Preparation of single cells from aggregated Taxus suspension cultures for population analysis

A method for the isolation of single plant cells from Taxus suspension cultures has been developed for the analysis of single cells via rapid throughput techniques such as flow cytometry. Several cell wall specific enzymes, such as pectinase, pectolyase Y-23, macerozyme, Driselase(R), and cellulase were tested for efficacy in producing single cell suspensions. The method was optimized for single cell yield, viability, time, and representivity of aggregated cell cultures. The best combination for single cell isolation was found to be 0.5% (w/v) pectolyase Y-23 and 0.04% (w/v) cellulase. High viability (>95%) and high yields of single cell aggregates (>90%) were obtained following 4 hours of digestion for four separate Taxus cell lines. In addition, methyl jasmonate elicitation (200 microM) was found to have no effect on three of the four tested Taxus lines. Isolated single cells were statistically similar to untreated cell cultures for peroxidase activity (model cell wall protein) and paclitaxel content (secondary metabolite produced in Taxus cell cultures). In comparison, protoplasts showed marked changes in both peroxidase activity and paclitaxel content as compared to untreated cultures. The use of flow cytometry was demonstrated with isolated cells that were found to have > 99% viability upon staining with fluorescein diacetate. The development of a method for the isolation of single plant cells will allow the study of population dynamics and culture variability on a single cell level for the development of population models of plant cell cultures and secondary metabolism.     

Flow cytometric identification of Paclitaxel-accumulating subpopulations

An immunofluorescence procedure was developed for paclitaxel quantification at the single cell level via flow cytometry in Taxus cuspidata suspension cultures. Intracellular staining was validated via fluorescence microscopy. Paclitaxel content of isolated cells and protoplasts was compared to total paclitaxel levels measured via HPLC. Paclitaxel accumulation was significantly increased by elicitation with methyl jasmonate (100 microM) on day 7 post-transfer as compared to unelicited cultures. Maximum accumulation was observed by day 12 post-transfer in both total paclitaxel (approximately 0.25 mg/L) and the percentage of paclitaxel-accumulating cells (approximately 95%). A similar trend was observed with isolated protoplasts, although protoplasts accumulated only ca. 40-75% of the paclitaxel present in single cells. In unelicited cell cultures, a small subpopulation (ca. 3-5%) of single cells was shown to accumulate paclitaxel. Although nearly all cells were observed to accumulate paclitaxel in methyl jasmonate-elicited cell cultures, a high degree of cell-to-cell variation was observed in paclitaxel content. The identified subpopulations represent targets for cell sorting, which may be applied to develop higher-accumulating cell lines. The quantification of single cell paclitaxel content is useful for characterizing production variability in cell cultures and can be utilized to develop rational strategies to increase paclitaxel production.     

Culture of Isolated Single Cells from <Emphasis Type="Italic">Taxus</Emphasis> Suspensions for the Propagation of Superior Cell Populations

Single cells isolated from aggregated Taxus cuspidata cultures via enzymatic digestion were grown in suspension culture. High seeding density (4×10⁵ cells/ml) and the addition of cell-free conditioned medium were essential for growth. Doubling the concentration of the nutrients [ascorbic acid (150 g/l), glutamine (6.25 mm), and citric acid (150 g/l)] had no effect on single cell growth or viability. A specific growth rate of 0.11 days⁻¹ was achieved, which is similar to the observed growth rate of aggregated Taxus suspensions. The biocide, Plant Preservative Mixture, added at 0.2% (v/v) to all single cell cultures to prevent microbial contamination, had no significant effect on growth or viability. Following cell sorting, single cell cultures can be used to establish new cell lines for biotechnology applications or provide cells for further study.     

Development and Characterization of a Nonmorphogenetic Cell Line of Wheat (Triticum aestivum)

This study was conducted to compare characteristics of a wheat (Triticum aestivum L.) cell line to those of the maize (Zea mays L.) black Mexican sweet (BMS) cell line and to compare protoplasts isolated from suspension cells of these cell lines. The wheat cell line was established from immature-embryo derived callus of the experimental line ‘ND7532’ and was conditioned for growth in suspension culture. For both cell lines, measurements of packed cell volume (PCV), fresh weight (FW), and dry weight (DW) were taken at 3 day intervals from suspension cultures. Measurements of FW of calluses cultured from suspension cells of both cell lines were taken at 6 day intervals. The morphogenetic potential of the wheat ND7532 cell line was tested in both callus and suspension cultures using media promoting regeneration and/or organogenesis. Growth rates of ND7532 cells in suspension culture were comparable to those of BMS cells. However, relative growth rates of calluses recovered from ND7532 suspension cells were slower than those of calluses recovered from BMS suspension cells. The ND7532 cell line has very limited morphogenetic potential and has been maintained as rapidly growing callus tissue for 11 years. Yields of protoplasts from suspension cells of the two cell lines were comparable, though ND7532 protoplasts were typically smaller. The wheat cell line has is now designated ND7532-NM (nonmorphogenetic) and is available for cellular and molecular biology research.     

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     

The use of agarose bead culture for the regeneration of single cell-derived colonies from protoplasts isolated from suspension cultures of Humulus lupulus

A cell-wall digestion medium has been devised to isolate protoplasts from suspension cultures of Humulus lupulus. Conditions have been developed for colony formation from protoplasts and the plating efficiency determined in three types of agar and by two culture methods. Viable calli were produced only when protoplasts embedded in Seaplaque agarose were incubated in a defined liquid medium. HPLC analysis showed that none of the isolated colonies accumulated -acids.     

Establishment of embryogenic callus and high protoplast yielding suspension cultures of sugarcane (Saccharum spp. hybrids)

For 18 sugarcane cultivars, four distinct callus types developed on leaf explant tissue cultured on modified MS medium, but only Type 3 (embryogenic) and Type 4 (organogenic) were capable of plant regeneration. Cell suspension cultures were initiated from embryogenic callus incubated in a liquid medium. In stage one the callus adapted to the liquid medium. In stage two a heterogeneous cell suspension culture formed in 14 cultivars after five to eight weeks of culture. In stage three a homogeneous cell suspension culture was developed in six cultivars after 10 to 14 weeks by selective subculturing to increase the proportion of actively dividing cells from the heterogeneous cell suspension culture. Plants were regenerated from cell aggregates in heterogeneous cell suspension cultures for up to 148 days of culture but plants could not be regenerated from homogeneous cell suspension cultures. High yields of protoplasts were obtained from homogeneous cell suspension cultures (3.4 to 5.2 × 10⁶ protoplasts per gram fresh weight of cells [gfwt^-1]) compared to heterogeneous cell suspension cultures (0.1 × 10⁶ protoplasts gfwt^-1). Higher yields of protoplasts were obtained from homogeneous cell suspension cultures for cultivars Q63 and Q96 after regenerating callus from the cell suspension cultures, then recycling this callus to liquid medium (S-cell suspension cultures). This process increased protoplast yield to 9.4 × 10⁶ protoplasts gfwt^-1. Protoplasts isolated from S-cell suspension cultures were regenerated to callus and recycled to produce SP-cell suspension cultures yielding 6.4 to 13.2 × 10⁶ protoplasts gfwt^-1. This recycling of callus to produce S-cell suspension cultures allowed protoplasts to be isolated for the first time from cell lines of cultivars Q110 and Q138.     

Methyl jasmonate elicitation enhanced synthesis of ginsenoside by cell suspension cultures of Panax ginseng in 5-l balloon type bubble bioreactors

The effects of methyl jasmonate (MJ) elicitation on the cell growth and accumulation of ginsenoside in 5-l bioreactor suspension cultures of Panax ginseng were investigated. Ginsenoside accumulation was enhanced by elicitation by MJ (in the range 50–400 M); however, fresh weight, dry weight and growth ratio of the cells was strongly inhibited by increasing MJ concentration. The highest ginsenoside yield was obtained at 200 M MJ. In the second experiment, 200 M MJ was added on day 15 during the cultivation. The ginsenoside, Rb group, and Rg group ginsenoside content increased 2.9, 3.7, and 1.6 times, respectively, after 8 days of MJ treatment. Rb group gisnsenosides accumulated more than Rg group ginsenosides. Among Rb group ginsenosides, Rb1 content increased significantly by four times but the contents of Rb2, Rc and Rd increased only slightly. Among Rg group ginsenosides, Rg1 and Re showed 2.3-fold and 3.0-fold increments, respectively, whereas there was only a slight increment in Rf group ginsenosides. These results suggest that MJ elicitation is beneficial for ginsenoside production using 5-l bioreactor cell suspension cultures.     

DEVELOPMENTAL STUDIES IN PORPHYRA (RHODOPHYCEAE). III. EFFECT OF CULTURE CONDITIONS ON WALL REGENERATION AND DIFFERENTIATION OF PROTOPLASTS1

Protoplasts isolated from thalli of four Porphyra species regenerated successfully into differentiated plantlets. The efficiency of protoplast isolation and the developmental patterns of the regenerating protoplasts depended on the type of tissues from which they were isolated. However, culture conditions greatly influenced the patterns of development at the cellular and organismal levels. Sorbitol, nitrogen, and agar concentration in the medium controlled rates of cell division, thickening of cell walls, development of rhizoids, and formation of calluses or differentiated blades. Agitation disturbed the attachment of the protoplasts to a substrate. Cells in agitated cultures produced suspensions of single cells and non-polarized small calluses. Calluses which developed from protoplasts survived in storage for over two years. The stored calluses, and cells and protoplasts that were isolated from them, were subcultured successfully. We forsee extensive use of Porphyra cell suspensions for strain selection and vegetative propagation of cultivars. This technology, which makes vegetative cloning of selected Porphyra plants possible, may eliminate the need for cultivation and storage of the conchocelis phase. Protoplasts are also being used as tools for studies in genetic engineering of these commercial species.     

Chromosomal variation in dividing protoplasts derived from cell suspensions of barley (Hordeum vulgare L.)

Summary Numerical and structural chromosome variation was analysed in dividing protoplasts isolated from suspension cells of barley. Five cell lines exhibited distribution patterns in chromosome number with different peaks and ranges. Embryogenic/morphogenic cell lines showed a peak at 2n = 14 (ca. 50%) after 6–7 months in culture, while older non-embryogenic cell lines had peaks at aneuploid or polyploid chromosome numbers. Culture duration had a clear effect on numerical and structural chromosome variation in embryogenic cell lines. With ageing of the cultures chromosome variation accumulated and the proportion of 2n = 14 cells decreased. The effect of protoplast isolation and culture on chromosome variation was examined; more cells with normal chromosome sets (12%) were maintained in protoplast-derived colonies than in source suspension cells (4%) of the same culture age.Abbreviations DC Dicentric - F fragment - T telocentric     

Plant regeneration from protoplasts of embryogenic suspension cultures of orchardgrass (Dactylis glomerata L.)

An embryogenic suspension culture of orchardgrass (Dactylis glomerata L.) consisting of small, embryogenic cell clusters was obtained from callus formed on basal sections of young leaves through a process of selective enrichment. These suspensions were used as a source of protoplasts. The isolated protoplasts divided at a frequency of 0.5–10% when plated in an agarose solidified culture medium. Conditioned medium, in which embryogenic Dactylis suspension cultures had been grown, was found to increase the rate of cell colony formation. Protoplast-derived colonies grew rapidly in a bead-type culture system of floating agarose slabs in liquid medium. New suspension cultures formed as the colonies grew out of the agarose. These cultures were embryogenic and formed green plantlets when plated on a solid medium lacking auxin. The plantlets were established in soil and grown to mature plants.Abbreviations B5 medium according to Gamborg et al. (1968) - SH-x medium according to Schenk and Hildebrandt (1972) supplemented with x M dicamba - dicamba 3,6-dichloro-o-anisic acid - KM-8p medium 8p of Kao and Michayluk (1975)     

Cell aggregates in wheat suspension cultures and their effects on isolation and culture of protoplasts

Fine embryogenic suspension cultures of wheat (Triticum aestivum cv Hartog and Timmo, and T. durum cv D6962) tend to grow into large cell clumps (1–3 mm), resulting in the formation of mixed suspension cultures consisting of both fine and large cell clumps. The cell clumps were separated according to their sizes and cultured as new lines to investigate their growth rate and differentiation potential and the effects of cell aggregate size on protoplast culture. The results showed that the fine clusters (<310 m) had a higher growth rate but a lower differentiation frequency than the large cell aggregates (310–2000 m). After 2–4 weeks incubation, all the new lines reformed mixed suspension cultures again. The large clumps (>1100 m) released fine cell clusters into the medium so it was possible to initiate fine embryogenic suspension cultures from the large clumps. With regard to the isolation and culture of protoplasts, although the highest yield of protoplasts was obtained from the fine cell clusters, the protoplasts isolated from different sized cell aggregates all had similar potential for sustained cell division and plant regeneration.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - PCV packed cell volume     

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.     

Factors influencing plant regeneration from protoplasts isolated from long-term cell suspension culture of recalcitrant Indica rice cultivar IR36

Summary Factors influencing successful establishment of embryogenic cell-suspension cultures and plant regeneration from longterm cell suspension-derived protoplasts of the recalcitrant Indica rice cultivar IR36 were studied. The factors included cell and protoplast culture medium, protoplast culture procedure, the source of nurse cells, and the regeneration procedure. Embryogenic cell suspension cultures could only be established from mature seed-derived callus of IR36 in AA-based medium (Müller and Grafe, 1978). Protoplast-derived colonies could be obtained only using the filter-membrane nurse-culture procedure when Lolium multiflorum suspension cells served as nurse, rather than wild rice (Oryza ridleyi) and Japonica rice (Oryza sativa cv. Taipei 309) cells. The utilization of a two-step regeneration procedure led to regeneration of fertile plants from protoplasts isolated from 2-yr-old cell suspensions of IR36, one of the most important but recalcitrant rice cultivars.     

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     

Somatic embryogenesis from cell suspension and protoplast cultures ofCapsella bursa-pastoris (L.) Medic

Summary Rapidly growing cell suspension cultures of shepherd’s purse (Capsella bursa-pastoris L. Medic.) were established from leaf-derived calli. These suspensions remained unorganized in the presence of 2,4-D, but underwent extensive root organogenesis in a growth regulator-free liquid medium. Attempts to induce direct embryogenesis in liquid cultures were unsuccessful, but numerous embryos were obtained from cells plated onto growth-regulator-free solid medium. These embryos were frequently abnormal, and secondary embryogenesis was problematic for plant recovery but fertile plants were recovered. Viable protoplasts could readily be isolated from these cell suspensions. After 1 wk of culture, protoplast viability was 62%, and 7% of the cells had divided. Embryogenesis was observed from protoplast-derived microcolonies, plated on growth-regulator-free medium. Although these somatic embryos were difficult to root, plants were recovered. New cell suspensions were more recently established, which were only 4 to 6 mo. old when plant regeneration was attempted. Numerous shoots were obtained when these cells were plated onto growth-regulator-free solid media. However, these shoots differed from the embryos previously obtained in that they readily rooted and rapidly developed into plantlets. This system may allow the use of shepherd’s purse as a gene source for introgression of agronomically interesting traits intoBrassica crop species through protoplast manipulation and somatic hybridization.     

Plant regeneration from protoplasts of a commercial Asian long-grain javanica rice

A reproducible plant regeneration system has been developed for protoplasts from embryogenic cell suspension cultures of the commercial Asian long-grain javanica rice, Oryza sativa cv. Azucena. Protoplasts were isolated routinely from cell suspensions with yields of 5.5–12.0 × 10⁶ g^-1 fresh weight. A membrane filter nurse-culture method was adopted and was essential to support sustained mitotic division of protoplast-derived cells, leading to cell colony formation. The protoplast plating efficiency was higher when suspension cells of Lolium multiflorum, rather than those of the japonica rice O. sativa L. cv. Taipei 309, were employed as nurse cells. A two-step shoot regeneration procedure, in which protoplast-derived calli were cultured initially on medium semi-solidified with 1% (w/v) agarose followed by culture on medium containing 0.4% (w/v) agarose, induced plant regeneration from protoplast-derived calli. Fifteen percent of protoplast-derived tissues regenerated shoots; tissues not subjected to this treatment failed to develop shoots.     

Polyacetylenes accumulation in <Emphasis Type="Italic">Ambrosia maritima</Emphasis> hairy root and cell cultures after elicitation with methyl jasmonate

Three lines of hairy root culture of Ambrosia maritima induced by Agrobacterium rhizogenes ATCC15834 were established. Thiarubrine A, thiarubrine A epoxide, thiarubrine A diol and their precursor pentayneene were produced by the hairy roots after elicitation with methyl jasmonate, the common signal molecule in the plant defense and development. Thiarubrine A diol was the main form detected in the medium. Maximum yield was achieved when the 13-day-old hairy root cultures were exposed to 40 M methyl jasmonate for 72 h. Callus and cell suspension cultures were established and maintained on Murashige and Skoog medium supplied with -naphthylacetic acid (NAA) and kinetin. When the cell suspension cultures were elicited with methyl jasmonate, pentayneene was the only polyacetylene produced. The yield of pentayneene in hairy root cultures was much higher (9.6 times) than that of cell suspension cultures.     

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.     

Effects of paclitaxel-producing fungal endophytes on growth and paclitaxel formation of <Emphasis Type="Italic">Taxus cuspidata</Emphasis> cells

Effects of a fungal endophyte, Fusarium mairei, on growth and paclitaxel formation of Taxus cuspidata cells were investigated by adding fungal endophyte culture supernatant (FECS) to suspension cultures of T. cuspidata cells. The main effective chemical responsible for paclitaxel formation in FECS was an exopolysaccharide (EPS) of molecular weight ~2 kDa. FECS fractions except EPS stimulated growth of Taxus cells but had no effects on paclitaxel accumulation. Additionally, elicitation efficiency of FECS based on different culture conditions was studied. EPS content in FECS was related to FECS culture conditions. FECS with long cultivation and high-aeration cultivation contained higher EPS content and resulted in higher paclitaxel yield than that with short cultivation and low-aeration cultivation. The maximum yield of paclitaxel from Taxus cultures, elicited by FECS with 9-day cultivation, was 4.7-fold that of the control cultures.