Release ofAspergillus niger protoplasts byPenicillium purpurogenum enzymes

Enzymes formed by the fungusPenicillium purpurogenum destroy theAspergillus niger cell wall and if a suitable stabilizing solution is used, protoplasts are released from the hyphae. The rate of release and the quantity and properties of the protoplasts are similar to those of protoplasts obtained by means of snail digestive enzymes. The lytic enzymes also destroy the cell walls of some other filamentous fungi.     

Inhibition of the cell wall regeneration and reversion in protoplasts ofRhizopus nigricans

During cultivation in a nutrient medium with snail gastric juice the protoplasts ofRhizopus nigricans produce an incomplete cell wall and grow. A true growth, associated with nuclear division, is involved. Morphology of growth of the formations is determined by the structure of the incomplete cell wall. When the incomplete wall is formed by a thin fibrillar net the growing formation assumes the physically optimal shape—i.e. a sphere; when the net is dense polar growth predominates. The degree of construction of the new wall depends on the activity of snail gastric juice enzymes which decreases during the cultivation. When fresh snail enzymes were added at certain intervals, only a fine fibrillar net was formed on the surface of growing protoplasts. The formations grew for up to 8 d under these conditions, reached several hundred μm in size and the number of nuclei increased up to 80-fold. When the blocking of the wall synthesis was interrupted, a complete cell wall regenerated on the surface of these giant formations and a reversion to hyphae was observed. The incomplete cell wall functions as a passive morphogenetic factor: It can influence the morphology of the growing protoplasts but it cannot induce reversion to hyphase and secure the permanent existence of these structures.     

Experimental inhibition of cell wall formation and of reversion inNadsonia elongata andSchizosaccharomyces pombe protoplasts

Summary The growth, cell wall regeneration, and the reversion of the protoplasts ofNadsonia elongata andSchizosaccbaromyces pombe cultivated in nutrient media containing snail enzyme was studied by light and electron microscopy. The protoplasts grew in the presence of snail enzyme and an incomplete cell wall composed of fibrils was formed on their surface. Thus, the presence of snail enzyme inhibited the completion of cell wall structure and, consequently, the reversion of the protoplasts to normal cells. The transfer of these protoplasts to medium free from snail enzyme led first to the completion of the cell wall and then to the reversion of the protoplasts to normal cells. The reported experiments confirmed that the regeneration of the complete cell wall preceded the protoplast reversion.     

Formation,growth, and regeneration of protoplasts of the green alga,Uronema gigas

Summary Separate protoplasts were obtained by the action of snail gut juice enzymes on the cell walls of the green algaUronema gigas. The cultivation of the protoplasts in mineral media caused only their enormous growth; in the presence of glucose a fibrillar network was formed on the surfaces of the growing protoplasts. Only after the addition of pectin the regeneration of the cell wall and the renewal of their morphogenesis could be observed.     

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.     

Chromosomal DNA preparation from yeasts of biotechnological importance

Summary Yeast chromosomal DNA was prepared under different conditions. Treatment of intact cells with proteinase K (1 mg/ml) resultes in appropriate electrophoretic karyotypes; when protoplasts were formed in situ, the presence of both sodium lauroylsarcosine and EDTA was essential. Further, the duration of cell wall lysis (12 h) and the concentrations of lytic enzymes (0.5% snail enzyme and 0.25% Novozym)had to be kept at a minimum.     

Some factors affecting the formation of protoplasts inAspergillus niger

The highest yield of protoplasts in the strainAspergillus niger K 10 was obtained from young, freshly harvested hyphae, grown on simple medium of sucrose-asparagine type on a rotary shaker. The residual cultivation medium has to be washed from the mycelial suspension with a solution of high osmotic pressure. Lyophilized snail digestive juice in concentration of 1 %, temperature 31° C, and incubation in Erlenmayer flasks on reciprocal shaker were optimal for the release of protoplasts. Good stabilizers of released protoplasts (in combination with CaCl₂) were for example galactose, mannitol, inositol and mixture of NaCl with glucose, sucrose or lactose.     

Formation and regeneration of protoplasts of wild-typeNeurospora crassa

Trichoderma reesei was grown using purified cell walls ofNeurospora crassa as a primary source of carbon. The resulting culture medium contained an undefined mixture ofN. crassa cell-wall digesting enzymes. Protoplasts (cell lacking wall) were formed when youngN. crassa hyphae were treated withTrichoderma mixture. The vast majority of protoplasts resynthesized cell-wall material when washed free of cell-wall digesting enzyme; of these, about 40% regenerated a mycelium.     

Morphological and ultrastructural studies on protoplast production and reversion of the higher basidiomyceteAgaricus bisporus

Protoplasts have been isolated from young vegetative mycelia ofAgaricus bisporus by an enzyme mixture of novozym and chitinase. Protoplasts were released through ruptures in the wall, initially at the apices, but also later from older parts of the hyphae, indicating that they may lack the cell wall. The process of regeneration of these protoplasts has been investigated in liquid medium in which the protoplasts produced short chains of convoluted cells that finally produced a hypha. Electron microscopy has shown that at the start of regeneration two different kinds of fibrils were produced at the external surface of the protoplasts. Later, the thickness of the cell wall increased, and there was a deposit of amorphous material giving rise to a complete new wall.     

Effect of proteases,phospholipases and polysaccharide-splitting enzymes on plasma membrane particles and on the synthesis of the fibrillar cell wall component in yeast protoplasts

Plasma membrane particles demonstrable by the freeze-etching technique, play, according to some authors, a role in the cell wall synthesis. On a model of yeast protoplast capable of regenerating the cell wall we studied the morphology of plasma membrane particles and the synthesis of the fibrillar cell wall component following a treatment with various enzymes and with lysolecithin. The enzymes used included proteases (trypsin, papain, pronase), polysaccharide-splitting enzymes (snail enzyme complex, mannosidase), phospholipases (A, C, D) and lipase. Upon treating living protoplasts with these substances in no case did we observe any morphologically demonstrable change in the particle structure or in their distribution in the plasma membrane. The fibrillar cell wall component was synthetized even in the presence of proteases and phospholipases. If the plasma membrane particles are assumed to represent enzyme systems synthesizing the cell wall component then in living protoplasts they are not located on the outer plasma membrane face or else are protected by some mechanism against the action of the corresponding enzymes.     

Surface Structure of Yeast Protoplasts

The fine structure of the yeast cell wall during protoplast formation was studied by means of phase-contrast microscopy and the freeze-etching technique. The freeze-etching results indicated that at least in some cases the entire wall substance was not removed from the surface of the protoplasts. After a treatment of 30 min to 3 hr with 2% snail enzymes, an innermost thin wall layer as well as remnants of the fibrillar middle layer sometimes could be demonstrated.     

Effect of immobilization on the stability ofClaviceps purpurea protoplasts

Summary Protoplasts released with high efficiency from vegetative and productive hyphae ofClaviceps purpurea were immobilized in 2% Ca-alginate. The yield of active immobilized protoplasts depended upon the age of the mycelium from which protoplasts were derived and was found to be 25–43% in comparison with native hyphae. During incubation in a modified production medium immobilized protoplasts were stable for at least 10–12 days. No external growth of regenerated hyphae from spherical beads of alginate gel with entrapped protoplasts was observed for 13–15 days of the batchwise incubation.     

Production of protoplasts from the fungi Curvularia inaequalis and Trichoderma reesei

Summary Protoplast formation in Curvularia inaequalis was achieved using non-commercial and commercial snail gut enzymes or Trichoderma harzianum enzymes. The cells were grown for enzyme treatment on cellophane sheets or in liquid cultures for varying periods of time. The production of T. harzianum enzymes is discussed. The highest protoplast yields were 2.6x10⁷ protoplasts/ml enzyme solution. Protoplasts were shown to have zero to four nuclei. Protoplast regeneration was succesfully carried out in semisolid agar.     

Isolation of protoplasts from tissue fragments of Philippine cultivars of <Emphasis Type="Italic">Kappaphycus alvarezii</Emphasis> (Solieriaceae,Rhodophyta)

Protoplasts were isolated from tissue fragments (<1 mm²) of three Philippine cultivars of Kappaphycus alvarezii: the giant cultivar, cultivar L and Bohol wild type, by enzymatic dissolution of cell walls. Yields of viable protoplasts from young and old thalli (apical, middle, basal segments) were compared at various temperatures, duration of treatment and pH using eight combinations of commercial enzymes (abalone acetone powder and cellulase), and prepared extracts from fresh viscera of abalone (Haliotis asinina) and a terrestrial garden snail. Isolated protoplasts were grown in various culture media, temperatures, photoperiods and irradiance values to determine the conditions that favor germination and growth.Protoplast yields in tissues treated with commercial enzymes and the garden snail extract were lower than those obtained in tissues treated with fresh abalone extracts. Generally, the number of viable protoplasts increased with duration of enzyme treatment at 25 °C with a maximum yield of 8.2 × 10³ g⁻¹ tissue at 48 h. Yields were consistently higher in all cultivars at pH 6.1. The yields were also high from the middle segments of the giant cultivar (3.7 × 10³ g⁻¹ tissue) and Bohol wild type (4.5 × 10³ g⁻¹ tissue) treated with fresh abalone extract, and from basal segments of cultivar L and tissues treated with garden snail extract. The germination rate of protoplasts was highest (39.8%) at 25 °C and 20 μmol photon m⁻² s⁻¹, using a 12:12 light dark photoperiod. The filament was 3.7 mm long by Day 5. These findings are relevant to developing cultures from protoplasts for genetic or strain improvement of K. alvarezii cultivars.     

Regenerated cell wall of carrot protoplasts isolated from suspension-cultured cells

Protoplasts of Daucus carota L. cultured in a synthetic liquid medium resumed cell division after about 4 days of cultivation. During this lag period, nucleic acid and protein showed only slight increases but the protoplasts commenced cell-wall regeneration soon after the removal of lytic enzymes. The originally spherical protoplasts became ellipsoidal before they underwent division. Radioactive glucose and myo-inositol were readily utilized by the protoplasts. Most of the radioactivity, however, appeared in extracellular polysaccharides and only a small portion was deposited in the regenerated wall. The sugar composition of new cell wall, as studies by chemical analysis and incorporation of labelled precursors, was shown to be considerably different from that of normal cell wall.     

Ultrastructure at the Host-Parasite Interface of Phytophthora capsici in Roots and Stems of Capsicum annuum

The infecting hyphae of Phytophthora capsici grew intercellularly in infected tissues of roots and stems of pepper (Capsicum annuum). The vascular tissues were not markedly disorganized even when heavily infected. Intercellularly growing hyphae penetrated the host cells by forming haustorium-like bodies. The consistent features of ultrastructural changes in infected tissues of pepper roots and stems were degeneration of cell organelles and dissolution of host cell walls. The cytoplasm detached from the cell wall aggregated abundantly around some haustorium-like bodies or the penetration sites of fungal hyphae. The host cell walls were palely stained, thinned and swollen, possibly being biochemically altered by the action of fungal macerating enzymes. Electron-dense, wall-like material was apposed on the outer wall of xylem vessel contacted by fungal hyphae. The infecting hyphae were also surrounded by granular, dark-staining cytoplasm. Characteristics of host cell responses to the invading P. capsici were the deposition of papilla-like material on host cell walls next to hyphae and the encasement of haustorium-like bodies with wall appositions.     

The isolation of protoplasts of the fission yeastSchizosaccharomyces byTrichoderma viride and snail enzymes

The formation of protoplasts of the fission yeastsSchizosaccharomyces pombe andSchizosaccharomyces versatilis after the combined application of snail enzymes andTrichoderma viride enzymes in an osmotic stabilizer (0.4m KC1, pH 5.5) was studied by light and electron microscopy. The effect of the enzymes used leads during 30 min to the formation of 100% protoplast population. Using electron microscopy no original walls or wall remnants were detected in the suspension of protoplasts. Protoplasts are viable and in liquid nutrient medium they regenerate cell walls and revert into normal cells. Such a protoplast population may be useful for biochemical study of protoplast metabolism by quantitative methods as well as for the chemical study of regenerating cell walls.     

Cellulase secretion by immobilized protoplasts of Trichoderma reesei

Protoplasts from Trichoderma reesei were immobilized in alginate and induced to produce cellulase (endoglucanase and β-glucosidase) enzymes. The specific activities of the synthesized enzymes were higher in immobilized protoplasts than in both free and immobilized mycelia. Immobilized protoplasts show an enhanced rate of exocellular β-glucosidase production compared to intact mycelia due to the lack of cell wall. The ratio of the exocellular/intracellular β-glucosidase was 5.9 for immobilized protoplasts and 0.32 for free mycelia.     

Protoplast fusion inAspergillus niger strains accumulating citric acid

Auxotrophic strains ofAspergillus niger were obtained from citric-acid-producing strains of the fungus after irradiation with UV light. Protoplasts were isolated from young hyphae of the auxotrophic strains after treatment with snail enzyme and than treated with polyethylene glycol (30%,W/V), in a Ca²⁺ (10 mmol/L) solution. The pH value of the suspension was adjusted to 9.0. The frequency of the heterokaryons (related to the number of protoplasts reverting after PEG treatment) was 0.67%. Prototrophic heterozygous spores were isolated from a heterokaryon with the frequency of 1.2×10⁻⁶. Citric acid production in the best heterozygous strains was about 15% higher than that of the high-production parent strain.     

Concanavalin A binding sites on the plasma membrane of leek stem protoplasts

The binding of concanavalin A (con A) to leek (Allium porrum L.) stem protoplasts has been investigated using sequential treatment with con A and haemocyanin and using con A covalently linked to ferritin. Prefixed protoplasts were evenly labelled. Unfixed protoplasts showed a clustered distribution of label. Low temperature and lanthanum reduced the clustering. Bound con A was lost from unfixed protoplasts incubated for 5 h after treatment, but con A/haemocyanin was not bound to nascent wall materials. Prefixed protoplasts treated with wall-removing enzymes before labelling showed only a small reduction of con A binding. These results indicate that con A is bound to plasma membrane components, but that binding is reduced by competition of nascent wall precursors.Abbreviations con A concanavalin A - con A-H sequential treatment with con A and haemocyanin - con A-F con A covalently linked to ferritin