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.     

Protoplast transformation of glutamate-producing bacteria with plasmid DNA

A method for polyethylene glycol-induced protoplast transformation of glutamate-producing bacteria with plasmid DNA was established. Protoplasts were prepared from cells grown in the presence of penicillin by treatment with lysozyme in a hypertonic medium. The concentration of penicillin during growth affected the efficiency of formation, regeneration, and polyethylene glycol-induced DNA uptake of protoplasts. Regeneration of protoplasts was accomplished on a hypertonic agar medium containing sodium succinate and yeast extract. The spectinomycin and streptomycin resistance plasmid pCG4, originally from Corynebacterium glutamicum T250, could transform various glutamate-producing bacteria such as C. glutamicum, Corynebacterium herculis, Brevibacterium flavum, and Microbacterium ammoniaphilum. The plasmid was structurally unchanged and stably maintained in new hosts. The transformation frequency of most competent protoplasts with pCG4 DNA isolated from primary transformants was high (ca. 10(6) transformants per microgram of covalently closed circular DNA) but was still two orders of magnitude below the frequency of transfection with modified DNA of the bacteriophage phi CGI. The difference was ascribed to the involvement of regeneration in transformation.     

Protoplast Fusion of Lactobacillus casei

Lactobacillus casei ATCC 7469 was successfully converted to protoplasts by treatment with endo-7V-acetyl muramidase in sucrose phosphate buffer. For full hydrolysis of cell walls, a high concentration of sucrose and a cold shock were necessary. Mg²⁺ ions enhanced the stability of protoplasting cells. The cell wall regeneration of protoplasts was more effective on gelatin-induced regeneration medium than with the soft overlay method. The optimal concentration of gelatin was 2.5%. The frequency of regeneration was found to be about 6% for the protoplast prepared by enzyme treatment for 20 min. The mutants having streptomycin resistance and rifampicin resistance, as selection markers for the detection of fusion, were isolated by UV irradiation and NTG treatment. These mutants were stable for at least several transfers. Protoplast fusion was carried out using PEG (50% solution of polyethyleneglycol, M.W. 6,000). The frequency of protoplast fusion was found to be about 10^-5.     

林肯链霉菌双亲灭活原生质体融合的研究

分别以紫外线、热灭活林肯链霉菌 94 7和 95 0 2原生质体 ,然后进行灭活双亲的原生质体融合 ,从 1 6株融合子筛选到林肯霉素高产株。用双亲的互补营养缺陷型对林肯链霉菌原生质体的制备、融合、再生的部分条件进行了研究。发现含 0 .4 %Gly和 34 %蔗糖的SM培养基最适于实验菌株原生质体的制备、再生。聚乙二醇 (PEG)分子量对原生质体融合影响不大 ,其在P缓冲液中的浓度却很重要。含 5 0 %PEG的P缓冲液最有利于原生质体融合     

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.     

Construction of an RNAi expression vector and transformation into Penicillium chrysogenum

In this work, we constructed an RNAi vector for attenuation of the class III chitin synthase gene chs4, which plays a major role in hyphal growth and conidia formation. To achieve a high transformation frequency, factors affecting the preparation and regeneration of protoplasts were analyzed. The maximum numbers of protoplasts (1.41?×?10⁷ mL^?1) were released when mycelia cultured for 48 h were incubated at 30 °C for 5 h in a buffer containing 4 mg mL^?1 lysing enzyme. The maximum regeneration rate (33 %) was obtained when mycelia were digested for 4 h and plated on a regeneration medium containing 1 % overlaid agar. Quantitative real-time PCR was performed to validate the transformation efficiency, and it revealed knockdown of chs4 gene in randomly selected transformants at different levels. Dramatic reductions in the formation of conidia and the hyphal growth rate were observed in most of the transformants.     

Improved technique on reversion of mycelial protoplast of Trichoderma reesei into mycelia

Important parameters in the regeneration of protoplasts are viability, the capacity to synthesize cell walls and the retention of properties of the parent cell. Mycelial protoplasts of Trichoderma longibrachiatum (Trichoderma reesei) have been regenerated. Factors influencing the regeneration of protoplasts of T. longibrachiatum QM 9414 were found to be, the nature of osmotic stabilizer, the concentration of osmotic stabilizer, pH, temperature, and the composition of regeneration medium. With glucose-mineral regeneration medium, the optimum conditions for protoplasts regeneration were 0.5 M KCl, pH 6.0 and temperature 30°C. With Czapek-Dox medium, the optimum conditions were 0.7 M mannitol, pH 6.0 and temperature 30°C. Maximum regeneration frequency of T. longibrachiatum protoplasts were obtained using glucose-mineral medium.     

High-frequency fusion of Streptomyces parvulus or Streptomyces antibioticus protoplasts induced by polyethylene glycol.

Conditions were established for the regeneration of protoplasts of Streptomyces parvulus and Streptomyces antibioticus to the mycelial form. Regeneration was accomplished with a hypertonic medium that contained sucrose, CaCl2, MgCl2, and low levels of phosphate. High-frequency fusion of protoplasts derived from auxotrophic strains of S. parvulus or S. antibioticus was induced by polyethylene glycol 4,000 (42%, wt/vol). The frequency of genetic transfer by the fusogenic procedure varied with the auxotrophic strains examined. Fusion with auxotrophic strains of S. parvulus resulted in the formation of true prototrophic recombinants. Similar studies with S. antibioticus revealed that both stable prototrophic recombinants and heterokaryons were formed.     

Protoplast isolation and regeneration in Streptomyces clavuligerus

The regeneration of streptomycete protoplasts is a major step following genetic manipulations such as fusion and DNA-mediated transformation. Reports of studies on the regeneration of protoplasts from Streptomyces clavuligerus are limited and for this reason the experiments described in this paper were carried out. An investigation of protoplast formation and cytology was made to gain further insight into the loss of protoplast viability in osmotically stabilized support media. Protoplasts with the highest regeneration frequency were isolated from mycelium, grown in a two-stage culture system (without glycine), using lysozyme dissolved in a sucrose osmoticum containing 1% bovine serum albumin. The latter promoted improved protoplast viability. A systematic survey was made of the components of regeneration medium R5, previously used for S. clavuligerus, and other potentially advantageous components and conditions, in an attempt to raise the regeneration frequency of the protoplasts. An improved regeneration medium (R6) and protocol which supported higher and more consistent levels of regeneration of S. clavuligerus protoplasts resulted from these experiments. These improved procedures for protoplast isolation and regeneration proved to be suitable for other streptomycete species.     

Formation and Regeneration of Methanococcus voltae Protoplasts

Methanococcus voltae cells were converted into protoplasts by suspension in anaerobic 0.1 M Tris-HCl buffer containing 0.4 M sucrose and 0.05 M NaCl as osmoprotectants. Protoplast formation was monitored microscopically by observing the conversion of the typical irregularly shaped (uneven peripheries) coccoid whole cells to rounded forms with smooth peripheries. Although the procedure resulted in about 50% lysis of the initial number of cells, the remainder were converted to the rounded form. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electron microscopy of negatively stained cell preparations indicated that the treatment removed the wall layer from whole cells to yield protoplasts. Protoplast regeneration was evaluated by using optimized plating conditions and an anaerobic microplating technique. Between 50 and 63% of the initial number of protoplasts regenerated as colonies on agar medium (35°C, 7 days). The colony and cell morphologies of the regenerated protoplasts were indistinguishable from those of whole cells plated under identical conditions.     

链霉菌11371原生质体的制备与再生

为选育链霉菌11371的高产Tetramycin菌株,摸索该菌株的原生质体的制备与再生。结果表明,链霉菌11371原生质体制备和再生的最佳条件为菌丝生长培养液中甘氨酸浓度为0．7％,培养温度为28℃,培养时间为42h,溶菌酶浓度为3mg／mL,酶解温度为37℃,酶解时间为90min。最佳再生培养基为R2YE培养基。     

Intraspecific hybridization of Trichoderma reesei by protoplast fusion

Protoplasts obtained from mycelia of a single auxotrophic mutant of Trichoderma reesei QM 9414 were fused with those of T. reesei QM 9136 in the presence of 0.5 M glycine-NaOH buffer, pH 7.5, containing 0.05 M CaCl₂ · 2H₂O and 35% polyethylene glycol 4,000. The regeneration frequency of these protoplasts was 8.9–12.0% on a solid culture medium with soft agar overlay. The fused protoplasts successfully formed heterokaryons showing 3.33% of the fusion frequency. A heterozygous diploid was obtained from conidia of the heterokaryon by treatment with 0.1% d-camphor. The diploid showed a 1.9 fold DNA content per conidial nucleus compared to T. reesei QM 9414. The frequency of diploid formation was about 1.9 × 10⁻⁴ per conidium. Cellulase activities, such as filter paper degrading and CM-cellulose and Avicel saccharifying activities, and the xylanase activity of the diploid showed intermediate values between those of T. reesei QM 9414 and T. reesei QM 9136. However, the β-glucosidase, β-1,3-glucanase and chitinase activities of the diploid increased to levels equal to on above those of T. reesei QM 9414 and T. reesei QM 9136. The existence of a parasexual cycle of T. reesei and the possibility of its application to enhanced enzyme productivity were confirmed using the protoplast fusion technique.     

Preparation and characteristics of protoplasts of Streptomyces kanamyceticus

To prepare actively regenerating protoplasts of S. kanamyceticus, the influence of the conditions of the mycelium cultivation, the culture age, lytic conditions, composition of the regeneration medium, the procedure of the culture inoculation to the regeneration medium and other parameters were studied. The study resulted in development of optimal conditions for preparation of S. kanamyceticus protoplasts in a number of 1.10(9) protoplasts per ml. The cultivation on the ST medium with 10 to 15% sucrose and addition of glycine up to 1% for 30 hours (the stationary growth phase) followed by treatment of the culture with lysozyme in an amount of 2 mg/ml for 1 hour at 32 degrees C provided preparation of up to 100% of actively regenerating protoplasts free of mycelium fragments. The size of the protoplasts increased up to 1.5 micron against the usually observed size of 0.7 to 1.0 micron with using modified lyzing buffer with 20% of sucrose according to the method recommended for S. erythreus. However, 50 to 70% of the protoplasts had point of linear regions in the cell walls, which suggested that spheroplasts were mainly forming and the phenomenon was associated with the characteristic properties of the strain cell wall structure.     

Plant regeneration from mesophyll protoplasts of Solanum commersonii dun

Somatic fusion of Solanum commersonii, a frost tolerant wild potato species not crossable with Solanum tuberosum, relies on the possibility to isolate and culture protoplasts. This study was conducted to determine whether protoplasts could be isolated and plants regenerated in three S. commersonii accessions. Shoot cultures for protoplast isolation were maintained on Murashige and Skoog medium. Mesophyll protoplasts were isolated and cultured using a protocol originally described for S. tuberosum with some modifications. Differences were evident among the three accessions for protoplast yield, plating efficiency and regeneration frequency. Protoplast yield ranged from 3.0 to 8.5 × 10⁶ protoplasts per g of fresh tissue. At 1–2 × 10⁴ protoplasts ml⁻¹, which was the optimal plating density, 10–20% of plated protoplasts gave multicellular colonies. Regeneration of shoots was observed in two accessions only, the maximum regeneration frequency being 66%. In one of these accessions the reduction of sucrose concentration in regeneration media improved the regeneration frequency from 14 to 35%. About three hundred plants were rooted in vitro and successfully transferred to soil.     

Regeneration from Laminaria japonica Areschoug (Laminariales, Phaeophyceae) protoplasts isolated with bacterial alginase

Summary The conditions for effective isolation of viable protoplasts from Laminaria japonica with an alginase produced by marine bacterium Alteromonas sp. and a commercially available cellulase were investigated. The highest yields of viable protoplasts (7.910.4x10⁶ cells g^–1 FW) were obtained with a hypertonic solution containing 50 % seawater, 25 mM MgCl₂, 5 mM HEPES buffer system, and 0.5 M mannitol. Protoplasts were not obtained from thalli of L. japonica when an abalone alginase (abalone acetone powder; AAP: Sigma) was used instead of the bacterial alginase. The isolated protoplasts were cultured in an PESI medium at 5 °C. Complete cell wall formation was observed within 7 days, and dividing cells were first observed in a 9-day-old culture. Some protoplasts regenerated into sheet-shaped thalli and rhizoid structures were also observed on some thalli after 30 to 40 days in culture. This is the first report of protoplast regeneration into plantlets of L. japonica Areschoug (Laminariales, Phaeophyceae).Abbreviations FW Flesh weight - AAP Abalone acetone powder - HEPES N-2-hydroxy-ethylpiperazine-N-2-ethanesulfonic acid - Tris Tris(hyrdoxymethyl)aminomethane - PESI Provasoli's enriched seawater with iodine     

Quantitative studies on the viability of yeast protoplasts following dielectrophoresis

Abstract Protoplasts from Saccharomyces cerevisiae and Saccharomyces diastaticus were collected in a non-homogeneous alternating electric field. The dependence of the viability of the protoplasts on different conditions of collection was tested by determining the regeneration rates in each case. The parameters varied in collection were the field strength (0.33 kV/cm–6.67 kV/cm), the frequency of the alternating field (1–2 MHz) and the collection time (2–10 min). The introduction of a new type of fusion chamber (meander chamber) permitted, for the first time, quantitative exposure of protoplasts to the electric field as well as their complete transference into the regeneration medium. The regeneration rates of yeast protoplasts collected under those conditions employed for electrofusion did not differ from those of protoplasts which had been maintained under the same experimental conditions but were not subject to the influence of an alternating electric field. The two yeast strains were fused together (collection 1 kV/cm; pulse 15 kV/cm; duration of pulse 40 μs) and the fusion products were introduced into a selection medium for regeneration. The fusion rate was about 4.8 × 10⁻⁴; on average 272 colonies grew on the selection medium for each chamber filling.     

林可链霉菌转化系统的建立

利用基因工程技术改良抗生素生产菌有着广阔的应用前景［１］。值得尝试的是将抗生素生物合成基因片段随机或定向组合导入生产菌中,通过同源重组方式提高生物合成途径中限速步骤相关基因的剂量,以达到提高生产菌发酵单位的目的。此战略被作者称为“基因回转化技术”,并...     

Differences in oxidative stress, antioxidant systems, and microscopic analysis between regenerating callus-derived protoplasts and recalcitrant leaf mesophyll-derived protoplasts of Citrus reticulata Blanco

It is known that protoplasts derived from either leaves or suspension cultures of a citrus genotype vary greatly in their regeneration capacities; however, the underlying physiological mechanisms are not well known. In this study, oxidative stress and antioxidant systems during in vitro culture of callus-derived protoplasts and leaf mesophyll-derived protoplasts of Ponkan (Citrus reticulata Blanco) were analyzed to gain insights into observed physiological differences. Morphological observations using light microscopy and scanning microscopy have shown that new cell wall materials appeared within 2–3 days, and the integrate cell walls were regenerated approximately after 6 days of culture of the callus protoplasts, whereas no cell wall formation was observed in the mesophyll protoplasts after culture. During the culture, higher levels of H₂O₂ and malondialdehyde were detected in the mesophyll protoplasts as compared with the callus ones. On the contrary, the callus protoplasts possessed higher activities of antioxidant enzymes (SOD, POD and CAT) and larger amount of glutathione and ascorbic acid (at one time point) than the mesophyll protoplasts during the culture process. The current data indicate that the mesophyll and callus protoplasts displayed remarkable difference in the degree of oxidative stress and the antioxidant systems, suggesting that high levels of antioxidant activities might play an important role in the regeneration of protoplasts.     

Isolation and regeneration of protoplasts from the ectomycorrhizal ascomycete Cenococcum geophilum Fr.

Protoplasts of the ectomycorrhizal ascomycete Cenococcum geophilum were isolated from mycelium grown in liquid medium. The method was optimized with regard to culture conditions, preincubation, lytic enzyme system, pH value of the incubation medium, osmotic buffer and incubation temperature for C. geophilum strains SIV and 1448. The yields were 1-3·10⁸ and 7·10⁶ protoplasts per gram fresh weight for C. geophilum SIV and C. geophilum 1448, respectively. Protoplasts from C. geophilum SIV exhibited plasma membrane integrity close to 100% (fluorescein diacetate staining). At least 50% of the protoplasts contained a nucleus (staining with acridine orange). The regeneration of protoplasts from C. geophilum is described for the first time. The regeneration frequency was up to 13%, and, dependent on the conditions of culture (liquid medium, agarose, agar), four types of regeneration patterns could be distinguished Regenerated protoplasts of C. geophilum were capable of forming mycorrhizas with spruce (Picea abies) seedlings.     

Optimization of formation and regeneration of protoplasts from biocontrol agents ofTrichoderma species

The optimal conditions necessary for a large yield and a high frequency of regeneration of protoplasts isolated from the biocontrol agentsTrichoderma koningii andT. harzianum were investigated. Protoplast yields were 1.2×10⁸/ml fromT. koningii and 6×10⁷/ml fromT. harzianum when 20-h mycelial culture was treated with a lytic enzyme solution containing Novozym 234 (15 mg/ml), sucrose (0.6 M) and citrate phosphate buffer (0.02 M), pH 5.6 at 31°C. When the protoplasts were grown in the regeneration medium containing yeast extract (1.5%), 1 I of Mandel's salts, pH 5.6, and glucose (0.8 M), a high frequency of regeneration of the protoplast was obseved: 66% forT. koningii and 45% forT. harzianum. Two patterns of regeneration were observed. First, the hyphae arose directly from the regenerated protoplast mother cell. Second, a chain of bud cells developed from the protoplast and subsequently generating hyphae generally protruded from the terminal bud cells.