Colony formation and plant regeneration from mesophyll protoplasts of Solanum etuberosum

A procedure for the culture of Solanum etuberosum mesophyll protoplasts with subsequent shoot regeneration is described. Several factors affected protoplast yield, colony formation, and shoot regeneration from in vitro plants. A protoplast isolation medium with 0.6 M sucrose produced twice the yield as one with 0.3 M sucrose. uowever, a higher concentration of osmoticum was inhibitory to colony development unless it was diluted into a lower osmoticum medium in a bilayer system. A 16 hour light/8 hour dark photoperiod for stock plants allowed twice the protoplast yield compared to plants grown under continuous light but no effect was found on subsequent colony formation or shoot regeneration. The concentrations of four major salts in the protoplast plating medium were critical for a high frequency of colony formation from protoplasts. Levels of 0.25 × or 1 × were considerably better than 4 ×. Fast colony formation, but at a lower efficiency, was obtained with a monolayer plating method. A bilayer plating system allowed a higher efficiency but colonies developed more slowly. For the best treatments, the frequency of colony formation from protoplasts ranged from 2.4 to 3.6 × 10^-3 with 37% to 66% of the colonies producing shoots ten weeks after protoplast isolation.Cooperative investigation of the USDA-ARS and the Wisconsin Agric. Exp. Stn.     

Enhanced protoplast division by encapsulation in droplets: An advance towards somatic hybridisation in recalcitrant white lupin

Lupins are highly nutritious fodder and pulse crops but the greatest challenge in their genetic enhancement is the difficulty in obtaining hybrids through conventional sexual approaches. To bypass this, a procedure for the culture of hitherto recalcitrant lupin protoplasts is now being developed so that the somatic hybrids can be regenerated. This study provides a basis for a regime to culture lupin protoplasts. Cotyledonary protoplasts of white lupin (Lupinus albus) were plated in two diverse media for the evaluation of various plating regimes. The protoplasts divided in agarose as well as in Gelrite? but embedding in agarose at 6 g L^?1 concentration resulted in a higher rate of mitosis. Sodium alginate embedding inhibited protoplast division. Protoplast plating in the form of liquid suspension was significantly inferior to embedding. A filter paper substratum was clearly noxious to protoplast division. Vis‐à‐vis other designs of plating, a 400% improvement in protoplast elongation and division was achieved by plating in the form of 25 μL droplets at the base of 60 mm × 15 mm Nunclon? dish and overlaying with liquid medium. Better results in terms of protoplast elongation and division were obtained with K8p medium as compared to the AS medium. This report on lupin protoplast culture represents a significant breakthrough in the genus in which morphogenesis has not been described to date.     

Plant regeneration of mesophyll protoplasts from a cytoplasmic albino mutant ofLycopersicon esculentum cv. Large Red Cherry

Mesophyll protoplasts from in vitro grown plants of a cytoplasmic albino mutant ofLycopersicon esculentum cv. Large Red Cherry were isolated with yields between 0.4 to 4.4 × 10⁶ protoplasts per gram leaf tissue. Success in the culture of these protoplasts was dependent on embedding of the protoplasts in 100 µ1 agarose droplets 0.6% (w/v). A plating efficiency of 4.0% was obtained when the protoplasts were cultured in TM-2 medium with sucrose concentrations of 8.7 to 9.6% (w/v) resulting in an osmotic pressure of 432 to 469 mOsmol kg^-1. After 14 days of protoplast culture, microcalli with a diameter of 3 mm were observed. After 3 weeks, macrocalli were obtained which were transferred to regeneration medium. Regeneration of shoot primordia, with a frequency of 19%, was obtained on TM-4 medium supplemented with 1% (w/v) sucrose. The first shoot primordia were visible 10 weeks after protoplast plating. For development of the shoot primordia into shoots it was necessary to increase the sucrose concentration to 6% (w/v). Eight out of eleven regenerants were diploid (2n = 2x = 24); the other three were tetraploid. Efficient regeneration of mesophyll albino protoplasts from tomato opens the way to select at the cellular level for the chloroplast transfers.     

An Efficient Protocol for Ulmus minor Mill. Protoplast Isolation and Culture in Agarose Droplets

We describe here an efficient and reproducible protocol for isolation and culture of protoplasts from Ulmus minor. Different sources of donor tissues were tested for protoplast isolation: callus and juvenile leaves from in vitro and greenhouse plants. Several combinations and concentrations of hydrolytic enzymes were used. Comparative tests between Cellulase Onozuka R10 and Cellulase Onozuka RS were made and the last one proved to be more efficient. Both the pectinases used, Macerozyme Onozuka R10 and Pectinase (Sigma^®), were efficient in protoplast isolation and there was no need for a more active pectinase. In vitro leaves proved to be the best source for protoplast isolation and produced an average of 3.96 × 10⁷ protoplasts per gram of fresh weigh. Elm mesophyll protoplasts were cultured using the advantageous method of agarose droplets and a modification of the Kao and Michayluk culture medium, using two plating densities (1 × 10⁵ and 2 × 10⁵ protoplasts ml^?1). Protoplast division and evolution into colonies and microcalli was promoted in the agarose droplets plated at 2 × 10⁵ protoplasts ml^?1. Ten weeks after protoplast culture initiation a plating efficiency of 2.7% was attained and the bigger microcalli, with at least 0.5 mm diameter, were transferred to a solid medium previously used for the production of embryogenic callus.     

The culture response of Arabidopsis thaliana protoplasts is determined by the growth conditions of donor plants

Procedures previously established for plant regeneration from mesophyll protoplasts of Arabidopsis thaliana have been optimized. The protoplast plating efficiency (number of microcalli per number of plated protoplasts) is strongly dependent on the growth conditions of the donor plant, especially medium composition and illumination conditions. The yield of microcalli is markedly influenced by the nitrogen source in the protoplast culture medium. The developed procedure gives reproducible plating efficiencies of 7–10%, i.e. 15–20 times higher than previously published (0.5%) for A. thaliana race C24.     

Plant Eegeneration from Protoplasts of Brassica carinata Braun

Protoplasts of Brassica carinata Braun. (accession No. 84A165) were enzymatically isolated from hypocotyls and cotyledons of 3–5 day-old test-tube seedlings or first true leaves taken from greenhouse grown plants at a three-leaf stage. The protoplasts were suspended in a P-B liquid medium solidified with 0.15%–0.3% low melting agarose which formed a thin layer floating on the surface of the liquid medium. The optimum protoplast density was ranging from 5× l03 to 1 × 104/ml. As for the hypocotyl protoplasts, the first division was observed after 48 h in the culture. The division frequency reached 21% and 34% at day 3 and 6 respectively. The initiation of cell division in the case of cotyledon and mesophyll protoplast culture was late, usually at day 5, and the division frequency was also somewhat lower. One week after culture, the cultures were transferred to fluorescent light condition with an intensity of about 1000 lx. A dilution medium DPDK3 was then added and the dilution procedure was repeated at one week interval thereafter. One month after culture, microcalli with 300–500 μm in size were formed. It was also found that in some cases globular embryoid structure protruded on the callus surface. Totally, a 2%–3% plating efficiency was achieved. Shoot regeneration occurred when cotyledon and mesophyll protoplast-derived calli were transferred onto a modified MS medium supplemented with NAA 0.1, BA 3 mg/l. Individual shoots were rooted on a rooting medium supplemented with 0.2 mg/l of IAA. Intact plants with normal morphology were eventually produced.     

Regeneration of leaf mesophyll protoplasts of tomato cultivars (L. esculentum): factors important for efficient protoplast culture and plant regeneration

Conditions were established for efficient plant regeneration from four freshmarket cultivars of Lycopersicon esculentum. In order to increase the yield of viable protoplasts which are able to sustain cell divisions, the donor plants are preconditioned by incubation at 25°C in the dark for 18 hours, followed by a cold treatment at 4°C in the dark for the last 6 hours, prior to protoplast isolation. Browning of the dividing cell colonies can be prevented by culturing protoplasts in 100 l droplets of low-melting agarose, surrounded by liquid medium. Alternatively, protoplasts can be cultured in liquid medium. In both procedures the plating efficiencies and percentage of shoot regeneration are increased, only when dilutions were performed with auxin-free culture medium. Shoot regeneration is obtained by using a two step procedure: initiation of greening of microcalli on a medium containing 0.2 M mannitol and 7.3 mM sucrose, which is followed by shoot development on a mannitol-free medium containing 0.5 M sucrose. In this way, plants can be regenerated within 3 months from the hybrid cultivars Bellina, Abunda, Sonatine and also from the true seedline Moneymaker. The latter one showed the highest regeneration frequency (30%).Abbreviations BAP 6-Benzylamino purine - 2,4-D 2,4-dichlorophenoxy acetic acid - IAA indole acetic acid - MES 2-(N-morpholino)- ethane sulfonic acid - NAA naphthalene acetic acid - PE plating efficiency     

Plants Regenerated from Mesophyll Protoplasts of Cottonwood New Clone

Poplar NL-80106 (Populus deltoides×P, simonii) mesophyll protoplasts were isolated from leaves of 30 days-old sterile shoot, with 4 × 107/g fr. wt of protoplast yield after purification. The protoplasts were cultured in KM8p and MS liquid media containing 2 mg/L 2, 4-D, 0. 5 mg/L NAA and 0.5 mg/L KT. Higher plating density and lower osmatic pressure (0.45 mol/L) were proved to be favourable to division of protoplast-derived cells. The first division initiated 5 days after culture, and the division frequency reached 4.5 % on the 10th day. A number'of cell colonies and microcalli was formed in 12 weeks. Using organic nitrates and glucose in protoplast culture medium was beneficial to increase division frequency and plating efficiency. The calli were allowed to grow to 4--6 mm in height with red colour and compact structure on the gelrite-sohdified NLZ1 proliferation medium in 3 weeks and were transferred onto NLF differentiation medium where the frequency of shoot formation could reach 100%. The 3 cm high shoots were then cut off from the callus and rooted on 1/2 MS medium.     

水稻原生质体培养及植株再生的研究

由粳稻77-170品系及籼稻品种IR-50的细胞悬浮培养物游离的原生质体,用琼脂糖包埋于RY-2培养基中,发生了持续分裂。前者植板率达2.5％以上,二者最后都再生出植株。对游离和培养方法做了如下改进:1)采用两步法,即先用果胶酶,再用果胶酶和纤维素酶的混合酶进行游离,可避免原生质体发生融合并获得高质量的原生质体;2)悬浮细胞培养基中加入ABA有利于原生质体的存活和分裂;3)琼脂糖包埋培养可大大提高植板率;4)用较高渗透压的培养基培养原生质体再生的细胞团及愈伤组织,可提高植株再生频率。由于这两个品种(系)的培养物都已继代一年半之久,再生植株均为白化苗。这是迄今第一个由籼稻原生质体再生植株的报道。     

In vitro morphogenesis of sunflower (<Emphasis Type="Italic">Helianthus annuus</Emphasis>) hypocotyl protoplasts: the effects of protoplast density,haemoglobin and spermidine

Sunflower, as one of the most important oil-producing crops, represents an important target for genetic improvement through gene transfer or somatic hybridization. Unfortunately, sunflower is recognized as recalcitrant to in vitro culture. The aim of our paper was to improve sunflower protoplast regeneration. Three cultivars (Romanian hybrids) and one inbred line were used for protoplast isolation from etiolated hypocotyls. Isolated protoplasts were embedded in alginate disks and cultured in two plating densities, using two culture regimes as indicated by previous authors. Plating efficiency, callus development and plant regeneration were evaluated as well as old callus histology. In cv. ‘Select’, the effects of 1:50 haemoglobin and 1 mM spermidine were assayed on asymmetric division and/or plating efficiency. Plant regeneration from hypocotyl protoplasts was achieved for two cvs., ‘Florom 328’ and ‘Turbo’, with the former proving once more its totipotency. The best culture regime proved to be as recommended by Krasnyanski and Menczel (1993), but the best density in the culture medium was the highest ever tested, 8 × 10⁵ pp ml⁻¹. Moreover, the histology of old green compact protoplast-derived callus revealed a very well organized structure suggesting senescence. In the non-responsive cv. ‘Select’, haemoglobin was found to stimulate protoplast asymmetric division and the development of heart-shaped embryo-like structures, while spermidine stimulated overall protoplast plating efficiency.     

A protoplast-to-plant system in chrysanthemum: differential responses among several commercial clones

Summary Plant regeneration has been obtained from Chrysanthemum mesophyll protoplasts. Of the twenty-nine clones studied, division was observed for eighteen clones, and coupled with colony formation for sixteen of them. Elimination of NH₄NO₃ from the culture medium greatly improved colony survival in culture. Calli were obtained from colonies of five clones, and for clone n^o 42 buds were produced. Regeneration ability, for such protoplast-derived calli of clone n^o 42, was retained over a prolonged culture period. The regenerated plants were successfully transferred to the glasshouse (4 to 5 months from protoplast isolation).Abbreviations BAP 6-benzylaminopurine - F.P.E. final plating efficiency - f.wt. fresh weight - GA₃ gibberellic acid - IAA indole-3-acetic acid - I.P.E. initial plating efficiency - MS Murashige and Skoog 1962 - NAA 1-naphthaleneacetic acid - 2,4-D 2,4-dichloro-phenoxyacetic acid     

Plant regeneration from protoplasts isolated from suspension cultures of leek (Allium ampeloprasum L.)

A procedure is described for the regeneration of plants from protoplasts of tetraploid leek (Allium ampeloprasum L.), 2n = 4x =32. Regeneration-competent protoplasts could only be obtained from an embryogenic suspension culture that was initiated with friable, embryogenic callus derived from immature embryos. The generally low plating efficiency could be increased by embedding the protoplasts in Ca-alginate, compared to culturing the protoplasts in liquid or agarose-solidified medium. A minimum plating density of 2 × 10⁵ pps/ml was required to obtain microcalli. Upon transfer of the protoplast-derived calli on agarose-solidified BDS medium, morphologically different callus types proliferated. After transfer to regeneration medium, compact or friable calli with an embryogenic appearance produced somatic embryos and plantlets at a frequency of up to 80%. Calli that had been classified as heterogeneous also regenerated shoots, but mainly via organogenesis, at a frequency of 46%. After transfer of shoots to half strength MS medium, healthy, well-rooted plants were obtained, that were successfully transferred to soil. All plants contained the tetraploid DNA level.     

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.     

Isolation,culture and plantlet regeneration from cotyledon and mesophyll protoplasts of two pickling cucumber (Cucumis sativus L.) genotypes

Optimal protoplast yields from cotyledons (2.0×10⁶ protoplasts/ 0.5 g tissue) and from true leaves (5.0×10⁶ protoplasts/g tissue) of two Cucumis sativus genotypes were obtained following a 16 h digestion with, respectively, 1.25% pectinase+0.5% Cellulysin and 0.5 % pectinase+ 1.0% Cellulysin. Enzyme solutions were prepared in modified MS medium containing half-strength major salts, full complement of minor salts and vitamins, 2% sucrose and 0.25 M mannitol. A plating density of 3.5–4.0× 10⁴ protoplasts/ml or higher was required for sustained division, with first division occurring in 6–7 days, second-third division in 8–9 days, and minicalli formation by day 13. Embedding in 0.4% agarose provided the highest plating efficiency (proportion that formed minicalli) of mesophyll protoplasts, which was 28.3% for genotype 3672 and 15% for genotype 3676. By comparison, liquid culture and droplet culture gave lower plating efficiencies (10–19%). Cotyledon and mesophyll protoplasts of one genotype formed minicalli on MS medium containing 2,4-D/BA at 1.0/2.5 M and 5.0/5.0 M, respectively, within 21 days, while mesophyll protoplasts of the second genotype formed minicalli on MS medium containing NAA/BA at 5.0/5.0 M within 12 days. Shoot buds or somatic embryos were obtained upon subculture of calli to MS medium containing lower concentrations (0.05–0.01 M) of 2,4-D/BA or NAA/BA and a few plantlets, ca.18, were recovered on hormone-free medium.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog medium - NAA naphthaleneacetic acid     

Somatic embryogenesis and plant regeneration from isolated protoplasts of Lavatera thuringiaca

Embryogenic cell suspensions of Lavatera thuringiaca L. were established from leaf petiole and shoot regeneration was achieved when cells were plated on medium without growth regulators. We tested three methods for protoplast culture, isolated from a one-year old embryogenic cell suspension, to determine the best conditions for L. thuringiaca protoplast culture and shoot regeneration. The highest protoplast plating efficiency was obtained with the agaroseembedded method, reaching 30%, while the nursing culture method gave 5% when the protoplasts were plated over Whatman paper No. 2. However, the same nursing culture failed to produce protoplast-derived microcalluses when the protoplasts were plated on a nitrocellulose filter. The liquid thin layer method gave the lowest plating efficiency with only 0.5%. Shoot regeneration from protoplast-derived microcalluses was achieved in two steps; first, globular embryo development was favored in medium low in auxin (2,4-d and BA at 0.01 and 0.05 mg 1^-1, respectively), second, the globular embryos further differentiate into shoots in medium without growth regulators or in medium containing GA₃ (0.5 to 1.0 mg 1^-1).Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - BA benzyladenine - GA₃ gibberellic acid - NAA -naphthaleneacetic acid - IBA indole-3-butyric acid     

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.     

Regeneration of Medicago truncatula from protoplasts isolated from kanamycin-sensitive and kanamycin-resistant plants

Medicago truncatula (barrel medic) is an annual legume of agricultural and biological interest. In this report regeneration from isolated mesophyll protoplasts is described. A specifically developed, highly regenerable seed line is essential for regeneration. Other critical requirements for regeneration are the starting plant material, the use of agarose droplets incubated in a shallow layer of liquid medium, and protoplast density. Plants are grown in controlled environment conditions. Protoplasts are purified using a Percoll-based flotation procedure, then embedded in 100 l agarose droplets containing a basal medium plus 25 M NAA and 4 M BAP (the same medium as in the surrounding shallow liquid layer) to induce protoplast division. A protoplast density of 6–8×10⁵ ml^–1 is required for maximum colony formation. M. truncatula plants previously transformed for kanamycin resistance yielded embryogenic callus and also regenerated plants. Protoplasts from other annual Medicago (M.intertexta and M.scutellata) species readily form calli by the procedure we have described.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA 1-naphthaleneacetic acid     

Effects of a Ficoll-agarose system on early division and development of mesophyll protoplasts of winter oilseed rape (Brassica napus L.)

A method is described for regenerating callus from mesophyll protoplasts of a winter variety of Brassica napus. The method combines the use of Ficoll in an initial liquid medium, enhancing early protoplast division and cell colony formation, with a transfer to an agarose system after 10 days culture to give rapid microcalli formation. Further transfers resulted in callus regeneration and the initiation of organogenesis.     

草木樨状黄芪甲硫氨酸抗性系的原生质体培养及植株再生

建立了草木樨状黄芪(Astragalus melilotoides Pall．)甲硫氨酸抗性系原生质体再生植株的实验体系。以茎切段诱导的松软愈伤组织为材料,通过酶法分离出大量有活力的原生质体。原生质体经培养持续分裂形成了愈伤组织,并高频率地分化出再生苗。比较了不同培养基、培养方法和培养密度对原生质体分裂和再生的影响。结果表明,原生质体以3×10⁵/mL的植板密度,采用琼脂糖岛法培养在附加1．0mg／L 2,4-二氯苯氧乙酸(2,4-D)、0．5mg／L 6-苄氨基嘌呤(6BA)、500mg／L水解酪蛋白、3％蔗糖、0．3mol／L甘露醇的KM_8p培养基中,可获得最佳效果,其细胞分裂频率达38％左右。原生质体培养后仍然保持对甲硫氨酸的抗性,同时对乙硫氨酸表现交叉抗性。     

Protoplast culture and regeneration from Brassica oleracea ‘rapid cycling’ and other varieties

The results are reported for the first time on successful plant regeneration from mesophyll-derived protoplasts of rapid cycling B. oleracea. Comparative data were also presented on plant regeneration from mesophyll-derived protoplasts of two other varieties namely var. botrytis and var. gemmifera. It was found that a modified Pelletier (Pelletier et al. 1983) protocol is highly beneficial for protoplast culture and plant regeneration from mesophyll-derived protoplasts. The plating efficiency of B. oleracea rapid cycling protoplasts was, in the best combination of isolation method, culture technique and culture media 4.5%±0.4% and the plant regeneration frequency approximately 15%. Plant regeneration was further improved by transferring the calli from the D medium of Pelletier to a callus growth medium (MS11) and subsequently to the K₃ regeneration medium of Glimelius (Glimelius 1984). Various factors influencing plating efficiency and plant regeneration from mesophyll protoplasts of B. oleracea are discussed.Abbreviations BAP 6-benzylaminopurine - IAA 3-indoleacetic acid - IBA 3-indole butyric acid - NAA 1-naphtylacetic acid - 2iP N⁶-(2-isopentyl)adenine