Composition of the cell wall formed by protoplasts isolated from cell suspension cultures of Vinca rosea

The biochemistry of cell-wall regeneration in protoplasts obtained from Vinca rosea L. (Catharanthus roseus (L.) G. Don) cells grown in suspension culture by isolating the regenerated wall and the extracellular polysaccharides of protoplasts cultured for various periods, and investigating their composition. Gas-liquid chromatography and tracer studies with D-[U-¹⁴C]glucose showed that the sugar composition of the extracellular polysaccharides was similar to that of the original cell culture, consisting mainly of polyuronide and 3,6-linked arabinogalactan. the regenerated cell wall was composed of non-cellulosic glucans having 1,3- and 1,4-linkages, while its content in pectic and hemicellulosic components was very low.     

Stabilization of cortical microtubules by the cell wall in cultured tobacco cells

Cortical microtubules (MTs) in protoplasts prepared from tobacco (Nicotiana tabacum L.) BY-2 cells were found to be sensitive to cold. However, as the protoplasts regenerated cell walls they became resistant to cold, indicating that the cell wall stabilizes cortical MTs against the effects of cold. Since poly-l-lysine was found to stabilize MTs in protoplasts, we examined extensin, an important polycationic component of the cell wall, and found it also to be effective in stabilizing the MTs of protoplasts. Both extensin isolated from culture filtrates of tobacco BY-2 cells and extensin isolated in a similar way from cultures of tobacco XD-6S cells rendered the cortical MTs in protoplasts resistant to cold. Extensin at 0.1 mg·ml⁻¹ was as effective as the cell wall in this respect. It is probable that extensin in the cell wall plays an important role in stabilizing cortical MTs in tobacco BY-2 cells.     

Fine structure of fusion products from soybean cell culture and pea leaf protoplasts

Protoplasts from pea (Pisum sativum L.) leaves and cultured soybean (Glycine max L.) cells were fused by means of polyethylene glycol and subsequently cultured for one week. Both agglutinated protoplasts and cultured fusion products were examined by electron microscopy. Agglutination occurred over large areas of the plasma membranes. The membrane contanct was discontinuous and irregularly spaced. Many cultured fusion products regenerated cell walls and divided to form cell clusters. Fusion of pea and soybean interphase nuclei occurred in some cells. The detection of heterochromatin typical of pea in the synkaryon, even after division, suggests the cells were hybrids. The cytoplasm of the cells from the fusion products contained both soybean leucoplasts and pea chloroplasts. The chloroplasts had apparently ceased dividing and some showed signs of degenerating. Large multinucleate fusion products developed cell walls but failed to divide.Abbreviations PEG polyethylene glycol - SEM scanning electron microscopy - TEM transmission electron microscopy Supported by National Research Council of Canada, Grant A6304     

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     

Impermeant auxin analogues have auxin activity

Protein conjugates of 5-aminonaphthalene-1-acetic acid and of 5-azido-naphthalene-1-acetic acid have been prepared and evaluated for auxin activity in two types of assay. In standard elongation tests with pea (Pisum sativum L.) epicotyl sections the conjugates are inactive. However, if the epicotyls are abraded to perforate the cuticle, auxin activity is observed provided that the conjugates are not too large to traverse the cell wall. In a system lacking a cell wall — tobacco (Nicotiana tabacum L.) protoplasts — conjugates of widely differing size are able to induce membrane hyperpolarization. These results support other recent evidence that auxin receptors are exposed at the exterior face of the plasma membrane and indicate that auxins can produce both rapid and longer-term responses without entering the cell.Abbreviations ABP auxin-binding protein - BSA bovine serum albumin - E_m transmembrane potential difference - KLH keyhole limpet hemocyanin - NAA naphthalene-1-acetic acid This work was partly supported under the Biotechnology Action Programme of the European Economic Communities. We thank Mr. P. Cozens for technical assistance.To whom correspondence should be addressed.     

Somatic hybridization in Citrus: navel orange (C. sinensis Osb.) and grapefruit (C. paradisi Macf.)

Summary Protoplasts of navel orange, isolated from embryogenic nucellar cell suspension culture, were fused with protoplasts of grapefruit isolated from leaf tissue. The fusion products were cultured in the hormone-free medium containing 0.6 M sucrose. Under the culture conditions, somatic embryogenesis of navel orange protoplasts was suppressed, while cell division of grapefruit mesophyll protoplasts was not induced. Six embryoids were obtained and three lines regenerated to complete plants through embryogenesis. Two of the regenerated lines exhibited intermediate morphological characteristics of the parents in the leaf shape. Chromosome counts showed that these regenerated plants had expected 36 chromosomes (2n=2x=18 for each parent). The rDNA analysis using biotin-labeled rRNA probes confirmed the presence of genomes from both parents in these plants. This somatic hybridization system would be useful for the practical Citrus breeding.     

Production and analysis of asymmetric hybrid plants between monocotyledon (Oryza sativa L.) and dicotyledon (Daucus carota L.)

Asymmetric hybrid plants were obtained from fused protoplasts of a monocotyledon (Oryza sativa L.) and a dicotyledon (Daucus carota L.). X-ray-irradiated protoplasts isolated from a cytoplasmic malesterile (cms) carrot suspension culture were fused with iodoacetoamide-treated protoplasts isolated from a 5-methyltryptophan (5MT)-resistant rice suspension culture by electrofusion. The complementary recovered cells divided and formed colonies, which were then cultivated on regeneration medium supplemented with 25mg/l 5MT to eliminate any escaped carrot cells. Somatic hybrids were regenerated from 5 of the 5MT-resistant colonies. The morphologies of most of the regenerated plants closely resembled that of the parental carrot plants. A cytological analysis of callus cultures induced from these plants indicated that most of the cells possessed 20–22 chromosomes and were resistant to 5MT. An isozyme analysis revealed that several regenerated plants had the peroxidase isozyme patterns of both parents. A Southern hybridization analysis with non-radioactively labelled DNA fragments of the rgp1 gene showed that regenerated plants had hybridizing bands from both rice and carrot. Chloroplast (cp) and mitochondrial (mt) DNAs were also analyzed by Southern hybridization by using several probes. CpDNA patterns of the regenerated plants were indistinguishable from those of the carrot parent. However 1 of the regenerated plants had a novel band pattern of mtDNA that was not detected in either of the parents, indicating a possible recombination of mitochondrial genomes.     

Asymmetric protoplast fusion between sweet potato and its relatives,and plant regeneration

Experiments were conducted to asymmetrically fuse protoplasts from sweet potato (Ipomoea batatas L. Lam.) and its wild relativesI. trifida Don. andI. lacunosa L. Protoplasts of sweet potato were treated with iodoacetamide, whereas those ofI. trifida Don. andI. lacunosa L. were irradiated with X-rays. The asymmetric protoplast fusion was carried out by the electrofusion method and by polyethylene glycol treatment. Electrically-fused protoplasts initiated cell division, and then formed calli earlier than the polyethylene glycol-fused protoplasts. Plant regeneration occurred only in electrofused calli, suggesting that polyethylene glycol had some toxic effect on plant regeneration ability. Analysis of peroxidase isozymes confirmed the interspecific hybrid characteristics of both the fusion-derived calli and regenerated plants.     

Somatic hybridization between birdsfoot trefoil (Lotus corniculatus L.) and L. conimbricensis Willd

Summary Somatic hybrid plants were produced by fusion of birdsfoot trefoil (Lotus corniculatus) cv Leo and L. conimbricensis Willd. protoplasts. Birdsfoot trefoil etiolated hypocotyl protoplasts were inactivated with iodoacetate to inhibit cell division prior to fusion with L. conimbricensis suspension culture protoplasts. L. conimbricensis protoplasts divided to form callus which did not regenerate plants. Thus, plant regeneration from protoplast-derived callus was used to tentatively identify somatic hybrid cell lines. Plants regenerated from three cell lines exhibited additive combinations of parental isozymes of phosphoglucomutase, and L. conimbricensis-specific esterases indicating that they were somatic hybrids. The somatic chromosome number of one somatic hybrid was 36. The other somatic hybrid exhibited variable chromosome numbers ranging from 33 to 40. These observations approximate the expected combination of the birdsfoot trefoil (2n=4x=24) and L. conimbricensis (2n=2x=12) genomes. Somatic hybrid flowers were less yellow than birdsfoot trefoil flowers and had purple keel tips, a trait inherited from the white flowered L. conimbricensis. Somatic hybrids also had inflorescence structure that was intermediate to the parents. Fifteen somatic hybrid plants regenerated from the three callus lines were male sterile. Successul fertilization in backcrosses with birdsfoot trefoil pollen has not yet been obtained suggesting that the hybrids are also female sterile. This is the first example of somatic hybridization between these two sexually incompatible Lotus species.Formerly USDA-ARS, St. Paul, Minn, USA     

黑果枸杞原生质体培养及植株再生

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

Immunological evidence for transfer of the barley nitrate reductase structural gene to Nicotiana tabacum by protoplast fusion

Summary A protoplast fusion experiment was designed in which the selectable marker, nitrate reductase (NR), also served as a biochemical marker to provide direct evidence for intergeneric specific gene transfer. NR-deficient tobacco (Nicotiana tabacum) mutant Nia30 protoplasts were the recipients for the attempted transfer of the NR structural gene from 50 krad -irradiated barley (Hordeum vulgare L.) protoplasts. Barley protoplasts did not form colonies and Nia30 protoplasts could not grow on nitrate medium; therefore, selection was for correction of NR deficiency allowing tobacco colonies to grow on nitrate medium. Colonies were selected from protoplast fusion treatments at an approximate frequency of 10^-5. This frequency was similar to the Nia30 reversion frequency, and thus provided little evidence for transfer of the barley NR gene to tobacco. Plants regenerated from colonies had NR activity and were analyzed by western blotting using barley NR antiserum to determine the characteristics of the NR conferring growth on nitrate. Ten plants exhibited tobacco NR indicating reversion of a Nia30 mutant NR locus. Twelve of 26 regenerated tobacco plants analyzed had NR subunits with the electrophoretic mobility and antigenic properties of barley NR. These included plants regenerated from colonies selected from 1) co-culturing a mixture of Nia30 protoplasts with irradiated barley protoplasts without a fusion treatment, 2) a protoplast fusion treatment of Nia30 and barley protoplasts, and 3) a fusion treatment of Nia30 protoplasts with irradiated barley protoplasts. No barley-like NR was detected in plants regenerated from a colony that grew on nitrate following selfed fusion of Nia30 protoplasts. Because tobacco plants expressing barley-like NR were recovered from mixture controls as well as fusion treatments, explanations for these results other than protoplast fusionmediated gene transfer are discussed.     

Comparison of cell wall regeneration on maize protoplasts isolated from leaf tissue and suspension cultured cells

Summary The cell wall regeneration on protoplasts derived from maize mesophyll cells was compared with wall regeneration on protoplasts derived from suspension cultured cells using light microscopy, transmission electron microscopy, and mass spectrometry. The time course of cell wall regeneration has shown that the mesophyll protoplasts regenerated walls much slower than the protoplasts derived from cultured cells. Moreover, cell wall materials on the mesophyll protoplasts were often unevenly distributed. Electron microscopy has further demonstrated that the mesophyll protoplasts have less organized and compact walls than the protoplasts from cultured cells. Chemical analysis revealed that the mesophyll protoplasts had a lower ratio ofβ-(1–3)-glucan toβ-(1–4)-glucan than protoplasts from cultured cells. The significance of these results for the viability and development of protoplasts in culture is discussed. National Research Council of Canada paper no. 32458.     

Morphology ofEntomophthora muscae protoplasts grownin vitro

Summary Entomophthora muscae (C.) Fres. can be grownin vitro as protoplasts. Light and electron microscopical studies of thein vitro developed protoplasts have demonstrated the absence of an organized wall over the protoplasmic Con A-positive membrane at all stages of growth. The cytological organization is typical of the Entomophthorales with condensed chromatin in the interphase nuclei and small eccentric metaphase spindles. Long strands of endoplasmic reticulum, microubules and vesicles surrounding the plasmalemma may be involved in maintaining the precise shape ofE. muscae protoplast. Starvation of the fungus induces the formation of hyphal bodies after deposition of Con A- and WGA-positive wall material at the plasmalemma surface.Abbreviations Con A concanavalin A - DH Drosophila cell culture medium - FITC fluorescein isothiocyanate - GLEN glucose-lactal-bumin-yeast extract-NaCl culture medium for protoplasts - HBL hyphal body-like protoplasts - MM Mitsuhashi and Maramorosch' insect cell culture medium - PATAg periodic acid-thiocarbohydrazide-silver proteinate technique - PBN phosphate buffer with NaCl - S spherical protoplasts - WGA wheat germ agglutinin     

Subcellular localization of ubiquitin in plant protoplasts and the function of ubiquitin in selective degradation of outer-wall plasmodesmata in regenerating protoplasts

Immunocytochemical localizations in Vicia faba L. protoplasts and cultures of regenerating Solanum nigrum L. protoplasts support former observations that in plant cells ubiquitin occurs within the cytoplasm, the nucleus, the chloroplasts and at the plasmalemma, but not within the vacuole or the cell wall. Immunoresponses were also observed within mitochondria and associated with the endoplasmic reticulum, which is in accordance with previous findings on animal cells. Moreover, the tonoplast membrane system was found to be labelled. For regenerating S. nigrum protoplasts, evidence is given that ubiquitin plays a role in selective degradation even of whole subcellular structures. Most of the discontinuous plasmodesmata formed in the newly deposited outer cell walls during the early stages of culture disappear later on, except for those near the periphery of division walls or of non-division walls, which are probably used for the formation of continuous cell connections during further culture. Outer-wall plasmodesmata which are destined to disappear show high immunoreactivity to ubiquitin antibody, but no conspicuous immunolabelling was observed with the remaining plasmodesmata. Thus, the selective disintegration of whole plasmodesmatal structures is obviously regulated by ubiquitination of plasmodesmatal proteins. A model for the mechanism of degradation of outer-wall plasmodesmata during extension growth of the cell wall is presented.Dedicated to Professor Dr. Andreas Sievers on the occasion of his retirementThis work was supported by grants to R. K. (Deutsche Forschungsgemeinschaft) and to M. S. (Bennigsen-Foerder Preis des Landes Nordrhein-Westfalen). We thank Dipl.— Biol. Kirsten Leineweber for help with the V. faba protoplast isolation and Dr. Olaf Parge, Institut für Psychologie und Sozialforschung, Kiel, Germany, for giving assistance with the statistical analysis.     

Surface charge of protoplasts and their significance in cell-cell interaction

-potential of mesophyll protoplasts of tobacco (Nicotiana tabacum L.), petunia (Petunia hybrida Hort.), turnip (Brassica rapa L.) and cowpea (Vigna unguiculata L. Walpers) was determined by use of a cell electrophoresis apparatus. All protoplasts examined showed a constant negative value of-10 to-35 mV. The addition of CaCl₂ nullified the -potential of tobacco protoplasts. This phenomenon is explained by DLVO theory of colloid science, which has been successfully applied to animal cells. Furthermore, positively charged polymers reversed the -potential to positive values. Treatment of the protoplast surface with several enzymes was carried out to characterize the chemical nature of suface charges. The removal of surface charges was most conspicuous by the treatment of acid phosphatase (EC 3.1.3.2), but did not occur upon treatment with -neuraminidase (EC 3.2.1.18) or Streptomyces griseus pronase. Thus a major part of the surface charge originates from the phosphate groups at the cell membrane. The significance of these studies for the properties of the protoplast surface in cell adhesion is discussed.     

Increased totipotency of protoplasts from Brassica oleracea plants previously regenerated in tissue culture

Factors affecting the division of cells derived from leaf and cotyledon protoplasts from Brassica oleracea L. var. italica (Green Comet hybrid broccoli) were examined to optimize conditions for plant regeneration and to determine whether there was a genetic basis for improved regeneration from protoplasts derived from plants previously regenerated from tissue cultures [15]. When leaf protoplasts from different plants grown from hybrid seed were isolated and cultured simultaneously, division efficiencies of 1–95% were obtained. Cells from some plants showed high division efficiencies in consecutive experiments while cells from other plants had consistently low division rates. More plants from hybrid seed gave high division efficiencies when cotyledon protoplasts were used. However, cotyledon or leaf protoplasts from selfed progeny of regenerated plants produced more vigorous calli and more shoots than protoplasts from hybrid seed. These results suggest that there may be a genetic component to the increased totipotency of Brassica oleracea protoplasts.     

Cybridization in Nicotiana tabacum L. using double inactivation of parental protoplasts and post-fusion selection based on nuclear-encoded and chloroplast-encoded marker genes

An effective selection system preceded by double inactivation of parental protoplasts was used to transfer Nicotiana suaveolens Leh. cytoplasmic male sterility into a commercial tobacco (N. tabacum L.) breeding line. Mesophyll protoplasts from transformed plants of N. tabacum cultivar WZ2-3-1-1 possessing a neomycin phosphotransferase II gene were used as the nuclear donors, while those isolated from N. suaveolens plants carrying a chloroplast mutation for resistance to spectinomycin, induced using nitrosomethyl urea, were the cytoplasm donors in somatic cybridizations. Prior to fusion, nuclear donor protoplasts were inactivated with iodoacetamide or rhodamine 6G, while those of the cytoplasm donor were inactivated by X-irradiation. The resultant microcalli were cultured on a shoot regeneration medium containing both kanamycin and spectinomycin to select cybrids. Only regenerants that had typical characteristics of the N. tabacum cultivar were selected for transfer to the glasshouse. Four putative cytoplasmic male-sterile (CMS) plants, out of a total of 44 regenerated plants transferred to the glasshouse, were obtained. Intraspecific somatic transfers of the CMS trait between N. tabacum cultivars with distinctlydifferent morphologies using single inactivation and nonselective shoot regeneration medium were demonstrated. The implications of the results for practical tobacco breeding as a means of circumventing lengthy backcrossing procedures are discussed.     

Somatic hybridization of Nicotiana tabacum and Petunia hybrida

Summary Leaf mesophyll protoplasts of a nitrate reductase deficient streptomycin resistant mutant of Nicotiana tabacum were fused with cell suspension protoplasts of wild type Petunia hybrida. Somatic hybrid cell colonies were selected for streptomycin resistance and nitrate reductase proficiency. Six independent cell lines, capable of growth in selection medium, were analysed by electrophoresis of callus peroxidases and leucine aminopeptidases and also by hybridization with rDNA and a chloroplast encoded gene as molecular probes. The results show that all six lines represented nuclear somatic hybrids, possessing the chloroplast of N. tabacum, at an early stage of development. However, after 6–12 months in culture, genomic incompatibility was observed resulting in the loss of most of the tobacco nuclear genome in the majority of the cell lines. One of the latter cell lines regenerated plants which possessed the chloroplast of N. tabacum in a predominantly P. hybrida nuclear background.     

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.     

Somatic hybridization of sexually incompatible top-fruit tree rootstocks,wild pear (Pyrus communis var. pyraster L.) and Colt cherry (Prunus avium x pseudocerasus)

Summary Mesophyll protoplasts of wild pear (Pyrus communis var. pyraster L., Pomoideae) were chemically fused with cell suspension protoplasts of cherry rootstock Colt (Prunus avium x pseudocerasus, Prunoideae), following an electroporation treatment of the separate parental protoplast systems. Fusion-treated protoplasts were cultured, on modified K8P medium, where it had been previously established that neither parental protoplasts were capable of division. Somatic hybrid calli were recovered and, following caulogenesis on MS medium with zeatin and after rooting of regenerated shoots, complete trees were obtained and grown in vivo. Hybridity of these trees was confirmed based on morphological characters, chromosome complement and isozyme analysis. Two separate cloned lines of this intersubfamilial rootstock somatic hybrid (wild pear (+) Colt cherry) were produced. This is the first report of the production of somatic hybrid plants of two woody species, of agronomic value, within the order Rosales.