plants regenerated from protoplasts isolated from microspore derived cell suspensions

Rice plants (Oryza sativa L., Chinsurah Boro II var. Indica) were regenerated from protoplasts isolated from microspore derived cell suspensions. A simple procedure for the establishment of such cell suspension cultures from embryogenic microcallus derived from cultured isolated microspores of Indica-type rice is described. Regenerating protoplasts could readily be isolated from 5–12 months old cell suspensions showing visible colony formation in the range of 180–1050 colonies/10⁶ protoplasts after about one month in culture. More than 100 independent green plantlets were regenerated via secondary embryogenesis from ca 20×10⁶ protoplasts. Out of 32 plants grown to maturity under greenhouse conditions 24 were fertile.Abbreviations CH casein hydrolysate - 2,4-D 2,4-dichlorophenoxyacetic acid - ECS embryogenic cell suspension - NAA naphthaleneacetic acid     

Regeneration of protoplast-derived green plants of Kentucky blue grass (Poa pratensis L.)

Summary Green plants were repeatedly regenerated from suspension-derived protoplasts of Kentucky blue grass (Poa pratensis L.) cv. Geronimo. One suspension was capable of donating competent protoplasts during long-term culture i. e. 10–16 months after its establishment. The plating efficiency of the protoplasts from three different suspension lines varied from 0.004% in the lowest up to 1.5% in the highest responding line, using agarose-bedding in nutrition medium devoid of nurse or feeder cultures. Green plants germinated from polyembryos, which developed from 0.4–2.7% of the protoplast-derived microcolonies. A total of 127 plants were successfully transferred to soil.Abbreviations ABA abscisic acid - BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - FW fresh weight - PE plating efficiency     

The life history of Petrocelis franciscana

Tetraspores from Petrocelis franciscana Setch. et Gardn. collected at Rockaway Beach, San Mateo County, California, 11 January 1971 were isolated into unialgal culture with Provasoli's enriched seawater medium at 10° and 15° C, 16:8 daily photoregime, 2000–2500 lx cool white fluorescent lighting. The germlings developed as crustose discs with marginal meristems until about 300–500 µm in diameter when erect multiaxial blades were established. The erect plants grew to reproductive maturity in 15° C but not in 10° C. By the fifth month of growth the erect axes flattened and branched dichotomously. At the end of 7 months the plants were reproductively mature. These cultured plants were morphologically similar to Gigartina agardhii Setch. et Gardn. (subgenus Mastocarpus) which occurs abundantly at Rockaway Beach. Male plants were non-papillate with spermatangia forming on the entire blade surface except at the growing tip and near the stipe. The female plants developed papillae which bore many procarps. Many of these procarps were penetrated and seemingly destroyed by intrusive filaments from adjacent vegetative branches but apparently a number were functional since a number of cystocarps developed on plants in both stationary and shake culture after 5 months. Some viable spores were released and germinated.     

Fertile plant regeneration from protoplasts of meadow fescue (Festuca pratensis Huds.)

Suspension cultures from mature embryo-derived compact callus were initiated in seven meadow fescue (Festuca pratensis Huds.) cultivars. Four to six months after initiation, embryogenic suspension cultures with a moderate growth rate were established from three of them (cvs. Barmondo, Belimo and Leopard). These suspension cultures showed the capacity, maintained over six months, to regenerate green plants which could be grown to maturity under greenhouse conditions.Morphogenic suspension cultures from single genotypes of three F. pratensis cultivars (cvs. Barmondo, Belimo and Leopard) yielded large numbers of protoplasts, which upon culture in agarose beads using nurse cells formed microcalli with an overall plating efficiency in the range of 10^-3 to 10^-4. Mature plants were reproducibly regenerated and established in soil, from such protoplasts during a period of six months. The regeneration of fertile plants from protoplasts derived from suspension cultures of meadow fescue and its implications on gene transfer technology for this species are discussed.Abbreviations 2,4-D 2,4-dichlorophenoxy-acetic acid.     

Regeneration of eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.) from root explants

Summary Eggplant (Solanum melongena L.) was efficiently regenerated from cultured roots of 15-d-old seedlings on Murashige and Skoog (MS) medium containing 0.45 μM thidiazuron and 13.3 μM 6-benzyladenine. Within 28d of culture initiation, induction of organogenic calluses and subsequent differentiation into shoot buds were observed. Shoot buds upon subculture to MS basal medium elongated into healthy shoots. Excised shoots (2–4 cm) were rooted on Soilrite^? irrigated with water either in vitro or in vivo. Plants with well-developed root systems were established under field conditions after hardening in the glasshouse, where they developed into flowering plants and produced mature fruits with viable seeds.     

Plant regeneration from callus and protoplast cultures of Helianthus giganteus L.

Summary Methods of plant regeneration from callus and protoplasts of Helianthus giganteus L. are described. Embryogenic callus was obtained from leaf explants and plants were regenerated from these calli on MS media with different combinations of benzyladenine and naphtaleneacetic acid. Leaf protoplasts isolated from in vitro grown plants formed somatic embryos when cultured in agarose solidified droplets of V-KM medium containing benzyladenine and naphtaleneacetic acid. Embryos developed into plantlets on media with reduced auxin contents. Regenerated plants were successfully planted in soil.Abbreviations BA benzyladenine - IAA indoleacetic acid - MS Murashige and Skoog medium - NAA naphtaleneacetic acid - V-KM protoplast culture medium of Binding and Nehls