Optimization of protoplast formation,regeneration, and viability in Microsporum gypseum

Factors affecting high yields, regeneration frequencies, and viability of protoplasts from clonal cultures of Microsporum gypseum were investigated. Maximum yields of protoplasts were obtained after 6 hrs digestion of 2–4 days old mycelium with Novozyme 234 using CaCl₂ (0.4 M) as an osmotic stabilizer and glycine + HCl (pH 4.5) as the buffer system. Mercaptoethanol + dithiothreitol (0.01 M) proved to be the best pretreatment of mycelium prior to digestion with enzyme. A regeneration frequency of 94.4% was obtained using the top agar method with complete medium (pH 6.5) containing 0.5% agar and 0.4 M CaCl₂ as an osmoticum. Colonies from regenerated protoplasts on medium containing CaCl₂ were pigmented and completely powdery with high sporulation. Protoplast viability was studied in osmotic stabilizer supplemented with glucose or glutamine. After 24 hrs, glucose (2%) and glutamine (2%) enhanced protoplast viability by 22% and 23%, respectively. Protein synthesis, as measured by ³H-lysine uptake, matched the viability profile determined by fluorescence microscopy.     

Decolorization of Alcohol Distillery Wastewater by Thermotolerant White Rot Fungi

To determine a thermotolerant fungus strain for decolorization of alcohol distillery wastewater (ADW), 38 fungus strains were studied. Capacity for ligninolytic enzyme production was examined at 35 and ⁴³C on agar media containing 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) and MnCl₂. At 43°C, four Pycnoporus coccineus strains showed a higher potential for ADW decolorization both on agar media and in liquid media. Immobilized mycelia on polyurethane foam removed about threefold more total phenol than did free mycelia under conditions of shaking at 43°C. Moreover, immobilized mycelia removed nearly 50% more color than did free mycelia.     

Formation, Fusion, and Regeneration of Protoplasts from Wild-Type and Auxotrophic Strains of the White Rot Basidiomycete Phanerochaete chrysosporium

A preparation of two commercial enzymes was used to liberate protoplasts from 16-h-old mycelium of Phanerochaete chrysosporium. Regeneration frequencies of up to 5% were attained when the protoplasts were plated in a medium containing 10% sorbose and 3% agar. Fusion of protoplasts from different auxotrophic strains in polyethylene glycol-Ca²⁺ produced heterokaryons. Separation of the heterokaryons into their constituent homokaryotic strains could be effected through protoplast release and formation of colonies on regeneration agar.     

Degradation of lignin and lignin related compounds by protoplasts isolated from Fomes annosus

Protoplasts from a lignolytic fungus Fomes annosus were prepared through enzymatic hydrolysis of mycelium utilizing Novozym, a wall lytic enzyme preparation. Isolated protoplasts and living mycelium were compared in their ability to degrade ¹⁴C-labelled lignin related phenols and dehydropolymers of labelled coniferyl alcohol (synthetic lignin). The amounts of ¹⁴CO₂ released from O¹⁴CH₃-groups, ¹⁴C-2-side chains and ¹⁴C-rings by protoplasts was in the same range as those for intact mycelium. The methoxyl groups of synthetic lignin were more rapidly metabolized by protoplasts than by mycelium. When calculated in dpm of released ¹⁴CO₂ per mg protein the decomposition of ¹⁴C-labelled synthetic lignin and lignin-related monomers in a hyphae-free system of protoplasts was considerable higher than that obtained by the intact mycelium. The presence of intact hyphae is thus not necessary for lignin degradation to occur.Non-common-abbreviations used DHP Dehydropolymer of coniferyl alcohol - LS lignosulfonates prepared from DHP     

Production of protoplasts from Fusarium scirpi by lytic enzymes from Streptomyces tsusimaensis

Summary The ability of serveral strains of Streptomyces to degrade cell walls from Fusarium scirpi was tested by plating them on agar containing a cell wall preparation derived from the fungus. In this assay, S. tsusimaensis was most effective in producing a clear zone of lysis during growth on the opaque medium. This Streptomyce strain was subsequently grown in liquid culture containing cell walls as the sole carbon source and the exoenzymes were isolated from the culture broth. The enzyme preparation produces a clear zone of lysis when filled into wells in the cell wall agar and was used to prepare protoplasts from F. scirpi. The protoplast yield was 1x10⁹ protoplasts/ml of enzyme solution from 35 mg dry weight of Fusarium mycelium. Protoplasts could be regenerated at a frequency of up to 80%.     

Regeneration and molecular characterization of an intergeneric hybrid between Graphium putredinis and Trichoderma harzianum by protoplasmic fusion

The fungal strains Graphium putredinis and Trichoderma harzianum were selected as parents for fusant development. Protoplasts were isolated using the combination of lysing enzymes Novozym 234 and cellulase with 0.6 M KCl as osmotic stabilizer. The optimum conditions for release of viable protoplasts from the fungal mycelium viz. age of the mycelium, lytic enzymes, osmotic stabilizers, pH, incubation period and regeneration medium were determined. Intergeneric protoplast fusion was carried out using 50% polyethylene glycol with calcium chloride (CaCl₂) and glycine buffer and the conditions for effective protoplast fusion, viz. fusogen, osmotic stabilizer, pH, incubation period and regeneration medium were optimized. At optimum conditions, the regeneration frequency of the fused protoplasts on potato dextrose agar (PDA) medium and fusion frequency were calculated. The regeneration frequency on non-selective (PDA) and selective media (PDA amended with starch) was determined for the parental and fusant strains in which, fusant showed a higher rate of regeneration. Fusant formation was confirmed by morphological markers (colony morphology and spore size and shape) and genetical markers like, mycelial protein pattern, restriction digestion pattern and random amplified polymorphic DNA (RAPD) analysis. The efficiency of these parental strains and their intergeneric fusant in the production of hydrolytic enzymes – amylases (treatment plant for sago factory effluent), cellulases (bioethanol), xylanases (bleaching agents for waste paper pulp) and proteases (additives in commercial detergents) – have probable applications in various industrial processes.     

Mutagenesis of Protoplasts and Regeneration of Mycelium in the Mushroom Volvariella volvacea

Regenerating protoplasts were obtained from mycelial culture of the mushroom Volvariella volvacea by the action of the lytic enzyme Novozym 234 in the presence of 0.01 M phosphate buffer (pH 6.0) containing 0.6 M NaCl. Regeneration was found to be poor in liquid medium, but more than 50% regeneration was achieved on solid 2% agar medium overlaid with 0.5% agar. Protoplasts of V. volvacea were found to be highly sensitive to the killing action of both UV irradiation and N-methyl-N′-nitro-N-nitrosoguanidine. However, no morphological or auxotrophic mutants could be obtained from protoplasts by chemical mutagenesis. Four types of morphological mutants and one auxotrophic (adenine-negative) mutant were obtained from UV-irradiated protoplasts. The adenine-negative mutant of V. volvacea was found to be stable, not losing auxotrophy on repeated subculture.     

Efficient plant regeneration from hairy root-derived protoplasts of Hyoscyamus muticus

Summary Successful plant regeneration was achieved for the first time from hairy root-derived protoplasts of Hyoscyamus muticus. High yields (7 × 10⁶ / g fresh weight) of protoplasts were isolated directly from the transformed roots of Hyoscyamus muticus using an enzyme mixture comprising 1 % macerozyme and 2 % cellulase in an osmoticum consisting of 0.2 M CaCl₂ and 0.6 M mannitol. Protoplasts were first cultured in liquid NT/PRO I medium and further on semi-solid NT/PRO II agar medium. The procedure permits highly efficient formation of colonies. The plating efficiency varied from 1–9 %. The small individual colonies regenerated easily into shoots and roots at frequencies of 18 % and 70 %, respectively. The time required for the development of small plantlets from protoplasts was 8–11 weeks. The regenerated plants contained rolB from Ri-T-DNA and exhibited an altered phenotype compared to the control plants.Abbreviations BAP benzylaminopurine - NAA naphthaleneacetic acid - PCR Polymerase Chain Reaction - fw fresh weight     

Isolation of mutants with altered pigments after irradiating haploid protoplasts from Datura innoxia Mill. with X-rays

Summary Ten different mutants with altered pigment patterns were isolated following X-irradiation of approximately 10⁵ haploid protoplasts of Datura innoxia Mill. Seven of the selected strains gave rise to shoots and 3 to leaves only. The mutants were selected from light green or white calli, which had developed 4 weeks after transfer of developing cell clusters onto B₅ agar medium containing 0.5 mg/l BAP (Gamborg et al., 1968). Of the 10 mutant strains 5 were light green, two were yellow, one was pale yellow and one was white. One additional strain does not possess anthocyanin in its stems; a feature chracteristic of the wildtype is the possession of anthocyanin. This strain is able to grow in soil and has now flowered. None of the mutants obtained is haploid. Nine are diploid and the other is tetraploid. The chlorophyll deficient strains can be propagated on B₅ agar medium supplemented with higher concentration of sucrose than normally required for the growth of the wild-type.     

Preparation of protoplasts from <Emphasis Type="Italic">Chlorella protothecoides</Emphasis>

This paper describes an enzymatic method for yielding protoplasts from the microalga Chlorella protothecoides. Four kinds of commercially available enzymes were tested. The enzymatic digestion was optimal with 2% cellulase R-10 and 1% snailase prepared in 25 mM Tris buffer (pH 6.0) containing 0.6 M D-mannitol, and the protoplast density could reach the peak after treatment at 30°C for 16 h. Nearly all liberated protoplasts were green in the presence of 0.01% phenosafranin, indicating their high viability. The regeneration rate was about 70% when 0.6 M D-mannitol was used as an osmotic stabilizer in the regeneration medium. This protocol will find useful applications in genetic studies of this algal species.     

Formation and Regeneration of Protoplasts of the Actinorhizal Nitrogen-Fixing Actinomycete Frankia

Procedures for forming and regenerating protoplasts of four Frankia strains are described. Cells obtained from growth medium containing 0.1% glycine were digested with lysozyme (250 μg/ml) in a medium containing 0.5 M sucrose, 5.0 mM CaCl₂, and 5.0 mM MgCl₂. Protoplasts were formed during 15 to 120 min of digestion at 25°C. Optimum conditions for protoplast regeneration involved placing protoplasts on a layer of complex growth medium containing 0.3 M sucrose, 5.0 mM CaCl₂, and 5.0 mM MgCl₂ which was overlaid with a layer of 0.8% low-melting-point agarose containing 0.5 M sucrose, 5.0 mM MgCl₂, and 5.0 mM CaCl₂. The maximum regeneration efficiency was 36.9% for strain CpI1, 1.3% for strain ACN1^AG, 27% for strain EAN1pec, and 20% for strain EuI1c.     

Callus proliferation from leaf protoplasts using phenylurea type cytokinin, 4-PU,inBetula platyphylla VAR.Japonica

Summary Protoplasts were isolated from leaves ofBetula platyphylla var.japonica using a 0.6M mannitol solution containing 1% Cellulase Onozuka R-10 and 1% Driselase. The cell division and colony formation were largely enhanced using Murashige and Skoog (1962) liquid medium at half strength (1/2 MS), containing 0.6M mannitol, 0.09M sucrose, and factorial combinations of 0.1–30 μM N-(2-chloro-4-pyridyl)-N′-phenylurea (4-pu) and 0.1–10 μM 1-naphthaleneacetic acid (NAA) or 0.1–30 μM 2,4-dichlorophenoxyacetic acid (2,4-D). The optimal protoplast density was 5–7 × 10⁴/ml. Continuous callus proliferation from protoplasts was achieved by transferring colonies to fresh 1/2 MS agar medium containing 1 μM NAA and 1 μM 4-pu with no mannitol. It appeared that supplementation of the medium with phenylurea type cytokinin, 4-pu gave the successful callus proliferation from the protoplasts ofB. platyphylla.     

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.     

Release and regeneration of protoplasts from the fungus Trichothecium roseum

A protocol for isolating and regenerating protoplasts from Trichothecium roseum has been described. Protoplasts from T. roseum were isolated using (i) a lytic enzyme combination composed of Novozym 234, chitinase, cellulase, and pectinase at a 5-mg/mL concentration and (ii) 0.6 M KCl as an osmotic stabilizer. A maximum number of 28 x 10(4) protoplasts/mL were obtained at pH 5.5. Experiments on the regeneration and reversion of protoplasts revealed a maximum regeneration (60.8%) in complete medium (potato dextrose--yeast extract agar) amended with 0.6 M KCl. The regenerated protoplasts were similar to the original parent strain in morphology, pigmentation, growth, and sporulation.     

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.     

In vitro shoot regeneration from leaf mesophyll protoplasts of hybrid poplar (Populus nigra x P. maximowiczii)

Summary Protoplasts were isolated from leaf mesophyll of hybrid poplar (Populus nigra X P. maximowiczii) with a mean yield of 10.4 x 10⁶ protoplasts per g fresh weight using 2.0% Cellulase Onozuka R-10, 0.8% Macerozyme R-10, 1.2% Hemicellulase, 2.0% Driselase, and 0.05% Pectolyase Y-23 with CPW salts solution containing 0.6 M mannitol, 0.002 M DTT, 3 mM MES at pH 5.6. A liquid plating method produced the highest frequency of dividing protoplasts (48.6%) using an MS medium without NH₄NO₃. The highest percent of colony formation was 22.8%, produced with fabric supported semi-solid (0.5% w/v) agar plating method using the same culture medium. Growing cell colonies and/or micro-calli were transferred to a fresh semisolid agar medium containing 0.44 M BAP and 9.0 M 2,4-D. Multiple shoots were produced from protoplast-derived callus after culture on MS medium containing 6.8 M zeatin. After root induction on half-strength MS medium that lacked growth regulators, shoots were transferred to pots containing artificial soil mix.Abbreviations CPW Cell and Potoplast Wash solution - LPM Liquid Plating Method - LDM Liquid Drop Method - HDM Hanging Drop Method - FSPM Fabric supported Semi-solid agar Plating Method - DTT Dithiothreitol - MES 2-(N-morpholino) ethane sulfonic acid - BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxy acetic acid - NAA -naphthalene acetic acid - MS Murashige and Skoog (1962)     

Protoplast induction from sporophyte tissues of the heterosporous fern Azolla

We have developed a method for producing protoplasts from the heterosporous water fern Azolla using a combination of Cellulysin (4.0%) and Pectolyase (0.025%) in 0.6 M mannitol containing 6 mM CaCl₂ 2H₂O. These protoplasts regenerate new cell walls within 48 hours when cultured on modified Gamborg B-5 medium.     

Protoplasts from Phytolacca dodecandra L'Herit (endod) and P. americana L. (pokeweed)

Summary Pokeweed (Phytolacca americana L.) and endod (P. dodecandra L'Herit) produce ribosome-inactivating proteins which are sequestered in leaf cell walls. These proteins display strong antiviral activity. To aid in studying the antiviral mechanism, we developed protocols to isolate protoplasts from suspension culture cells and leaves. Ninety-five percent of pokeweed or endod culture cells were converted to protoplasts using 2% cellulase, 0.25% pectinase, 0.2 M mannitol, 2% sucrose, 15 mM CaCl₂ Murashige and Skoog salts, pH 5.7. Viability was >85% after 24 h. Culture-derived protoplasts were purified by centrifugation through a 15% sucrose pad. Protoplasts collected from the supernatant were then pelleted in 0.3 M mannitol. Pokeweed leaves provided respectable yields (4×10⁶ protoplasts/g f w) of partially-purified viable protoplasts when digested in solution containing 1% cellulase, 0.2% Pectolyase, 0.4 M mannitol, CPW salts, 0.5 mM MES, pH 5.6. We were unable to completely separate cell debris from mesophyll protoplasts, which were small and easily damaged by centrifugation. Endod leaves were found to be resilient to several digestion enzymes tested.     

Interfamilial cell fusion among leaf protoplasts of Populus alba, Betula platyphylla and Alnus firma: assessment of electric treatment and invitro culture conditions

The optimal conditions for fusion of leaf protoplasts of Populus alba, Betula platyphylla, and Alnus firma by electric treatment were alternate current (AC) 200 V cm⁻¹ in 2.5 mM CaCl₂ for a pearl chain formation and direct current (DC) pulse of 100 μs at 2 kV cm⁻¹ After interfamilial cell fusion treatment, colonies were obtained using liquid media containing 2,4-D or NAA as an auxin and BA or CPPU as a cytokinin at 0.1, 1, or 10 µM in MS (Murashige and Skoog (1962) Physiol. Plant. 15: 473--497), 1/2salt MS, or NH₄NO₃-free MS containing 0.6 M mannitol and 3% sucrose (totaling 147 combinations). Two shoots after electric cell fusion treatment between P. alba and B. platyphylla, and 12 regenerated plants after electric cell fusion between P. alba and A. firma, were obtained from colonies induced on agar medium containing NAA, IBA, CPPU, and BA. Seven lines of the latter 12 plants which were regenerated later cultured in vitro had serrated leaves different from those of P. alba.     

Production and Regeneration of Lactobacillus casei Protoplasts

Methods for the production and regeneration of Lactobacillus casei protoplasts are described. Protoplasts of L. casei strains were obtained by treatment with mutanolysin or with mutanolysin and lysozyme together in a protoplast formation buffer containing 0.02 M HEPES (N-2-hydroxyethylpiperazine-N′-2-ethanesulfonic acid) (pH 7.0), 1 mM MgCl₂, 0.5% gelatin, and 0.3 M raffinose. Cells were regenerated on a complex medium supplemented with bovine serum albumin, MgCl₂, CaCl₂, gelatin, and raffinose. Lengthy digestion with lytic enzymes inhibited the capacity of protoplasts to regenerate. The optimum conditions of protoplast formation varied from strain to strain. Using predetermined optimal conditions it was possible to prepare protoplasts of several L. casei strains and regenerate them with 10 to 40% efficiency. The methods were applicable to other species of lactobacilli as well.