Fusion characteristics of plant protoplasts in electric fields

The electrical parameters important in the fusion of plant protoplasts aligned dielectrophoretically in high-frequency alternating electric fields have been established. Protoplasts were aligned in an alternating electric field between two relatively distant (1 mm) electrodes, by dielectrophoresis induced by field inhomogeneities caused by the protoplasts themselves. This arrangement allowed ease of manipulations, large throughput and low loss of protoplasts. In analytical experiments, sufficiently large samples could be used to study pulse duration-fusion response relations at different pulse voltages for protoplasts of different species, tissues and size (mesophyll protoplasts of Solanum brevidens, Triticum aestivum, Hordeum vulgare; suspension-culture protoplasts of Nicotiana sylvestris, N. rustica, Datura innoxia and S. brevidens; root-tip protoplasts of Vicia faba, hypocotyl protoplasts of Brassica napus). The percentage of aligned protoplasts that fused increased with increasing pulse parameters (pulse duration; voltage) above a threshold that was dependant on pulse voltage. The maximum fusion values obtained depended on a number of factors including protoplast origin, size and chain length. Leaf mesophyll protoplasts fused much more readily than suspension-culture protoplasts. For both types, there was a correlation of size with fusion yield: large protoplasts tended to fuse more readily than small protoplasts. In short chains (five protoplasts), fusion frequency was lower, but the proportion of one-to-one products was greater than in long chains (ten protoplasts). In formation by electrofusion of heterokaryons between mesophyll and suspension-culture protoplasts, the fusion-frequency response curves reflected those of homofusion of mesophyll protoplasts rather than suspension-culture protoplasts. There was no apparent limitation to the fusion of the smallest mesophyll protoplast with the largest suspension-culture protoplasts. Based on these observations, it is possible to direct fusion towards a higher frequency of one-to-one (mesophyll/suspension) products by incorporating low densities of mesophyll protoplasts in high densities of suspensionculture protoplasts and by using a short fusion pulse. The viability of fusion products, assessed by staining with fluorescein diacetate, was not impaired by standard fusion conditions. On a preparative scale, heterokaryons (S. brevidens mesophyll-N. sylvestris or D. innoxia suspension-culture) were produced by electrofusion and cultured in liquid or embedded in agar, and were capable of wall formation, division and growth. It is concluded that the electrode arrangement described is more suitable for carrying out directed fusions of plant protoplasts than that employing closer electrodes.     

Fusion of Agrobacterium and E. coli spheroplasts with Nicotiana tabacum protoplasts — Direct gene transfer from microorganism to higher plant

Spheroplasts of Agrobacterium tumefaciens strains and E. coli were fused with protoplasts of Nicotiana tabacum. Fusion products were cultured in the presence of antibiotics to eliminate remaining bacterial spheroplasts. On hormone free medium, tobacco protoplasts treated with wild type Agrobacterium-strains formed colonies with an average frequency of 10^–4. Opine synthesis was detected in the tissues. Some calli derived from protoplasts treated with A. tumefaciens C58C1pRi15834 formed typical hairy roots. Kanamycin resistant calli were obtained after fusion with A. tumefaciens containing pLGVTi23 neo (frequency=10^–3). Fusion of E. coli spheroplasts containing a virulent pTiB6S3::RP4 co-integrate with tobacco protoplasts yielded two hormone independent growing calli producing octopine out of 10⁵ microcalli.Abbreviations PEG Polyethylene glycol - PVA Polyvinyl alcohol     

Transient gene expression in electroporated Solanum protoplasts

Electroporation was used to evaluate parameters important in transient gene expression in potato protoplasts. The protoplasts were from leaves of wild potato Solanum brevidens, and from leaves, tubers and suspension cells of cultivated Solanum tuberosum cv. Désirée. Reporter enzyme activity, chloramphenicol acetyl transferase (CAT) under the control of the cauliflower mosaic virus (CaMV) 35S promoter, depended on the field strength and the pulse duration used for electroporation. Using field pulses of 85 ms duration, the optimum field strengths for maximum CAT activity were: S. brevidens mesophyll protoplasts –250 V/cm; Désirée mesophyll protoplasts –225 V/cm; Désirée suspension culture protoplasts –225 V/cm; and Désirée tuber protoplasts –150 V/cm. The optimum field strengths correlated inversely with the size of the protoplasts electroporated; this is consistent with biophysical theory. In time courses, maximum CAT activity (in Désirée mesophyll protoplasts) occurred 36–48 h after electroporation. Examination at optimised conditions of a chimaeric gene consisting of a class II patatin promoter linked to the -glucuronidase (gus) gene, showed expression (at DNA concentrations between 0–10 pmol/ml) comparable to the CaMV 35S promoter in both tuber and mesophyll protoplasts. At higher DNA concentrations (20–30 pmol/ml) the patatin promoter directed 4–5 times higher levels of gus expression. Implications and potential contributions towards studying gene expression, in particular of homologous genes in potato, are discussed.     

Production of asymmetric hybrids between Solanum tuberosum and irradiated S. brevidens

Summary Asymmetric somatic hybrids were obtained by fusion of Solanum tuberosum (PDH40) protoplasts with 300- or 500-Gy irradiated protoplasts of S. brevidens. These radiation doses were sufficient to prevent the growth of the S. brevidens protoplasts. Putative hybrids were selected on the basis of phenotype from regenerated shoots and identified with a S. brevidens-specific probe. From these, 31 asymmetric hybrids were confirmed by morphological characteristics, isoenzyme patterns and RFLP analysis. The morphology of the asymmetric hybrids was intermediate between that of S. tuberosum and symmetric hybrids of both species (obtained without irradiation treatment). Chromosome counts from 17 asymmetric hybrids showed that the chromosome number of the hybrids ranged from 31 to 64. The asymmetric hybrids probably had one or two genome complements (i.e. either 24 or 48 chromosomes) from S. tuberosum and 7–22 chromosomes from S. brevidens. There was no clear correlation between the radiation dose and the degree of elimination of the S. brevidens genome.     

Vigorous growth of fusion products allows highly efficient selection of interspecific potato somatic hybrids: molecular proofs

Summary An early identification of fusion products was based on the presumed vigorous growth of hybrid calluses after fusion between Solanum brevidens and S. tuberosum leaf protoplasts. The S. brevidens protoplasts were unable to form multicellular colonies under the applied culture conditions. Three size groups of calluses were separated and analyzed at two different early phases of culture period. Squash blot hybridization with a S. brevidens specific repetitive DNA probe showed that the group of the largest calluses consisted of putative somatic hybrids with a frequency of 80–100% in three independent experiments. Furthermore, approximately 80–95% of the middle sized calluses and 33–90% of the smallest ones were shown to be hybrid. The unexpectedly high percentage of fusion products, even in the case of the smallest calluses, may result from the suppression of the development of parental potato colonies in cultures with mixed cell population. Till this time 120 independent colonies selected as putative hybrids have been regenerated into plants. All of them exhibited hybrid phenotype, and their hybrid origin was proved by cytological and restriction fragment length polymorphism analyses.Abbreviations BA N⁶-benzyladenine - NAA -naphthaleneacetic acid - RFLP restriction fragment length polymorphism - UV ultraviolet     

Characterization of chromosome instability in interspecific somatic hybrids obtained by X-ray fusion between potato (Solanum tuberosum L.) and S. brevidens Phil

Summary Asymmetric somatic hybrids between Solanum tuberosum L. and S. brevidens Phil. have been obtained via the fusion of protoplasts from potato leaves and from cell suspension culture of S. brevidens. The wild Solanum species served as donor after irradiation of its protoplasts with a lethal X-ray dose (200 Gy). Selection of the putative hybrids was based on the kanamycin-resistance marker gene previously introduced into the genome of Solanum brevidens by Agrobacterium-mediated gene transfer. Thirteen out of the 45 selected clones exhibited reduced morphogenic potential. The morphological abnormalities of the regenerated plantlets were gradually eliminated during the extended in vitro culture period. Cytological investigations revealed that the number of chromosomes in the cultured S. brevidens cells used as protoplast source ranged between 28–40 instead of the basic 2n=24 value. There was a high degree of aneuploidy in all of the investigated hybrid clones, and at least 12 extra chromosomes were observed in addition to the potato chromosomes (2n=48). Interand intraclonal variation and segregation during vegetative propagation indicated the genetic instability of the hybrids, which can be ascribed to the pre-existing and X-ray irradiation-induced chromosomal abnormalities in the donor S. brevidens cells. The detection of centromeric chromosome fragments and long, poly-constrictional chromosomes in cytological preparations as well as non-parental bands in Southern hybridizations with restriction fragment length polymorphism (RFLP) markers revealed extensive chromosome rearrangements in most of the regenerated clones. On the basis of the limited number of RFLP probes used, preferential loss of S. brevidens specific markers with a non-random elimination pattern could be detected in hybrid regenerants.     

RFLP analysis of asymmetric somatic hybrids between Solanum tuberosum and irradiated S. brevidens

The nuclear genome composition of five asymmetric somatic hybrids, obtained by fusion of leaf protoplasts from Solanum tuberosum and gamma-irradiated leaf protoplasts from S. brevidens, have been analyzed at the molecular level. An analysis of 21 loci using linkage group-specific restriction fragment length polymorphism (RFLP) was included in the study. All five hybrids contained a complete set of the loci studied from S. tuberosum. The degree of elimination of alleles from the irradiated S. brevidens donor genome ranged from 10–65% in the five asymmetric hybrids analyzed. The detection of incomplete chromosomes, as well as non-parental bands in Southern hybridizations with RFLP markers, revealed extensive chromosome rearrangements in the asymmetric hybrids.     

Callus culture as substrate for the production of specific cell wall degrading enzymes for derived protoplast isolation

Callus culture of spruce (Picea excelsa LINK) appears to be a suitable substrate for the fungusTrichoderma reesei to produce an efficient extracellular lytic system for protoplast isolation. In comparison with Onozuka R-10 cellulase, a yield of protoplasts from the spruce callus 2·5 higher was obtained. Another testea commercial cellulase DK was less efficient. The addition of Macerozyme R–10 significantly enhanced release of protoplasts within all tested enzyme preparations. No difference in the viability of protoplasts has been observed.     

Nuclear genomic composition of asymmetric fusion products between irradiated transgenic Solanum brevidens and S. tuberosum: limited elimination of donor chromosomes and polyploidization of the recipient genome

Summary The production of asymmetric somatic hybrid calli after fusion between gamma-irradiated protoplasts from transgenic Solanum brevidens and protoplasts from S. tuberosum are reported. Transgenic (kanamycin-resistant, GUS-positive) S. brevidens plants and hairy root clones were obtained after transformation with Agrobacterium tumefaciens LBA 1060 (pRi1855) (pBI121) and LBA 4404 (pRAL4404) (pBI121), and A. rhizogenes LBA 9402 (pRi1855) (pBI121), respectively. Leaf protoplasts isolated from the transgenic plants or root protoplasts from the hairy root clones were fused with S. tuberosum leaf protoplasts, and several calli were selected on kanamycin-containing medium. The relative nuclear DNA content of the hybrid calli was measured by flow cytometry (FCM), and the percentages of DNA of the S. brevidens and S. tuberosum genomes in the calli were determined by dot blot analysis using species-specific DNA probes. Chromosome-specific restriction fragment length polymorphism (RFLP) markers were used to investigate the elimination of specific S. brevidens chromosomes in the hybrids. The combined data on FCM, dot blot and RFLP analysis revealed that 18–62% of the S. brevidens DNA was eliminated in the hybrid calli and that the RFLP marker for chromosome 7 was absent in seven out of ten calli. The absence of RFLP markers for chromosomes 5 and 11 hardly ever occurred. In most of the hybrids the ploidy level of the S. tuberosum genome had increased considerably.     

Intra- and interspecific gametosomatic hybridisation within the genus Petunia

Following PEG and high pH induced fusion, intraspecific gametosomatic hybrid plants (pollen tetrad protoplasts of a normal purple flowered variety of P. hybrida fused with cell suspension protoplasts of a nuclear albino mutant of the variety Blue Lace) and interspecific gametosomatic hybrid plants (tetrad protoplasts (as above) fused with cell suspension protoplasts of a nuclear albino mutant of P. parviflora) were recovered. Hybrid plants of both combinations possessed an intermediate vegetative and floral morphology with chromosome numbers of 2n=3x=21 and 2n=3x=25 respectively. Hybrid cells were in both systems identified as green colonies against an albino background as a result of complementation to chlorophyll proficiency. Pollen tetrad protoplasts did not divide. The production of such plants at the intra- and interspecific level in Petunia has shown that the concept of gametosomatic hybridisation can be extended to genera other than Nicotiana. An alternative selection strategy is available to that as used earlier for Nicotiana.     

Direct gene transfer to plant protoplasts by mild sonication

Summary A novel procedure employing mild sonication for transformation of plant protoplasts is described. Transient expression of a chloramphenicol acetyltransferase (CAT) gene in protoplasts of sugar beet (Beta vulgaris L.) and tobacco (Nicotiana tabacum L.) was obtained by a brief exposure of the protoplasts to 20 kHz ultrasound in the presence of plasmid DNA. Maximum levels of CAT activity were achieved by sonication for 500–900 ms at 30–70 W electric power (0.65–1.6 W/cm2 acoustic power). This reduced the viability to 15–20 % and 60 % for sugar beet and tobacco protoplasts, respectively. Up to 12 % (sugar beet) and 81 % (tobacco) of maximum transient expression could be achieved with no significant loss of viability. Protoplasts surviving exposure to ultrasound were found to have a similar long-term viability and to regenerate to micro-calli as untreated protoplasts. Plasmid DNA concentrations of 80–110 g/ml and sucrose concentrations of 21–28 % in the sonication medium were found to be optimal for transient expression.Abbreviations CAT chloramphenicol acetyltransferase     

High frequency of fusion induced in freely suspended protoplast mixtures by polyethylene glycol and dimethylsulfoxide at high pH

Fusion of freely suspended protoplast mixtures (hypocotyl protoplasts of Brassica napus mixed with mesophyll protoplasts of either B. campestris or Nicotiana plumbaginifolia) was induced by a solution containing 10% polyethylene glycol, 10% dimethyl-sulfoxide and 0.1M glycine-NaOH buffer (pH 10.0). The fusion products represented 15 to 17 percent of the surviving cells. More than 50% of the fusion products divided within two days after fusion, indicating that the fusion procedure did not significantly affect the viability of fused cells. The fusion products were not bound to the surface of the fusion vessel, so they could be isolated with a micropipette immediately after fusion.Abbreviations PEG polyethylene glycol - DMSO dimethylsulfoxide     

Fertile somatic hybrid between sexually incompatible Hyoscyamus muticus and Hyoscyamus albus

Summary Somatic hybrid plants have been regenerated from fused protoplasts of a chlorophyll deficient mutant of H. muticus (2n=28) with wild type protoplasts of H. albus (2n=68). The inability of protoplasts of H. albus to regenerate was utilized in complementation with achlorophyllous, but regenerating, protoplasts of H. muticus for the selection of green somatic hybrid colonies and plants. The somatic hybrid plants showed intermediate morphological characters, and possessed 82–120 chromosomes, with a modal number of 96 which is also the amphidiploid complement of the two species. The isozyme patterns indicated the presence and expression of genes from both parents. The hybrid plants produced 33–78% viable pollen and set viable seeds upon selfing and backcrossing in a directional manner.     

Induction and in vitro culture of soybean crown gall tumors

Induction of crown galls on 4–6 week old soybean (Glycine max (L.) Merr.) plants cultured in growth chambers was obtained with Agrobacterium tumefaciens strains C58, T37 and ACH5. The crown galls were isolated and cultured in vitro as sterile callus and liquid suspension cultures. Transformation was tested by opine tests and by molecular hybridization of restricted cell DNA with T-DNA fragments. Protoplasts were isolated from suspension cultures. Transformed protoplasts regenerate cell walls, divide and form calli without an exogenous supply of hormones.     

Isolation,culture, and cell division in cotyledon protoplasts of cotton (Gossypium hirsutum and G. barbadense)

Protoplasts were isolated from cotyledons and foliage leaves of cotton (Gossypium hirsutum and G. barbadense). Cotyledon protoplasts were larger and responded to culture better than leaf protoplasts. Cotyledon derived protoplasts regenerated cell walls and formed microcolonies of 2–3 cells in G. hirsutum and 5–8 cells in G. barbadense. However, the microcolonies did not grow beyond this stage. Protoplast yield and viability, cell wall regeneration and cell division were influenced by several factors, e.g., genotype, age, tissue and growth condition of donor plant, enzyme mixture and concentration, preplasmolysis period, incubation period, and culture medium.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - BAP 6-benzylaminopurine - GA₃ gibberellic acid - p CPA p-chlorophenoxyacetic acid - MES 2[N-morpholino]ethanesulfonic acid     

Root hair protoplasts ofLotus corniculatus L. (birdsfoot trefoil) express their totipotency

Treatment of the roots of 24–48 h old seedlings of the forage legumeLotus corniculatus with 1.0% Cellulase YC, and 0.1% Pectolyase Y-23 in 4.2% mannitol solution released protoplasts from the tips of root hairs within 30–40 sec of enzyme incubation. Roots from approximately 1000 seedlings yielded 1.7×10⁵ protoplasts. Ten percent of protoplasts divided to form cell colonies when cultured at 1.0×10⁵ ml^–1 in droplets of KM8P medium with 0.6% Sea Plaque agarose. Colonies formed callus on UM agar medium; protoplast-derived tissues produced shoots on B5 medium containing 0.05 mg 1^–1 of BAP. Regenerated plants were phenotypically and cytologically normal (2n=2x=24±2), and produced nitrogen fixing root nodules following inoculation withRhizobium. These results confirm the totipotency of protoplasts isolated from specialised epidermal cells of seedling roots ofLotus corniculatus.     

Isolation,culture and division of olive (Olea europaea L.) protoplasts

Protoplasts from Olea europaea L. have been compared in terms of their yield, viability, cell division and callus differentiation. Viable protoplasts were isolated from in vitro cultured leaves and cotyledons by an overnight incubation in an enzyme solution containing 1–1.5% driselase and 0.5M sucrose. This method allowed high yield of purified protoplasts, which floated and formed a dark green band at the meniscus, after centrifugation. Purified protoplasts were diluted to 3×10⁴ protoplasts·ml^–1 in culture medium. After cell wall regeneration, protoplasts gradually increased their volumes under appropriate conditions. The first divisions occurred during the second week in culture. Division efficiency ranged from 5.2 to 9.8% after 20 days in culture. Two weeks later visible microcolonies developed only from cotyledon protoplasts. After 6 weeks in culture, the microcalli were transferred to a solidified culture medium with 0.6% agarose, which induced active callus growth.Abbreviations OM olive proliferation medium, Rugini 1984 - Omg OM for the germination of olive embryos - OMr=OM for root induction - OMp=OM for protoplasts - OMc=OM for callus - BN Bourgin and Nitsch medium 1967 - IBA indol-3-butyric acid - NAA naphthalene acetic acid - 2,4-D dichlorophenoxyacetic acid.     

Regeneration of somatic embryos from protoplasts isolated from an embryogenic suspension culture of white spruce (Picea glauca)

Regeneration of white spruce (Picea glauca) somatic embryos from protoplasts derived from an embryogenic suspension culture was accomplished using a culture medium containing 2 mgl^–1 2,4-D and 1 mgl^–1 6-BAP. Divisions within 2 days led to plating efficiencies in the order of 24% after 9 days. A reduction in the osmoticum, necessary for sustained growth, was carried out gradually over 30 days. Embedding in agarose and culture in 5 cm petri dishes prior to transfer of agarose blocks to a bead type culture, led to the formation of somatic embryos as early as 23 days after isolation and yielded plating efficiencies in the order of 5–10% after 35 days culture.     

Isolation and culture of protoplasts from embryogenic suspension cultures of red fescue (Festuca rubva L.)

Protoplasts were isolated from fast-growing embryogenic suspension cultures of red fescue cv. Dawson (Festuca rubra L.) without agitation. The enzyme isolation solution was highly efficient at releasing protoplasts of greater than 95% viability (5×10⁶–10⁷ protoplasts per ml of packed cell volume). A three step procedure was followed for washing and transferring protoplasts from a solution high in inorganic salts to a medium containing glucose and sucrose. The addition of 30 mM sodium thiosulfate to the wash and culture media was found to be helpful in reducing the number of lysed protoplasts. Isolated protoplasts began to divide within 48–72 h when protoplasts were plated in agarose squares and surrounded by nurse cells (mixed nurse plating technique). Maximum colony formation (plating efficiency) was approximately 1%. Many of the colonies continued to grow and produced embryos when transferred to a medium consisting of half-strength MS salts, 4 mg/l 2,4-D, 3 g/l casein hydrolysate and 30 g/l sucrose. Upon transfer to hormone-free medium and exposure to light 16 h/day, many of the embryos germinated to produce green leaves and roots.Abbreviations BA Benzylaminopurine - 2,4-D 2,4-dicholorophenoxyacetic acid - DMSO dimethyl sulfoxide - MES 2-(N-morpholino)-ethanesulfonicn acid - MS Murashige and Skoog medium (1962) - UGC Ultraclone Growth Chamber - KM Kao and Michayluk medium (1975) - NAA Naphthalene acetic acid     

Direct somatic embryogenesis from protoplasts of Citrus mitis Blanco

Protoplasts isolated from embryogenic suspension cultures of Citrus mitis were cultured in a medium without any plant growth substances. Somatic embryos developed directly from protoplasts without an obvious intervening callus phase. As many as 1,800 somatic embryos developed from 4 ml of protoplast suspension (density 2×10⁶/ml) cultured for 35 days. Upon transferring the embryoids to medium with 1 mgl^–1 GA₃, they developed into plant-lets. Rooted plantlets were obtained in 3 months after protoplast isolation.Abbreviations BAP Benzylaminopurine - GA₃ Gibberellic acid - MT Murashige and Tucker medium (1969) - FDA Fluorescein diacetate