Influence of primary callus induction conditions on the establishment of barley cell suspensions yielding regenerable protoplasts

Summary With the aim of the development of a culture method for efficient plant regeneration from barley (Hordeum vulgare L.) protoplasts, we examined several culture conditions for primary calli from immature embryos of cvs. Dissa and Igri, which were used for initiation of cell suspensions. Among the primary callus culture conditions tested, growth condition of donor plants had a great impact on these efficiencies; Igri protoplasts derived from embryos of plants grown in a greenhouse gave rise to albino plants and few green shoots while several cell lines originating from embryos of plants grown in a growth chamber (16h light, 12°C) yielded protoplasts developing into green plants. In contrast, cell suspensions were produced at higher frequencies from calli derived from embryos of greenhouse-grown Dissa plants. In Igri, increased levels of 2,4-dichlorophenoxyaceticacid (2,4-D) significantly reduced the efficiency of cell suspension establishment and plant regeneration from protoplasts was achieved only with suspension cells derived from calli induced at the lowest level (2.5 mg/l), while the effect of the 2,4-D concentration was not clear in Dissa. The developmental stage of immature embryos also affected the efficiency of cell suspension establishment, and the optimal embryo size was determined to be approximately 1mm in diameter. These results demonstrate the importance of callus induction conditions for successful barley protoplast culture.     

Initiation of morphogenic cell-suspension and protoplast cultures of barley (Hordeum vulgare L.)

Cell-suspension cultures were initiated from embryogenic calli of various barley cultivars. Seven fast-growing suspension lines were obtained from four different cultivars (cvs. Dissa, Emir, Golden Promise and Igri). Two of these cell suspensions showed morphogenic capacity. From a cell suspension of cv. Dissa, albino plantlets were regenerated when aggregates were cultured on solid medium. Aggregates of cv. Igri usually stopped differentiation at the globular stage, but occasionally formed scutellum-like structures. Five suspension lines were used for protoplast isolation and culture. Dividing protoplasts were obtained from all lines, but with cv. Igri a few divisions only and no further development were observed. Protoplasts from the various lines differed in the time of first division (2–14 d), division frequency (0.09–70.9%) and efficiency of colony formation (0.09–7.3%). Protoplasts isolated from the morphogenic cell suspension of cv. Dissa developed compact calli which sporadically regenerated albino plantlets.Abbreviations CC, MS, N6, SH, Kao8p culture media; see Material and methods - cv chltivar - dicamba 3,6-dichloro-o-anisic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Structural and ultrastructural analysis of Solanum lycopersicoides protoplasts during diploid plant regeneration

Light, fluorescence and electron microscopy were used to analyse the structural properties of protoplasts obtained from established suspension culture of Solanum lycopersicoides Dun, composed of meristematic cell aggregates. Four types of protoplasts were distinguished immediately after isolation: (1) mononuclear; (2) polynuclear, (3) anuclear and (4) homogeneous protoplasts. Only mononuclear protoplasts were capable of complete cell wall regeneration and mitotic division. Other types of protoplasts were eliminated during culture. Three phases were distinguished in the developing protoplast culture: (1) the elimination phase during which protoplasts damaged during isolation underwent complete degradation; (2) a phase of intense division during which both mitotic cell division and amitotic nuclear division took place; and (3) a stabilization phase leading to the formation of suspension culture. The cell suspension culture obtained from protoplasts was capable of regenerating diploid plants.     

Electrostimulated regeneration of plantlets from protoplasts derived from cell suspensions of barley (Hordeum vulgare)

For transformation and somatic hybridisation of barley ( Hordeum vulgare L.), it is necessary to develop an efficient and reliable system for routne plant regeneration from protoplasts. Freshly-isolated cell suspension-derived protoplasts were treated with both rectangular and exponential electric pulses with the aim of increasing plating efficiency as well as to stimulate regenerative capacity. Suspensions were initiated from callus from immature embryos of barley (cv. Dissa). Increasing field strength, capicitance, or number of applied pulses resulted in a decreased protoplast viability and plating efficency. However, the regeneration of albino leaves and albino plantlets from electro-treated protoplasts was stimulated in comparison with controls.     

Plant regeneration of protoplasts isolated from suspension cultures of Solanum lycopersicoides

A protocol was developed for the isolation, culture and plant regeneration of protoplasts isolated from suspension cultures of Solanum lycopersicoides Dun. (LA 1990). Protoplasts were isolated by an overnight enzyme digestion, further purified by washing in W5 salts solution, and plated in two modified MS protoplast culture media with and without type VII agarose. The addition of agarose to the two culture media did not enhance plating efficiencies and shoot regeneration percentages and in some cases was even inhibitory. Unlike the experience with some other solanaceous species, the deletion of ammonium from the protoplast culture medium was not found to be beneficial. Protoplasts sustained continuous division in the modified MS media and up to 70% of the protoplast-derived calli readily regenerated shoots on MS salts and vitamins medium containing zeatin and GA.     

Improved efficiency of genotype-dependent regeneration from protoplasts of important potato cultivars

The regeneration of protoplasts from potato (Solanum tuberosum L.) cvs. Desiree and King Edward has been significantly improved. Different shoot culture media were required for the release of viable protoplasts from cvs. Maris Piper and Desiree, and the response of protoplasts to different culture conditions depended upon the cultivar genotype of the protoplast source. Using protoplast isolation media containing 6mM CaCl₂ improved protoplast viability and culture in enriched media lead to the reproducible and relatively efficient recovery of colonies from protoplasts of these cultivars. Over 70% of protoplast-derived calli from King Edward and Desiree regenerated shoots. Many shoots were grown to mature plants in soil. This is the first report of the regeneration of mature Desiree plants from protoplasts.Abbreviations NAA -naphthaleneacetic acid - BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - MES 2-(N-Morpholino)ethanesulphonic acid - CH Casein hydrolysate - CW Coconut water - Inos myo-Inositol - PABA p-Aminobenzoic acid     

Oxidative metabolism and protoplast culture

Summary Barley leaf blade protoplasts accumulate malonaldehyde, a product of lipid peroxidation, during culture. In addition, glutathione levels fall after protoplast isolation and the proportion of glutathione in the oxidized state rises. These data indicate oxidative stress after protoplast isolation and during culture. The cause of this phenomenon is revealed by data showing that the activities of enzymes associated with antioxidative processes including glutathione reductase and ascorbate peroxidase decrease after barley protoplast isolation. In contrast, protoplasts isolated from suspension cultured cells of bromegrass and soybean exhibit little evidence for oxidative stress and increased activities of glutathione reductase and ascorbate peroxidase. We suggest that an antioxidative response is associated with mitosis and colony formation from protoplasts, as exhibited by bromegrass and soybean. Conversely, failure of an antioxidative response is associated with low viability and absence of mitosis, as in barley. Increased viability of barley leaf protoplasts cultured on feeder layer cells is correlated with increased glutathione content and higher glutathione reductase activity.     

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.     

Protoplast preparation without centrifugation: plant regeneration of barley (Hordeum vulgare L.)

Summary Using a modification of the alginate film culture technique we show that it is possible to prepare and culture tobacco mesophyll and barley cell suspension protoplasts without centrifugation. Comparable division frequencies and colony development were observed from protoplasts embedded with enzyme and protoplasts purified by centrifugation. A 3 × 30 min washing regime was found to be the minimum time necessary to remove the enzyme from the gelled alginate matrix. The procedure provides a more gentle method for isolating protoplasts. It has the additional benefit of recovering all of the cells released from the starting tissue. In particular, the smaller protoplasts that are frequently lost during conventional isolation, are maintained. In barley, we illustrate the use of the system for recovering plants from embryogenic protoplast-derived calli from the cultivars Dissa and Igri. Finally, using small volumes of enzyme (50 l) single cell aggregates were used to isolate and culture protoplasts.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzyl aminopurine - MES 2-(N-morpholino)ethanesulfonic acid - NAA -naphthaleneacetic acid     

Plasmolytic behavior of the donor cell may affect protoplast response

Protoplast donor tissues (leaves of shoots in culture) from a herbaceous plant ( Solanum etuberosum ) and two woody species ( Populus alba × P. grandidentata cv. Crandon and Betula platyphylla szechuanica ) were compared during plasmolysis in a range of osmotic agents and potentials. Cells from both Solanum and Populus , species proven to be amenable to protoplast division and regeneration, plasmolyzed readily at higher osmotic potentials than cells from Betula , a species recalcitrant to prolonged culture after protoplast isolation. Betula leaf mesophyll cells exhibited persistent membrane-to-wall attachments and many failed to plasmolyze even under extreme osmolarity. Although their leaves exhibited similar photosynthetic rates, photosynthetic capacity was lost from Betula protoplasts upon isolation, and retained by Solanum protoplasts. Differential stress after isolation was not detectable through vital staining, but only Solanum and Populus gave both high protoplast yields and high plating efficiencies in continued culture.     

Effect of cellulase fractionation on the viability of cultured barley (Hordeum vulgare) protoplasts

The age of the stock plants was important for the barley ( Hordeum vulgare L. cv. Perth) protoplast viability. Light conditions under which the stock plants were grown also affected the viability of the protoplasts. Greenhouse-grown plants yielded much higher number of protoplasts than dark-grown plants, but protoplast viability was better when protoplasts were isolated from etiolated plants. Light supplied during protoplast culture affected protoplast viability within the first 24 h of culture. Cellulase R-10 (Onozuka) was better than Cellulysin (Calbiochem) and Cellulase ⁺ Macerozyme R-10 (Onozuka) for barley mesophyll protoplast isolation. Cellulase R-10 (Onozuka) was fractionated on a G-75 Sephadex column. The eluted fractions were tested for their ability to release barley mesophyll protoplasts and for their toxicity towards the protoplasts. Only a small part of the Cellulase R-10 was necessary for protoplast isolation from barley leaves. When the fractionated cellulase was analysed by isoelectric focusing, this part of the cellolase appeared as a single band.     

Culture of Cotyledon and Hypocotyl Protoplasts from True Potato Seedlings in Solanum tuberosum L.

Culture of protoplast using cotyledon and hypocotyl as the donor tissue from true potato seedlings (TPSs) of 3 breeding lines (DTO-33, ND 860-2 and BN 9815-3) of Solanum tuberosum L. was studied. The cotyledons and hypocotyls of TPSs just extended were excised and digested in an enzyme solution containing 1 % cellulase and 0. 5 % macerozyme for 17—20 h after vacuum infiltration of the tissue in the solution. The protoplasts were cultured in an improved liquid medium and transferred onto solid media for callus culture and shoot regeneration. Some factors affecting the efficiency of cotyledon and hypocotyl protoplast culture were studied. The results showed that using the cotyledons and hypocotyls as donor tissues for protoplast isolation and culture in potato, the division frequency of protoplast derived cells was significantly higher than that using the leaves and shoot-tips of the test-tube plantlets: the yield and quality of the protoplast from TPSs cultured under continuous high light intensity (3000 Ix) were much higher than the TPSs cultured under low light intensity (1000 Ix), and no intact protoplast was ever obtained from the TPSs cultured in continuous dark condition. Vacuum infiltration of the cotyledon and hypocotyl segments in enzyme solution before digestion increased protoplast yield. The yield of protoplasts from hypocotyl tissue was significantly higher than from the cotyledon, but there was no significant difference in quality between the protoplast derived from the two tissues. The significance, advantages and shortcomings of using the cotyledons and hypocotyls as the donor tissues for isolation and culture of potato protoplasts are dicussed.     

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.     

Transformation of barley scutellum protoplasts: regeneration of fertile transgenic plants

 A system for barley transformation via polyethyleneglycol-mediated DNA uptake into protoplasts isolated directly from scutella and the regeneration of transgenic plants is reported. Scutellum protoplasts (cv. Clipper, an Australian malting cultivar) were co-transformed with plasmids Act 1-DGUS, containing the marker uidA gene, and pCaIneo, which contains the selectable marker neomycin phosphotransferase gene. Protoplast-derived calluses were selected on medium containing the antibiotic G418 (25 and 15 mg.l^–1) and macroscopic antibiotic resistant colonies were recovered. Fertile plants were regenerated from a callus line and molecular analysis confirmed transgene integration. Received: 11 October 1999 / Revision received: 11 February 2000 / Accepted: 11 February 2000     

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。     

Regeneration from intact and sectioned immature embryos of barley (Hordeum vulgare L.): the scutellum exhibits an apico-basal gradient of embryogenic capacity

Immature zygotic embryos from spring barley cv. Dissa were used to induce somatic embryogenenesis. Up to 158 germinated somatic embryos could be recovered per plated zygotic embryo. Critical factors for obtaining a high yield of regenerants were the size of the explant, the level of 2,4-D used for callus induction and the careful division of callus at each subculture. Use of microsections of immature embryos as explants revealed a pronounced gradient of callus formation and embryogenic response across the scutellum. Sections from the scutellar tissue at the coleoptilar end of the embryo gave the most callus and were highly embryogenic. The regeneration response of sectioned explants was comparable to that recovered from intact embryos of similar size.     

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     

Isolation and culture of protoplasts from immature leaves and embryogenic cell suspensions of Dioscorea yams: tools for transient gene expression studies

Leaf mesophyll protoplasts from immature leaves of in vitro shoot cultures of a range of cultivars of three species of food yam (Dioscorea alata, D. bulbifera and D. cayenensis-rotundata) were isolated and their responses to culture in agarose-solidified media compared. Leaves at early stages of development (< 1.0 cm in length) proved most suitable for production of active yam protoplasts capable of cell division. Formation of cell colonies to the 50-cell stage was observed in protoplast cultures in five of ten cultivars of D. alata and to the 30-cell stage in two cultivars of D. cayenensis-rotundata but not in cultures of D. bulbifera. Embryogenic cell suspension protoplasts of D. alata cv. Oriental Lisbon were successfully transformed with plasmids pBI 221.2, pBI 221.54, pBSGUS1 and pJT137 using a standard polyethylene glycol-mediated uptake method. Levels of transient expression of the uidA gene varied according to the plasmid used and the cell lines from which yam protoplasts were derived. This is the first report of yam protoplast culture leading to cell regeneration and direct gene transfer into protoplasts of this monocotyledonous genus. This revised version was published online in June 2006 with corrections to the Cover Date.     

Studies of cotyledon protoplast cultures from Brassica napus,B. campestris and B. oleracea. I: Cell wall regeneration and cell division

Protoplasts isolated from cotyledons of a number of cultivars of Brassica napus, B. campestris and B. oleracea were cultured in different media to study the characteristics of cell wall regeneration and cell division at early stages of culture. Time course analysis using Calcolfluor White staining indicated that cell wall regeneration began in some protoplasts 2–4 h following isolation in all cultivars. 30–70% of cultured cotyledon protoplasts exhibited cell wall regeneration at 24 h and about 60–90% at 72 h after the initiation of culture. Results also indicated that a low percentage (0.4–5.4%) of cultured cotyledon protoplasts entered their first cell division one day after initial culture in all twelve cultivars. The percentage of dividing cells increased linearly up to 40% from 1 to 7 day, indicating that cotyledon protoplasts of Brassica had a high capacity for cell division. Factors that influence the level of cell wall regeneration and cell division during cotyledon protoplast culture have been investigated in this study. Cotyledons from seedlings germinated in a dark/dim light regime provided a satisfactory tissue source for protoplast isolation and culture for all Brassica cultivars used. The percentages of protoplasts exhibiting cell wall regeneration and division were significantly influenced by cultivar and species examined, with protoplasts from all five cultivars of B. campestris showing much lower rates of cell wall regeneration than those of B. napus and B. oleracea over 24–120 h, and with the levels of cell division in B. napus cultivars being much higher than those in B. campestris and B. oleracea over 1–9 days. The capacity of cell wall regeneration and cell division in cotyledon protoplast culture of the Brassica species appears under strong genetic control. Cell wall regeneration in protoplast culture was not affected by the culture medium used. In contrast, the composition of the culture medium played an important role in determining the level of cell division, and the interaction between medium type and cultivars was very significant.Abbreviations BA benzylaminopurine - CPW Composition of Protoplast Washing-solution - CW Calcolfluor White - EDTA ethylenediamine-tetraacetic acid - KT Kinetin - Md MS modified Murashige and Skoog medium - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - IAA indole-3-acetic acid - PAR photosynthetically active radiation - SDS sodium dodecyl sulfate