Application of protoplast fusion technique to genetic recombination of Micromonospora rosaria

The optimum conditions for efficient formation and regeneration of Micromonospora rosaria protoplasts have been determined. The state of inoculum culture and stage of growth in a medium containing partially growth-inhibiting concentrations of glycine had significant effects on protoplasting. A high frequency of regeneration was accomplished with a hypertonic regeneration agar medium. A slight difference was found in the optimum culture age for formation and regeneration of protoplasts. Protoplast fusion was carried out using these optimum conditions. The recombinant frequency varied from 0.7 to 5.9% in the intraspecific crosses employing single and multiple auxotrophic markers. Electron microscopy showed stable and intact protoplasts when they were prepared with a hypertonic buffer. However, many protoplasts were shown to be damaged and many membraneous vesicles were observed when prepared in buffer without sucrose. The fusion process of protoplasts of Micromonospora was observed with the aid of electron microscopy.     

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.     

Protoplast formation and regeneration in <Emphasis Type="Italic">Lactobacillus delbrueckii</Emphasis>

Method for production and regeneration of Lactobacillus delbrueckii protoplasts are described. The protoplasts were obtained by treatment with a mixture of lysozyme and mutanolysin in protoplast buffer at pH 6.5 with different osmotic stabilizers. The protoplasts were regenerated on deMan, Rogosa and Sharpe (MRS) with various osmotic stabilizers. Maximum protoplast formation was obtained in protoplast buffer with sucrose as an osmotic stabilizer using a combination of lysozyme (1 mg/ml) and mutanolysin (10 μg/ml). Maximum protoplast regeneration was obtained on MRS medium with sucrose (0.5 M) as an osmotic stabilizer. The regeneration medium was also applicable to other species of lactobacilli as well. This is, to our knowledge, the first report on protoplast formation and efficient regeneration in case of L. delbrueckii.     

利用紫外线、利福平、氯化锂诱变原生质体筛选L—亮氨酸高产菌株的研究

本实验是以黄色短杆菌T_(6—13)的诱变株L—亮氨酸产生菌D—R—4为出发菌株,经青霉素、甘氨酸、溶菌酶作用制备原生质体,形成率达91.30％,再生率达53.68％;然后对原生质体进行紫外线、利福平、氯化锂复合诱变处理;在再生培养基平皿上培养,获得再生突变株,从中挑取单独菌落,进行摇瓶发酵筛选,已选育出一株57—4S号高产稳定菌株;经氨基酸分析仪测定其发酵液L—亮氨酸产量由出发菌株的17.35mg/ml提高到23.45mg/ml提高了35％。发酵液中主要副酸——异亮氨酸含量很少。     

Cytologic control of protoplast formation and regeneration in Streptomyces erythraeus, strain BTCC-2

Experiments on protoplast formation and regeneration in S. erythraeus, strain BTCC-2 (Saccharopolyspora erythrae) were performed under microscopic control at all the stages. It was shown that the highest protoplast titer was provided by the mycelium grown in one step in the absence of glycine. For characterizing the protoplasts formed by the mycelium grown under different conditions, their regeneration capacity was estimated by microscopic examination of the protoplasts after 15-20-hour growth in microchambers and evaluation of the regeneration efficiency 7-10 hours later. Of interest was the fact of spontaneous development of colonies consisting of the protoplast-like cells (L-cells) in 15-20 hours. Such colonies were formed only by the protoplasts grown from the mycelium incubated in one step in the absence of glycine or in the presence of 0.1 per cent of glycine. Such conditions provided also the maximum efficiency of the protoplast regeneration. The long-term storage of protoplasts led to a decrease in their viability.     

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。     

Optimal Cultural and Physiological Conditions for Handling Streptomyces rimosus Protoplasts

A general procedure for manipulating protoplasts of three Streptomyces rimosus strains was developed. More than 50% regeneration efficiency was obtained by optimizing the osmotic stabilizer concentrations and modifying the plating procedure. Preparation and regeneration of protoplasts were studied by both phase-contrast and electron microscopy. After cell wall degradation with lysozyme, protoplasts about 1,000 to 1,500 nm in diameter appeared. The reversion process exhibited normal and aberrant regeneration of protoplasts to hyphae and to spherical cells, respectively. Spherical cells contained no alpha, epsilon-ll-diaminopimelic acid and were colorless or red after Gram staining. They showed consistent stability during at least five subsequent subcultivations. However, the omission of glycine from the precultivation medium reduced the unusual process of regeneration almost completely. After normal protoplast regeneration, the production of oxytetracycline by single isolates was not affected.     

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.     

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.     

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.     

The isolation and regenaration of protoblast from Lipomyces starkeyi: an oleaginous yeast

The isolation and regenration of prostoplasts from Lipomyces starkeyi have been optimised. Snail enzyme (12 mg·ml⁻¹) proved to be the most effective lytic enzyme although treatment with Novozym 234, Cellulase CP and β-glucanase also resulted in protoplast formation. Magnesium sulphate (0.55 M) was shown to be the best fro protoplast isolation. Exponential phase cells were most susceptible to the lytic enzyme, stationary phase cells appeared to be resistant. 2-Mercaptoethanol or dithiothreitol did not enahance the isolation of protoplasts in this yeast. The optimum pH for protoplast isolation was 5.8. Ultrastructural observations were made on cells during lytic digestion and revealed that the cell wall and capsule are stripped away from the protoplast.Protoplast synthesised new cell wall material when cultured on osmotically stabilised medium, regeneration was not oberved in liquid medium. Optimum regeneration occured when protoplasts were embedded in a thin layer of minimal medium osmotically stabilised with mannitol (0.6M) and solidified with 1.5–2.0% agar. A basal layer of medium was also stabilised with mannitol (0.6 M) but contained 3% agar. The lytic enzyme used for protoplast isolation did not appear to effect the regeneration of protoplasts.     

Colony formation and plant regeneration from mesophyll protoplasts of Solanum etuberosum

A procedure for the culture of Solanum etuberosum mesophyll protoplasts with subsequent shoot regeneration is described. Several factors affected protoplast yield, colony formation, and shoot regeneration from in vitro plants. A protoplast isolation medium with 0.6 M sucrose produced twice the yield as one with 0.3 M sucrose. uowever, a higher concentration of osmoticum was inhibitory to colony development unless it was diluted into a lower osmoticum medium in a bilayer system. A 16 hour light/8 hour dark photoperiod for stock plants allowed twice the protoplast yield compared to plants grown under continuous light but no effect was found on subsequent colony formation or shoot regeneration. The concentrations of four major salts in the protoplast plating medium were critical for a high frequency of colony formation from protoplasts. Levels of 0.25 × or 1 × were considerably better than 4 ×. Fast colony formation, but at a lower efficiency, was obtained with a monolayer plating method. A bilayer plating system allowed a higher efficiency but colonies developed more slowly. For the best treatments, the frequency of colony formation from protoplasts ranged from 2.4 to 3.6 × 10^-3 with 37% to 66% of the colonies producing shoots ten weeks after protoplast isolation.Cooperative investigation of the USDA-ARS and the Wisconsin Agric. Exp. Stn.     

Cytological study of early stages of regeneration of protoplasts of fungi and Streptomyces

Early stages of Penicillium chrysogenum 51 and Streptomyces lividans 66 protoplast regeneration on solid media were studied microscopically under conditions of microcompartments. It was shown that at the early regeneration stages there were both rapid reversion into the mycelial form and a retarded one. In P. chrysogenum retarded regeneration resulted in formation of hypha-like structures or protoplast breaking into fragments of various sizes. Some of the fragments restored the cell walls and mycelial organization whereas the others lysed. As a result of the breaking and compartmentalization of the viable areas one protoplasts formed several centers of P. chrysogenum colony reversion. Retarded regeneration of protoplasts in S. lividans 66 resulted in their growth and multiplication in the protoplast-like L-form. On media with penicillin, glycine and horse serum there were isolated colonies of S. lividans L-forms subject to passages or reversion depending on the medium composition.     

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.     

Factors affecting protoplast formation and regeneration by four species of Streptomyces

Four species of Streptomyces, Streptomyces canescens, S. limosus, S. griseus and S. griseolus , were used to study the effects of glycerine and gelatin on the formation and regeneration of protoplasts. For each species efficient protoplast formation with high protoplast concentrations and low levels of non-protoplast units was obtained with mycelia grown in medium without glycerine. The low regeneration frequencies of protoplasts of S. canescens and S. limosus on R2 medium were increased substantially by the addition of 1% gelatin. The use of single colonies, rather than spores, to establish mycelial cultures was found routinely to produce good protoplast preparations.     

米曲霉两株营养缺陷型原生质体的形成和再生的条件实验*

采用1%溶壁酶加1%玛瑙螺酶(褐云玛瑙螺消化液的冷冻干粉)的混合酶,自米曲霉(Aspergillus oryzae)的两株营养缺陷型中获得了大量的原生质体,并比较了渗透压稳定剂、温度、菌丝体的培养基成分等因素对原生质体形成和再生的作用。无机盐类稳定剂(NaCl、KCl)获得了高产量的原生质体,而有机类(蔗糖、甘露醇、山梨醇)做为稳定剂不甚理想。对120和720菌株的原生质体在高渗再生培养基上进行再生试验,再生率分别为52%和65%。     

Plant regeneration from mesophyll protoplasts of the tree legume Pithecellobium dulce benth

Conditions were developed for the isolation, culture and regeneration of mesophyll protoplasts of the tree legume, Pithecellobium dulce Benth. The presence of 2,4-dichlorophenoxyacetic acid (2,4-D) was essential to induce initial cell divisions and addition of naphthaleneacetic acid (NAA) improved the response. Sustained division and cell colony formation were achieved from the protoplasts cultured in a modified KM8P medium containing 2,4-D (2.3 μM), NAA (3 μM) and benzyladenine (BA) (2.3 μM). Dilution of the osmotica included in the protoplast culture medium was necessary to induce sustained proliferation of the protoplast-derived cells. Differentiation of shoots from the protoplast-derived calli occurred on Murashige and Skoog (MS) medium supplemented with BA (5 μM) and indole-3-acetic acid (1 μM). Omission of 2,4-D from the culture medium, after the initial 2 weeks of protoplast culture, was obligatory to induce shoot morphogenesis.     

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.     

Protoplast formation and regeneration of dehydrodivanillin-degrading strains of Fusobacterium varium and Enterococcus faecium

Two strains of rumen anaerobes isolated from dehydrodivanillin-degrading cultures were identified as Fusobacterium varium and Enterococcus faecium. These organisms degraded dehydrodivanillin synergistically to 5-carboxymethylvanillin and vanillic acid. Specific conditions for protoplast formation and cell wall regeneration for both bacteria were determined, under strictly anaerobic conditions, to be as follows. The cell wall of each bacterium in yeast extract medium was loosened by adding penicillin G during early log-phase growth. The cell wall of F. varium was lysed by lysozyme (1 mg/ml) in glycerol (0.2 M)-phosphate buffer (0.05 M; pH 7.0). The addition of NaCl (0.08 M) with lysozyme was necessary for lysis of E. faecium in this solution. Almost all cells were converted to protoplasts after 2 h of incubation at 37 degrees C. Regeneration of both protoplasts was 20 to 30% on an agar-containing yeast extract medium.     

Protoplast formation and regeneration of dehydrodivanillin-degrading strains of Fusobacterium varium and Enterococcus faecium.

Two strains of rumen anaerobes isolated from dehydrodivanillin-degrading cultures were identified as Fusobacterium varium and Enterococcus faecium. These organisms degraded dehydrodivanillin synergistically to 5-carboxymethylvanillin and vanillic acid. Specific conditions for protoplast formation and cell wall regeneration for both bacteria were determined, under strictly anaerobic conditions, to be as follows. The cell wall of each bacterium in yeast extract medium was loosened by adding penicillin G during early log-phase growth. The cell wall of F. varium was lysed by lysozyme (1 mg/ml) in glycerol (0.2 M)-phosphate buffer (0.05 M; pH 7.0). The addition of NaCl (0.08 M) with lysozyme was necessary for lysis of E. faecium in this solution. Almost all cells were converted to protoplasts after 2 h of incubation at 37 degrees C. Regeneration of both protoplasts was 20 to 30% on an agar-containing yeast extract medium.