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.     

The protoplasts of Acremonium chrysogenum. Biochemical and morphological studies

A procedure for preparing stable A. chrysogenum protoplasts capable of 60 per cent regeneration was developed. Two morphogenetic types of the regeneration were detected. The variants isolated after the protoplast regeneration were characterized by wide ranges of morphological variation. Capacity for the antibiotic production varied from 60 to 160 per cent of the activity of the starting strain. A procedure for isolating functionally active mitochondria from protoplasts of A. chrysogenum was also developed. Their main bioenergetic parameters were studied. In the respiratory chain of the A. chrysogenum mitochondria there were detected three conjugation sites of oxidative phosphorylation.     

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.     

Efficient protoplast regeneration for some homofermentative lactobacilli and pediococci

Conditions for protoplast regeneration were examined for several strains of homofermentative lactobacilli and pediococci isolated from silage. Attempts to regenerate protoplasts using previously published agar regeneration media for lactobacilli were unsuccessful for most of the strains. Replacing or increasing colloidal substances in a medium containing raffinose and MgCl(2) as osmotic stabilizers enabled efficient regeneration of the protoplasts at a frequency of 10-99%. A medium containing gelatin, polyvinylpyrrolidone (PVP) and no agar was effective for Lactobacillus plantarum, Lactobacillus pentosus and Lactobacillus rhamnosus protoplasts. An agar medium containing PVP (PVP medium) was effective for Pediococcus sp. protoplasts, and addition of agarose to the PVP medium enabled regeneration of Lactobacillus casei protoplasts. A medium containing calcium alginate gel and no agar was effective for Lactobacillus curvatus protoplasts. The type of colloidal substance required for protoplast regeneration varied from species to species. This result suggested that several kinds of media may be necessary to regenerate protoplasts for all the genera of lactobacilli and pediococci.     

Characteristic features of protoplast formation and regeneration in Fusidium coccineum

The methods for preparation and regeneration of protoplasts were tested with respect to the strains of F. coccineum markedly differing in their capacity for antibiotic production, sporulation and the growth rate. It was found that the substrate used for the culture growth had a significant effect on the cell wall and sensitivity of the mycelium to lytic enzymes. An enzyme from Hellix pomatia and its combination with lysozyme were used for lysing the culture. The cytological investigation of the time course of the culture lysis revealed a stage-by-stage pattern of protoplast formation by means of fragmentation of the hyphal contents till a ball was formed. Two to 4 protoplasts differing in their size and structure were formed within a cell. The pH value and osmotically stabilizing component had some effect on the rate of protoplast formation. Highly productive strains were characterized by formation of protoplasts heterogenous in their size and by decreased frequency of regenerations. The enzyme-free protoplasts preserved their viability and capacity for germination in osmotically stabilizing media for 72-96 hours of storage at 4 degrees C. On solid media the regeneration frequency reached 38 per cent. The regenerated cells formed colonies morphologically similar to those of the intact culture.     

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.     

Mycelial protoplast isolation and regeneration of Lentinus lepideus

Generation of fungal protoplast is essential for fusion and transformation systems. Protoplast fusion offers great potential for the improvement of industrially important microorganisms. To establish conditions for the protoplast isolation and regeneration of the mycelia of Lentinus lepideus, various enzymes and osmotic stabilizers were examined. To investigate suitable medium for the culture of L. lepideus, the mycelia were grown in ten different media at 28 degrees C for 10 days. Among them potato dextrose agar (PDA) medium was found to be the best for colony growth. When Novozym 234, cellulase and beta-glucuronidase were added to the mycelia in combination or alone, Novozym 234 alone at the concentration of 10 mg/ml was the most effective for the protoplast yield. Purified spherical protoplasts of the mycelia were osmotically hypersensitive and further incubation of the mycelia with the lytic enzyme resulted in the older parts of the hyphae swollen. When we applied various osmotic stabilizers at the fixed concentration of 0.6 M on the protoplasts, the yields of protoplasts were increased until 4-hr incubation. However application of sucrose or MgSO4 led to further protection of protoplasts after that time and reached a plateau on 5- and 7-hr incubations, respectively. The suitable incubation time and optimal pH with the lytic enzyme for the maximum release of protoplasts were 6 hrs of incubation and pH 5, respectively. When we examined various osmotic stabilizers for the regeneration of the protoplast, the complete medium containing 0.6 M sucrose induced highest hyphal growth with regeneration frequency of 3.28%.     

The methods of protoplast formation and transformation of Streptomyces strains

Factors influencing formation, regeneration and transformation of protoplasts in streptomyces are described. Conditions for formation and regeneration of protoplasts in 4 industrial strains producing the macrolide antibiotic tylosin were studied. It was demonstrated possible to apply the method for transformation of the S. lividans type culture to 3 industrial strains of S. griseus producing grisin, an antibiotic used as a feed additive. Potential increasing of the efficiency of protoplast transformation and transfection in various actinomycetous strains including industrial ones is discussed. The stimulating effect of lyposomes on transformation of protoplasts in S. lividans 66 with DNA of plasmids pVG101 and pIJ350 as well as transfection with DNA of phages SH10 and KS404 was shown. The tylosin resistance genes in S. fradiae strain B45 were cloned which enabled isolating the cluster of the genes participating in tylosin biosynthesis.     

Development of the system for protoplast generation in Streptomyces aureofaciens strains--chlortetracycline producers

Conditions for preparation and regeneration of protoplasts in a commercial strain of the culture producing chlortetracycline and its derivatives were determined. The protoplasting level depended on the conditions of the mycelium cultivation and composition of a regeneration medium. Under the optimal conditions it amounted up to 10(6) protoplasts/ml. A mutant able to form regenerating protoplasts at a rate of 10(9) protoplasts/ml was isolated. An autoinhibition effect in regenerating protoplasts was observed. As a result ofprotoplast generationing, the morphological variation increased and the protoplast antibiotic activity changed within wide ranges. Variants with higher productivity in comparison to that of the initial strain were isolated. Stability of the inherited property of antibiotic production in the variants is being studied.     

Lactobacillus protoplast transformation

A method for the transformation of Lactobacillus protoplasts by plasmid DNA is reported. The procedure involves polyethylene glycol treatment of protoplasts to induce DNA uptake. A transformation efficiency ranging from 5 to 1000 transformants per microgram of DNA is achieved; the efficiency of protoplast regeneration ranged from 10 to 20%.     

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     

Genetic recombination by protoplast fusion inNocardia asteroides

Summary Fusion and regeneration of protoplasts ofNocardia asteroides strains ATCC 3318, IMRU W3599 and HIK B971 have been used to study genetic recombination in this species. Protoplasts were produced by treatment with lysozyme, following incubation with glycine. Mutants of ATCC 3318 were grown in peptone yeast extract medium at 32°C prior to protoplast production to maximize protoplast frequency, whereas mutants of IMRU W3599 and HIK B971 were grown in trypticase-soy broth. Glycine concentrations favoring protoplast formation varied from 1.5% to 5% depending on strain. For all strains, protoplast formation was complete 1 h after addition of 5 mg/ml lysozyme. Protoplasts were fused by addition of 50% polyethylene glycol-1000. In general, 25% of the protoplasts could be regenerated. The incidence of recombinant recovery was increased up to 750-fold. The distribution of recombinant phenotypes in matings was similar for protoplast fusion and conventional crosses.     

Plasmolytic behavior of the donor cell may affect protoplast response

Protoplast donor tissues (leaves of shoots in culture) from a herbaceous plant ( Solanum etuberosum ) and two woody species ( Populus alba × P. grandidentata cv. Crandon and Betula platyphylla szechuanica ) were compared during plasmolysis in a range of osmotic agents and potentials. Cells from both Solanum and Populus , species proven to be amenable to protoplast division and regeneration, plasmolyzed readily at higher osmotic potentials than cells from Betula , a species recalcitrant to prolonged culture after protoplast isolation. Betula leaf mesophyll cells exhibited persistent membrane-to-wall attachments and many failed to plasmolyze even under extreme osmolarity. Although their leaves exhibited similar photosynthetic rates, photosynthetic capacity was lost from Betula protoplasts upon isolation, and retained by Solanum protoplasts. Differential stress after isolation was not detectable through vital staining, but only Solanum and Populus gave both high protoplast yields and high plating efficiencies in continued culture.     

Studies of protoplast fusion in Streptomyces chrysomallus

Conditions for the regeneration of cells from protoplasts of Streptomyces chrysomallus, a producer of the peptide antibiotic actinomycin, are described. Regeneration of fusion products was most efficient at 27-30 degrees C on regeneration R2 medium (Okanishi et al., 1974) containing 0.25 M-sucrose. The addition of phosphate (150-300 mg 1(-1) to the medium and incubation at 23 degrees C proved to be optimal for the regeneration of individual strains. Highest recombination frequencies after protoplast fusion were obtained by fusing protoplasts in the presence of 45% (w/v) polyethylene glycol 6000. With strains that produce no, or little antibiotic, protoplasts must be present in excess in fusion mixtures in order to overcome inhibition of regeneration by the antibiotic-producing partner.     

Studies of cotyledon protoplast cultures from B napus,B. campestris and B. oleracea. II: Callus formation and plant regeneration

Cotyledons from twelve cultivars of Brassica; B. napus (Westar, Eureka, Global, Pivot and Narc 82); B. campestris: (Arlo, Sonja, Bunyip and Wonk Bok) and B. oleracea (Phenomenal Early, Sugar Loaf and Earliball) were used for protoplast isolation and culture in a comparative study of cell colony and callus formation, and plant regeneration. The formation of cell colonies and callus from protoplast cultures were significantly influenced by the light conditions of seed germination. All twelve cultivars showed callus formation from protoplast cultures derived from cotyledons of seedlings grown in dark for 3 days followed by 1 day dim light (dark/dim light-grown). Callus was obtained in all five liquid media used: modified K8P(1), modified K8P(2), modified MS, modified B and modified NN. In contrast, only six cultivars exhibited callus formation from the protoplasts isolated from cotyledons of seedlings germinated under light conditions for 7 days (light-grown) and in only three media: modified K8P(1), modified MS, modified B.Callus, derived from protoplast cultures isolated from dark/dim light-grown cotyledons and grown on K3 or MS series solid media for about 1 month, could develop shoots when further transferred onto MS series regeneration media. All five cultivars of B. napus, three of the four cultivars of B. campestris (Arlo, Sonja and Bunyip) and one of the three cultivars of B. oleracea (Sugar Loaf) exhibited shoot regeneration from protoplast cultures within 2–3 months after protoplast isolation. The frequency of shoot regeneration ranged among 1–22.5%. A high degree of reproducibility was observed in cultivars Westar, Eureka, Global, Arlo, Bunyip and Sugar Loaf. In contrast, among the six cultivars that formed callus in protoplast culture derived from light-grown cotyledons, only three cultivars from B. napus (Westar, Eureka, Global) exhibited shoot regeneration 5.5 months after protoplast isolation. Regenerated shoots from cultivars Westar, Eureka and Bunyip and Sugar Loaf, which derived from protoplasts of dark/dim light germinated seedling and were induced to root on rooting media, survived in soil and grew to produce silique and set seeds.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - BA benzylaminopurine - EDTA ethylenediaminetetraacetic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - KT kinetin - GA₃ gibberellic acid - MS Murashige and Skoog medium - NAA -naphthaleneacetic acid - PAR photosynthetically active radiation     

Asymmetric protoplast fusion between sweet potato and its relatives,and plant regeneration

Experiments were conducted to asymmetrically fuse protoplasts from sweet potato (Ipomoea batatas L. Lam.) and its wild relativesI. trifida Don. andI. lacunosa L. Protoplasts of sweet potato were treated with iodoacetamide, whereas those ofI. trifida Don. andI. lacunosa L. were irradiated with X-rays. The asymmetric protoplast fusion was carried out by the electrofusion method and by polyethylene glycol treatment. Electrically-fused protoplasts initiated cell division, and then formed calli earlier than the polyethylene glycol-fused protoplasts. Plant regeneration occurred only in electrofused calli, suggesting that polyethylene glycol had some toxic effect on plant regeneration ability. Analysis of peroxidase isozymes confirmed the interspecific hybrid characteristics of both the fusion-derived calli and regenerated plants.     

Efficient protoplast regeneration ofBacillus thuringiensis andAgrobacterium tumefaciens

Summary Treatment ofBacillus thuringiensis andAgrobacterium tumefaciens taken from the early growth phase (8 h) with lysozyme at 1 mg/ml gave 90–99% protoplast formation and 10–12% protoplast regeneration on the minimal medium in absence of plasma expander (Bovine serum albumin). Enhanced fusion frequency was obtained when protoplasts from 8 h grown cells were used for fusion experiments.     

Use of the protoplast fusion method in the selection of Streptomyces griseus--the producer of the streptothricin antibiotic grisin

An effective method for protoplast fusion in S. griseus producing grisin was developed. The method requires the use of polyethylene glycol with a molecular weight of 1000. It was demonstrated that protoplasts formed most effectively in this organism, when the mycelium of the streptomycete previously treated with ultrasound in the process of its growth was used for the treatment with lysozyme. The efficacy of protoplast regeneration in the strains with the use of the modified hypertonic medium R2MD was 25-75 per cent. The possibility of using the protoplast fusion method for constructing phage resistant strains producing kormogrisin was shown.     

Irreversible inhibition of rapeseed protoplast (Brassica napus L.) development through treatment with the mitochondrial vital stain nonyl-acridine orange (NAO)

We describe here, for the first time, the effects of the hydrophobiccationic dye 10-n-nonyl acridinium-orange-chloride (NAO) onprotoplast development, photosynthetic capacity and infrastructure.NAO is specifically taken up by plant mitochondria under vitalstaining conditions (0.62 µM; 15–30 min). No otherorganelles revealed the bright green fluorescence typical forthis dye. Cell division and growth of protoplast cultures fromBrassica napus are severely reduced after vital staining withNAO. At higher NAO concentrations (1.25–2.5 µM;30 min) protoplast regeneration is fully blocked. Electron microscopyreveals that such a treatment causes the mitochondria to swellto a size several-fold larger than in control protoplasts. Otherorganelles appeared to be unaffected by NAO. Measurement ofoxygen production and consumption of protoplasts indicated thatNAO (1.25 µM; 30 min) was without effect on respirationin the dark, but subsequently caused a 50% reduction in oxygenevolution in the light. These results suggest that NAO is actingboth as an uncoupler as well as an ionophore. We discuss thevalue of NAO as a potentially important tool in somatic hybridizationexperiments by influencing the outcome of mitochondrial segregation/recombination. Key words: Brassica napus, mitochondria, NAO, protoplast regeneration