Seaweed protoplasts: status,biotechnological perspectives and needs

Protoplasts are living plant cells without cell walls which offer a unique uniform single cell system that facilitates several aspects of modern biotechnology, including genetic transformation and metabolic engineering. Extraction of cell wall lytic enzymes from different phycophages and microbial sources has greatly improved protoplast isolation and their yield from a number of anatomically more complex species of brown and red seaweeds which earlier remained recalcitrant. Recently, recombinant cell wall lytic enzymes were also produced and evaluated with native ones for their potential abilities in producing viable protoplasts from Laminaria. Reliable procedures are now available to isolate and culture protoplasts from diverse groups of seaweeds. To date, there are 89 species belonging to 36 genera of green, red and brown seaweeds from which successful protoplast isolation and regeneration has been reported. Of the total species studied for protoplasts, most belonged to Rhodophyta with 41 species (13 genera) followed by Chlorophyta and Phaeophyta with 24 species each belonging to 5 and 18 genera, respectively. Regeneration of protoplast-to-plant system is available for a large number of species, with extensive literature relating to their culture methods and morphogenesis. In the context of plant genetic manipulation, somatic hybridization by protoplast fusion has been accomplished in a number of economically important species with various levels of success. Protoplasts have also been used for studying foreign gene expression in Porphyra and Ulva. Isolated protoplasts are also exploited in numerous miscellaneous studies involving membrane function, cell structure, bio-chemical synthesis of cell walls etc. This article briefly reviews the status of various developments in seaweed protoplasts research and their potentials in genetic improvement of seaweeds, along with needs that must to be fulfilled for effective realization of the objectives envisaged for protoplast research.     

Electron microscopy study of cell structures and their changes during growth and regeneration ofSchizosaccharomyces pombe protoplasts

The submicroscopic structure of growing and regeneratingSchizosaccharomyces pombe protoplasts cultivated in solid and liquid medium was studied by means of ultrathin sectioning. The protoplasts regenerate within 24 hours. Shortly before growth commences, rudiments of the new cell wall can be identified on the protoplast surface. Simultaneously, a large number of dictyosomes appears in the cytoplasm and decreases as synthesis of the new wall progresses. An increase occurs in the number of endoplasmic reticulum membranes some of which are arranged parallel with the cytoplasm membrane of the protoplast. Throughout the whole time of regeneration the protoplasts contain only one nucleus. The nucleo-cytoplasm ratio of growing and regenerating protoplasts is lower than in intact cells. The number of mitochondria falls at the outset of regeneration and does not rise again until towards the end.     

Sucrose biosynthesis in Dunaliella

Four independent kinds of observations indicate that the cell wall regenerated by oat (Avena sativa L.) and corn (Zea mays L.) protoplasts in culture is less well developed than that regenerated by tobacco (Nicotiana tabacum L.) protoplasts. Following wall regeneration the cereal protoplasts remained susceptible to osmotic shock upon transfer to water, showed great enlargement, stained poorly with calcofluor white, and maintained a positive internal electrical potential. The development of a negative membrane potential by tobacco protoplasts in culture often occurred simultaneously with the onset of cell division. Since division was observed only in protoplasts which had regenerated good cell walls and had re-established negative membrane potentials it is suggested that culture conditions which favor these two processes should improve protoplast viability.     

Uptake of protoplasts from the filamentous fungiAspergillus nidulans andFusarium oxysporum into protoplasts from celery (Apium graveolens L.)

Summary Protoplasts isolated from celery cell suspension cultures, were mixed with fungal protoplasts, from either the saprophytic speciesAspergillus nidulans or the pathogenic speciesFusarium oxysporum. The incubation of protoplast mixtures with PEG caused close adhesion between plant and fungal protoplasts. Subsequent dilution of PEG resulted in the uptake of protoplasts from either fungal species into the plant protoplast cytoplasm. A range of PEG concentrations, incubation times and dilution rates were tested to maximise adhesion and uptake frequencies. Identification of uptake was achieved either by fluorescent staining of nuclei or by electron-microscopy. A maximum of 10% celery protoplasts had taken upA. nidulans protoplasts after PEG treatment. Fungal protoplasts were taken up into celery protoplast cytoplasm by endocytosis, and were maintained within vesicles; two bounding membranes were observed by electron microscopy. Plant protoplast viability was determined during prolonged incubation following fungal protoplast uptake. The presence ofA. nidulans protoplasts tended to maintain celery protoplast viability and although some morphological disintegration occurred intact celery protoplasts remained for at least 92 h after uptake. The uptake ofF. oxysporum protoplasts markedly depressed celery protoplast viability after 24 h incubation and greater celery protoplast disintegration occurred.Abbreviations PEG Polyethylene glycol - DAPI 4,6-diaminido-2-phenylindole - 2,4-D 2,4-dichlorophenoxyacetic acid     

Agglutinating Effects of Concanavalin A on Isolated Protoplasts of Daucus carota

The agglutinating effects of Concanavalin A (Con A) on protoplasts isolated from cell suspensions of Daucus carota were studied. Con A was shown to agglutinate the plant protoplasts in a manner similar to the way some animal cells are agglutinated. The agglutination process is dependent on the Concanavalin A concentration, protoplast density, treatment time, the temperature, and the membrane condition, α-D-Methylgluco-pyranosid completely inhibited Con A induced agglutination. The results are discussed in relation to membrane structure and morphology.     

A simple method for the isolation of plant protoplasts

A simple protoplast isolation protocol that was designed to recover totipotent plant protoplasts with relative ease has been described. The key elements of the protocol are, tissue digestion at slightly elevated temperatures and use of protoplast-releasing enzymes that are stable and efficient at higher temperatures. Besides enzymes, the protoplast isolation cocktail consisted of an osmoticum (mannitol or MgSO₄), and a protectant (CaCl₂ 2H₂O), all dissolved in distilled water. The protocol has ensured reproducibility, higher yields and is gentle on protoplasts as the protoplasts obtained were amenable to cell wall regeneration and cell division. Plant regeneration was demonstrated forNicotiana tabacum cv. Thompson from protoplasts isolated by this method. Wall regeneration and cell division were obtained in other species. The merits of the protocol are, simple and easy-to-handle procedure, non-requirement of preconditioning of donor plant and explants, incubation without agitation, satisfactory yields, culturability of the protoplasts isolated and applicability of the protocol to a large number of species including mucilage-containing plants.     

Plasmalemma hyperpolarity and culture of sense and antisense abp transgenic tobacco protoplasts

The relationship among transfer and expression of auxin binding protein gene (abp), auxin (NAA)-induced plasmalemma hyperpolarity and sensibility to auxin during protoplast culture was studied by measuring transmembrane potential difference (Em) and culturing the protoplasts of sense and antisenseabp transgenic tobacco. The concentration of NAA inducing the highest degree of hyperpolarity of senseabp transgenic tobacco protoplasts was lower than the control, and in protoplast culture, their sensibility to auxin increased. The concentration of antisenseabp transgenic tobacco protoplasts was higher than the control, and in protoplast culture, their sensibility to auxin decreased. These results demonstrated that ABP synthesized in endoplasmic reticulum needed to transport to cell membrane and functioned there. Project supported by the State Key Laboratory of Plant Molecular Genetics and National Natural Science Foundation of China (Grant No. 39670078).     

Electrofusion of protoplasts from celery (Apium graveolens L.) with protoplasts from the filamentous fungus Aspergillus nidulans

A method was developed for electrofusion of higher-plant protoplasts from celery and protoplasts from the filamentous fungus Aspergillus nidulans. Initially, methods for the fusion of protoplasts from ecch species were determined individually and, subsequently, electrical parameters for fusion between the species were determined. Pronase-E treatment and the presence of calcium ions markedly increased celery protoplast stability under the electrical conditions required and increased fusion frequency with A. nidulans protoplasts. A reduction in protoplast viability was observed after electrofusion but the majority of the protoplasts remained viable over a 24-h incubation period. A small decline in protoplast respiration rate occurred during incubation but those celery protoplasts fused with A. nidulans protoplasts showed elevated respiration rates for 3 h after electrofusion.Abbreviations AC alternating current - DC direct current     

Monoclonal antibodies identify common and differentiation-specific antigens on the plasma membrane of guard cells of Vicia faba L.

Monoclonal antibodies were raised against the plasma membrane of Vicia faba L. guard cells by immunizing either with total membranes from purified guard-cell protoplasts or with sealed, predominantly right-side-out plasma-membrane vesicles prepared from abaxial epidermes of V. faba by aqueous two-phase partitioning. Hybridoma screening was performed by enzyme-linked immunosorbent assay using polystyrene-adsorbed plasma-membrane vesicles as solid phase and by indirect immunofluorescence analysis using unfixed, immobilized protoplasts in a microvolume Terasaki assay. A range of monoclonal antibodies was characterized and is reported here. One monoclonal antibody, G26-6-B2, is guard-cell-specific and does not react with mesophyll-cell protoplasts of the same species. It binds to a periodate-resistant but trypsin-labile epitope, probably a differentiation-specific plasma-membrane protein.Abbreviations ELISA enzyme-linked immunosorbent assay - FITC fluorescein isothiocyanate - GCP guard cell protoplast(s) - Ig immunoglobulin - MAB monoclonal antibody - MCP mesophyll-cell protoplast(s) - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Flow cytometric quantification of electroporation-mediated uptake of macromolecules into plant protoplasts

Summary Flow cytometry was used to provide a rapid and accurate assessment of electroporation-induced uptake of macromolecules into plant protoplasts. Rice protoplasts were electroporated in the presence of fluorescein isothiocyanate-conjugated dextran (FITC-dextran). After washing, the protoplasts were resuspended in a solution containing propidium iodide which intercalates with DNA, but which is excluded by an intact plasma membrane. Electroporation in the presence of FITC-dextran gave rise to populations of protoplasts that fluoresced green or yellow due to the presence of non-conjugated FITC. Non-viable protoplasts fluoresced red because of their inability to exclude propidium iodide molecules. Flow cytometry was used to resolve and quantify these protoplast populations and thus identify optimal conditions for macromolecule uptake. A direct relationship was observed between FITC-dextran uptake and transient gene expression following plasmid uptake. Thus, simultaneous electroporation of protoplasts with foreign DNA and FITC-dextran followed by fluorescence activated cell sorting may permit partial selection of transformed cells and so reduce the need for a selectable marker.Abbreviations ADC analogue to digital converter - CAT chloramphenicol acetyl transferase (enzyme) - cat chloramphenicol acetyl transferase (gene) - CPW solution cell and protoplast wash solution - DC direct current - EF electrofusion - FALS forward angle light scatter - FITC fluorescein isothiocyanate - FITC-dextran fluorescein isothiocyanate conjugated dextran - PI propidium iodide - PMT photomultipliertube - TLC thin layer chromatography     

Reduction of the number of nuclei per cell ofHelminthosporium euphorbiae by protoplast isolation

Helminthosporium euphorbiae is a pathogen of the weedEuphorbia heterophylla, which causes severe losses in soybean (Glycine max) crops. The fungus causes leaf loss and affects germination, making it a promising biocontrol agent for this weed. In order to start a breeding program for this species, four isolates were examined for number of nuclei in the conidia and hyphae and nuclear behavior at different cultivation stages. The conidia were multinucleated with about 20 nuclei per conidium, and 5 to 7 nuclei were observed in the hyphae compartments. The high number of nuclei makes the genetic manipulation of this species diffucult, so the protoplast formation is an alternative for obtaining cells with a reduced number of nuclei. Thus the experimental conditions for the production and regeneration of protoplasts inH. euphorbiae were determined by assessing three enzymatic complexes and seven osmotic stabilizers. The efficiency of formation and regeneration frequency of the protoplasts varied depending on isolates, stabilizers and enzyme mixture used. The number of nuclei estimated per protoplast was reduced to 1 to 6, depending on the stage of mycelial growth during the protoplast formation process.     

Isolation of mesophyll and secretory cell protoplasts of the halophyte Ceratostigma plumbaginoides (L.): a comparison of ATPase concentration and activity

Summary A method is described for isolating mesophyll protoplasts from leaves and secretory cell protoplasts from salt glands of the facultative halophyte, Ceratostigma plumbaginoides (L.). Rates of ATP hydrolysis in both cell types were determined, and levels in secretory cell protoplast preparations were fourfold higher than those in mesophyll protoplast preparations, based on total protein. The rate of ATP hydrolysis was sensitive to azide and vanadate, and stimulated by Triton-X-100. Additionally, immunoblot procedures using an antibody to the plasma membrane H⁺/ATPase was used to compare ATPase levels of the mesophyll and secretory cell protoplasts. Results indicate that secretory cells have a higher concentration of H⁺/ATPase than mesophyll cells, consistent with their putative function in salt glands.Abbreviations ATP adenosine triphosphate - BSA bovine serum albumin - DIDS diisothiocyano-2,2'-disulfonic acid stilbene - DNP dinitrophenol - DTT dithiothreitol - FITC fluorescein isothiocyanate - NAD⁺/NADH nicotinamide adenine dinucleotide - SDS sodium dodecylsulfate     

The role of microtubules and cell-wall deposition in elongation of regenerating protoplasts of Mougeotia

Protoplasts of the filamentous green alga Mougeotia sp. are spherical when isolated and revert to their normal cylindrical cell shape during regeneration of a cell wall. Sections of protoplasts show that cortical microtubules are present at all times but examination of osmotically ruptured protoplasts by negative staining shows that the microtubules are initially free and become progressively cross-bridged to the plasma membrane during the first 3 h of protoplast culture. Cell-wall microfibrils areoobserved within 60 min when protoplasts are returned to growth medium; deposition of microfibrils that is predominantly transverse to the future axis of elongation is detectable after about 6 h of culture. When regenerating protoplasts are treated with either colchicine or isopropyl-N-phenyl carbamate, drugs which interfere with microtubule polymerization, they remain spherical and develop cell walls in which the microfibrils are randomly oriented.     

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     

Karyokinesis in growing and reverting protoplasts ofSchizosaccharomyces pombe

Division of nuclei without cytokinesis proceeds in growing protoplasts ofSchizosaccharomyces pombe. Prior to regeneration of the complete cell wall and reversion the protoplasts contain 1–7 nuclei, protoplasts with 1–2 nuclei are most frequent. When regeneration of the wall is postponed by adding snail enzymes to the growth medium, protoplasts with a higher number of nuclei (2–4) occur. Multinuclear protoplasts can revert to cells. During the first cytokinesis the protoplast with the regenerated cell wall is divided into two cells by a septum, distribution of nuclei between the two cells being probably incidental. More than only a single nucleus can pass to the revertants even during the second cytokinesis. Septation of protoplasts occurs also during a partial blockage of the wall formation by the snail enzyme preparation, however, reversion to cells can never be observed here (it occurs only after transfer of protoplasts to the medium without the enzyme preparation). The growing and reverting protoplasts represent a very good model system for studying relations among individual processes of the cell cycle, primarily growth of the cell, nuclear cycle and cytokinesis. Yeast protoplasts are often utilized as models for studying morphogenic processes, relations among regeneration of the cell wall, including division of the nucleus (karyokinesis) and cytokinesis.     

Plasmalemma hyperpolarity and culture of sense and antisenseabp transgenic tobacco protoplasts

The relationship among transfer and expression of auxin binding protein gene (abp), auxin (NAA)-induced plasmalemma hyperpolarity and sensibility to auxin during protoplast culture was studied by measuring transmembrane potential difference (Em) and culturing the protoplasts of sense and antisenseabp transgenic tobacco. The concentration of NAA inducing the highest degree of hyperpolarity of senseabp transgenic tobacco protoplasts was lower than the control, and in protoplast culture, their sensibility to auxin increased. The concentration of antisenseabp transgenic tobacco protoplasts was higher than the control, and in protoplast culture, their sensibility to auxin decreased. These results demonstrated that ABP synthesized in endoplasmic reticulum needed to transport to cell membrane and functioned there.     

Coulter counter cell size determination of protoplasts fromArabidopsis thaliana PIP1b aquaporin antisense lines under iso- and hypo-osmotic conditions

Summary Water uptake ofArabidopsis thaliana protoplasts was measured after transfer into hypo-osmotic conditions. The time-dependent swelling of protoplast populations was monitored by a Coulter counter device. In order to ascertain the contribution of the plasma membrane intrinsic protein 1b (PIP1b) to the membrane's water permeability, protoplasts of five different plant lines that were transformed with a PIP1b antisense construct were compared to controls. The size distribution of 5 independent protoplast preparations provided similar results for control and antisense lines under iso-osmolar conditions. After transfer into hypo-osmotic conditions, a time difference for the swelling of protoplasts from the different sources was observed. The sizes of control protoplasts changed in less than 20 s, which indicates high water influx rates. In contrast, the protoplast populations obtained from 5 different antisense plants took about 75 s to reach a steady-state cell size distribution. The difference in time by a factor of about 3 confirms the significance of the aquaporin PIP1b for the water permeability of plant plasma membranes and the cellular water transport.     

Correlation between chloroplast motility and elastic properties of tobacco mesophyll protoplasts

Translocations of chloroplasts induced by blue light were investigated in both leaves and protoplasts isolated from leaf mesophyll of Nicotiana tabacum. In the leaf tissue, the responses of chloroplasts were similar to those observed in other, higher and lower plant species. Weak and strong light induced movements of chloroplasts towards cell walls perpendicular and parallel to the light direction, respectively. Treatment with cytochalasin D, an actin-disturbing agent, blocked the movements. This shows that actin is involved in the motile system of chloroplast translocation in tobacco. By monitoring the response of chloroplasts to light in isolated protoplasts, we addressed the question whether the presence of the cell wall is necessary for the translocations of chloroplasts to occur. In control protoplasts (isolated at room temperature from unstressed leaves), no clear light intensity-dependent changes were observed in chloroplast distribution pattern. In contrast, in protoplasts obtained from plants treated with 4 °C for 8 h the chloroplasts maintained their responsiveness to light. Atomic Force Microscopy was used to measure elastic properties of the protoplasts. Young’s modulus, which reflects rigidity of the material, was 10 times higher for protoplasts of the coldstressed plants as compared to those isolated from the control plants. The rigidity of protoplasts isolated from the plants treated with low temperature was reduced four-fold by exposure to cytochalasin D. It appears that the status of protoplast actin is a factor responsible for elasticity of protoplasts. We speculate that unknown, cold stress-induced factors, maintain the orientational movements due to anchorage of the actin cytoskeleton in the plasma membrane despite the cell wall removal.     

FROM PROTOPLASM TO SWARMER: REGENERATION OF PROTOPLASTS FROM DISINTEGRATED CELLS OF THE MULTICELLULAR MARINE GREEN ALGA MICRODICTYON UMBILICATUM (CHLOROPHYTA)1

Protoplast regeneration from extruded cytoplasm of the multicellular marine green alga Microdictyon umbilicatum (Velley) Zanardini (Cladophorales, Anadyomenaceae) was investigated. The early process of protoplast formation is comprised of two steps: agglutination of cell organelles into protoplasmic masses followed by generation of a temporary enclosing envelope around them. Agglutination of cell organelles was mediated by a lectin–carbohydrate complementary system. Three sugars, D‐galactosamine, D‐glucosamine, and α‐D‐mannose, inhibited the agglutination process, and three complementary lectins for the above sugars, peanut agglutinin, Ricinus communis agglutinin, and concanavalin A, bound to the surfaces of chloroplasts. Agglutination assay using human erythrocytes showed the presence of lectins specific for the above sugars in the algal vacuolar sap. A fluorescent probe 1‐(4‐trimethylammoniumphenyl)‐6‐phenyl‐a, 3,5‐hexatriene revealed that the envelope initially surrounding protoplasts was not a lipid‐based cell membrane. However, this developed several hours later. Simultaneous fluorescein diacetate and propidium iodide staining showed that the primary envelope had some characteristics of cell membranes, such as semipermeability and selective transport of materials. Also, fluorescein diacetate staining showed esterase activity in the protoplast and relocation of cell organelles and compartmentalization of cytoplasm during the process of regeneration. Both pH 7–9 and salinity 400–500 mM were found to be essentially important for the development of the protoplast envelope. When the basic regeneration process was accomplished, two alternative pathways of development were seen; about 70% of one‐celled protoplasts transformed into reproductive cells within 2 weeks after wounding, whereas others began cell division and grew into typical Microdictyon thalli. Quadriflagellate swarmers were liberated from the reproductive cells, and they germinated into mature individuals. It is therefore suggested that this species may use the wound response as a method of propagation and dispersal.