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.     

Factors affecting the electrofusion efficiency ofPorphyra protoplasts

The effects of various factors on the electrofusion efficiencies ofPorphyra protoplasts were investigated. These factors were protoplast stabilizing reagents, divalent cations, membrane digestive enzymes and cold storage of the protoplasts. Fusion efficiencies were dependent on the concentrations of reagents used to adjust the osmotic pressure of the medium. With mannitol or sorbitol the maximum fusion efficiency (approximately 16%) was observed at concentrations of 0.6 to 0.7 M; glucose was less effective. Brief treatment of the protoplasts with pronase stimulated electrofusion, whereas treatment with proteinase K, trypsin, phospholipase C or lipase repressed fusion. The addition of Ca²⁺ at 10^-5 to 10^-4 M in the protoplast medium enhanced the fusion efficiency to approximately four times that of the non-treated control. Sr²⁺ and Co²⁺ also stimulated electrofusion, but less effectively than Ca²⁺. The fusion capacity of the protoplasts remained stable for about 3 h when kept on ice, but decreased gradually when left at room temperate.     

Electron microscopic study of Bacillus subtilis protoplast fusion.

When protoplasts derived from sporulating cells of Bacillus subtilis were fused by exposure to polyethylene glycol (PEG) and fixed immediately thereafter, protoplasts with two enclosed prespores could be seen by electron microscope. The number of fusion events was greatly increased, and multiply fused protoplasts appeared, when the PEG-treated suspension was diluted in hypertonic broth and reincubated before fixation. This post-PEG incubation effect is taken to indicate a fusion mechanism of two steps: a short, PEG-dependent step of membrane activation, followed by a slow, metabolism-requiring step completing fusion. When prespore-bearing protoplasts from two genetically different strains were mixed and fused, the extent of fusion could also be followed by counting clones of recombinant bacteria. Maximal from the start, their number (1% of each parent type protoplast present) was unaffected by post-PEG incubation. Fusion in this case is apparently completed after plating on the wall-regeneration medium. After optimal post-PEG incubation, the majority of the protoplasts were seen to participate in fusion, and the cytological fusion observed, corrected for wall-regeneration frequency, accounted quantitatively for the prototrophic bacteria eventually recovered. These results are in good agreement with those obtained independently by Sanchez-Rivas and Garro (J. Bacteriol. 137:1340--1345, 1979).     

空间细胞电融合关键技术的地基研究——烟草细胞的电融合

本文针对建立空间细胞电融合技术存在的三个主要问题进行了研究。结果表明,用低温(4℃)、融合介质(0.55 mol/L甘露醇)并添加0.1%纤维素酶保存原生质体,72 h内可以使约94%细胞维持无壁状态,同时并未使细胞丧失再生能力,基本满足从地面制备亲本细胞到在微重力条件下进行电融合,对亲本细胞保持无壁状态的要求。为减少剪切力环境对亲本细胞造成的损伤,一方面用超速离心方法对亲本细胞之一去液泡,另一方面用电泳代替蠕动泵混合亲本细胞。而且,由于原生质体壁生长与其膜电位之间存在负相关性,因此利用电泳方法可以有效地富集和优化亲本细胞。根据地面实验结果推测,空间有/无液泡亲本细胞电融合的较适合参数可能为:交流电场强度90V/cm,频率0.8 MHz,排列时间20 s,直流脉冲1.0—1.3 kV/cm,幅宽40μs,两次脉冲。     

Increase of hybrids in yeast electrofusion by mitochondrial mutations

Yeast mitochondria were found to affect the zeta-potential of protoplasts, resulting in electrofusion of membrane behavior. For modeling purposes, two fusion systems were investigated: (1) parent yeasts of Saccharomyces cerevisiae G706 (rho(+)) x O708-11-16A (rho(+)), with zeta-potentials of -10 to -27 mV and -28 to -45 mV, depending on MgCl(2) concentration in the medium, respectively; and (2) parent yeasts of S. cerevisiae G706-1 (rho(-)) x O708-11-16A (rho(+)), with zeta-potentials of -30 to -60 mV, depending on MgCl(2). Yields of the hybrids in system (2) were over 100-fold higher than those in system (1). Thus, regulation of yeast electrofusion was found to be possible by mitochondrial mutations.     

Fusion of Avena sativa mesophyll cell protoplasts by electrical breakdown

Studies with the light microscope were carried out on mesophyll cell protoplasts of Avena sativa which had been made to undergo fusion by reversible electrical breakdown of the cell membrane. In order to establish close membrane contact between the cells, an important prerequisite for fusion, a method known as dielectrophoresis was used. In an inhomogeneous alternating electrical field the protoplasts adhere to the electrodes and to each other in the direction of the field lines. The cells which were thus brought into close contact with each other could be made to fuse by the application of a field pulse of high amplitude (about 750 V/cm) and short duration (20–50 μs). The field strength required for fusion exceeds the value necessary for the electrical breakdown of the cell membrane. Fusion took place within some minutes and led to a high yield of fused protoplasts. The fusion of cells being in the electric field occured in a synchronous manner. In some of the fusion experiments part of the protoplasts of A. sativa were stained with neutral red. When these cells were fused with unstained protoplasts, the vacuoles from the different cells within the fused aggregate could be shown to remain separate for quite some time.     

Cell fusion between L-forms and protoplasts of Staphylococcus aureus

Mixtures of various combinations of Lysostaphin protoplasts and stable L-forms of Staphylococcus aureus, which have different markers for drug resistance, were treated with polyethylene glycol (PEG) to examine the development of doubly resistant fusion products (fusants). To recover doubly resistant colonies as L-forms, they were incubated in 4.5% NaCl-brain heart infusion (BHI) broth containing penicillin G (PCG) for enrichment culture and cultured in PCG-4.5% NaCl-BHI agar medium (method 1), while to recover doubly resistant fusants as L-forms and coccal forms, they were grown on reversion medium (R medium) which causes reversion of protoplasts or fusants to parent type cells, and then cultured on assay media, i.e., R medium, BHI agar medium or PCG-4.5% NaCl-BHI agar medium (method 2). Under both experimental conditions, doubly resistant fusants developed as L-form cells by PEG treatment of pairs of protoplasts carrying the chloramphenicol (CP)-resistance plasmid and L-forms having chromosomal resistance to streptomycin (SM). In the reverse combinations, i.e., protoplasts showing chromosomal SM-resistance and L-form cells carrying the CP-resistance plasmid, the first method gave no doubly resistant colonies. By the second method, without enrichment culture on R medium, the latter combination gave doubly resistant fusants as L-form, coccal-type and mixed-type colonial forms, while when the PEG-treated mixture was enriched on R medium, fusants were obtained exclusively as the coccal type on either R medium or BHI agar assay medium. Neither of the methods yielded colonies of doubly resistant fusants on PEG-treatment of pairs of protoplasts and L-forms both of which were chromosomal, but with different drug resistances. These results show that PEG-induced cell fusion between protoplasts and L-forms of S. aureus, unlike the fusion between protoplasts or between L-forms, resulted in transfer of the drug resistance controlled by the plasmid to the fusion products. The fusants obtained were L-forms in method 1, and coccal type in the method 2.     

Immunological evidence for transfer of the barley nitrate reductase structural gene to Nicotiana tabacum by protoplast fusion

Summary A protoplast fusion experiment was designed in which the selectable marker, nitrate reductase (NR), also served as a biochemical marker to provide direct evidence for intergeneric specific gene transfer. NR-deficient tobacco (Nicotiana tabacum) mutant Nia30 protoplasts were the recipients for the attempted transfer of the NR structural gene from 50 krad -irradiated barley (Hordeum vulgare L.) protoplasts. Barley protoplasts did not form colonies and Nia30 protoplasts could not grow on nitrate medium; therefore, selection was for correction of NR deficiency allowing tobacco colonies to grow on nitrate medium. Colonies were selected from protoplast fusion treatments at an approximate frequency of 10^-5. This frequency was similar to the Nia30 reversion frequency, and thus provided little evidence for transfer of the barley NR gene to tobacco. Plants regenerated from colonies had NR activity and were analyzed by western blotting using barley NR antiserum to determine the characteristics of the NR conferring growth on nitrate. Ten plants exhibited tobacco NR indicating reversion of a Nia30 mutant NR locus. Twelve of 26 regenerated tobacco plants analyzed had NR subunits with the electrophoretic mobility and antigenic properties of barley NR. These included plants regenerated from colonies selected from 1) co-culturing a mixture of Nia30 protoplasts with irradiated barley protoplasts without a fusion treatment, 2) a protoplast fusion treatment of Nia30 and barley protoplasts, and 3) a fusion treatment of Nia30 protoplasts with irradiated barley protoplasts. No barley-like NR was detected in plants regenerated from a colony that grew on nitrate following selfed fusion of Nia30 protoplasts. Because tobacco plants expressing barley-like NR were recovered from mixture controls as well as fusion treatments, explanations for these results other than protoplast fusionmediated gene transfer are discussed.     

激光诱导金盏菊原生质体融合方法初探

本文简述运用激光微束诱导金盏菊(Calendula Officinali L.)叶肉细胞原生质体融合的方法和初步结果,并就激光诱导植物原生质体融合的条件进行初步讨论。     

Comparative effects of fusion facilitators on electrofusion attributes of N. tabacum mesophyll protoplasts

Mesophyll protoplasts isolated from in vitro-grown Nicotiana tabacum L. shoots were subjected to electrofusion.Dielectrophoresis was induced by an AC field of 50 V cm^-1 inter-electrode distance and 0.5 MHz oscillation frequency. Fusion was effected by two 0.7 kV cm^-1 DC pulses, each of 50 s duration, applied within one second of each other. Various chemical treatments were tested for their effects on dielectrophoresis efficiencies (percentages of protoplasts that made contact with at least one other protoplast under the AC field), fusion efficiencies (percentages of protoplasts participating in fusion events), cell lysis (percentages of protoplasts bursting during the electrofusion processes), overall viabilities of fusion products 24 h post-fusion and overall plating efficiencies 7 d post-fusion (percentages of fusion-derived cells that had undergone division). The various attributes assessed on the electrofusion of protoplasts in the control treatment, 10% mannitol, differed considerably for experiments carried out on different days. Relative to the control treatment, only the Ca²⁺ treatments, and to a lesser extent lipase treatment reduced dielectrophoresis efficiencies. Polyamines, cytochalasins and Ca²⁺ treatments significantly reduced cell lysis percentages. All electrofusion facilitators tested (except for spermine at 150 mg l^-1, the cytochalasins B and D, and Ca²⁺ treatments) increased fusion efficiencies to more than 1.5 times those obtained with the standard 10% mannitol electrofusion medium. Ca²⁺ treatments increased overall viabilities of fusion products by more than 1.5 times. With the exception of the prostaglandins, lecithin and CaCl₂ treatments, overall plating efficiencies were reduced by treatment of protoplasts with fusion facilitators. Substantial increases in overall plating efficiencies over those observed in the control treatment were obtained using prostaglandin F_2a, lecithin and CaCl₂.2H₂O treatments. The implications of the results are discussed.Abbreviations AC alternating current, approx.-approximately - BA benzylaminopurine, cv.-cultivar - DC direct current, diam.-diameter - FDA fluorescein diacetate - MS Murashige & Skoog (1962) - NAA napthaleneacetic acid - PCM protoplast culture medium - PIM protoplast isolation medium - PPM protoplast purification medium - rpm revolutions per minute - SD(n) standard deviation of a variate - SEM standard error of the mean     

Exploitation of specific properties of trifluoroethanol for extraction and separation of membrane proteins

Hydrophobic proteins are difficult to analyze by two-dimensional electrophoresis (2-DE) because of their intrinsic tendency to self-aggregate during the first dimension (isoelectric focusing, IEF) or the equilibration steps. This aggregation renders their redissolution for the second dimension uncertain and results in the reduction of the number and intensity of protein spots, and in undesirable vertical and horizontal streaks across gels. Trifluoroethanol (TFE) is traditionally used at high concentration to solubilize peptides and proteins for NMR studies. Depending upon its concentration, TFE strongly affects the three-dimensional structure of proteins. We report here a phase separation system based on TFE/CHCl(3), which is able to extract a number of intrinsic membrane proteins. The addition of TFE in the in-gel sample rehydration buffer to improve membrane protein IEF separation is also presented. The procedure using urea, thiourea, and sulfobetaine as chaotropic agents was modified by the addition of TFE and removing of sulfobetaine at an optimized concentration in the solubilization medium used for the first dimension. When using membrane fractions isolated from Escherichia coli, the intensity and the number of spots detected from 2-DE gels that used TFE in the solubilization medium were significantly increased. The majority of the proteins identified using peptide mass fingerprinting and tandem mass spectrometry (MS/MS) were intrinsic membrane proteins, proteins of beta barrel structure or transmembrane proteins.     

Electro-fusion and genetic analysis of fusion products of haploid and polyploid Saccharomyces yeast cells

Abstract Electro-fusion was induced between protoplasts of the respiratory-deficient polyploid strain 93 and the respiratory-competent haploid strain 111a auxotrophic for tryptophan and lysine. Close membrane contact was achieved by exposing the protoplasts to an inhomogeneous alternating field (about 1 kV/cm, 2 MHz). Cell fusion was observed by application of two field pulses (8 kV/cm, 40 μs duration) applied at an interval of 10 s. After transferring onto selection medium hybrids could be isolated. These hybrids were at first heterokaryons giving rise to parental type spontaneous segregants on nutritionally complete medium. After several passages on selection medium stable hybrids could be selected. Genetic analysis of these hybrids showed that recombination had taken place with partial or even complete elimination of the chromosome set. We suggest that chromosome imbalance occurs in one hybrid.     

Visualization of protoplast fusion and quantitation of recombination in fused protoplasts of auxotrophic strains of Escherichia coli

Protoplast fusion has been used to combine genes from different organisms to create strains with desired properties. A recently developed variant on this approach, genome shuffling, involves generation of a genetically heterogeneous population of a single organism, followed by recursive protoplast fusion to allow recombination of mutations within the fused protoplasts. These are powerful techniques for engineering of microbial strains for desirable industrial properties. However, there is a prevailing opinion that it will be difficult to use these methods for engineering of Gram-negative bacteria because the outer membrane makes protoplast fusion more difficult. Here we describe the successful use of protoplast fusion in Escherichia coli. Using two auxotrophic strains of E. coli, we obtained prototrophic strains by recombination in fused protoplasts at frequencies of 0.05-0.7% based on the number of protoplasts subjected to fusion. This frequency is three-four orders of magnitude better than those previously reported for recombination in fused protoplasts of Gram-negative bacteria such as E. coli and Providencia alcalifaciens.     

Electric field-induced fusion of isolated vacuoles and protoplasts of different developmental and metabolic provenience

Using an electric field pulse technique, we induced fusion between vacuoles and protoplasts of Kalanchoë daigremontiana , between protoplasts from etiolated and green leaf mesophyll, and between mesophyll protoplasts from plants of different physiological properties ( Avena sativa : C₃ mechanism of photosynthesis, Kalanchoë daigremontiana : crassulacean acid metabolism). Close membrane contact amongst protoplasts or between protoplasts and vacuoles (as required for fusion) was achieved by the application of an alternating, non-uniform electric field to the suspension. Due to the dielectrophoresis effect the cells attach to each other along the field lines. The fusion process is initiated by the injection of an electric field pulse of high intensity and short duration (μs range). The field intensity has to be sufficiently high to induce reversible breakdown in the area of close membrane contact. After the application of the field pulse, the fusion process is initiated and completed within seconds to a few minutes, depending on the material investigated.
Fusion occurs between protoplasts and vacuoles as well as between protoplasts of different species. Both tonoplast and plasma membranes completely intermingled, indicating that in contrast to suggestions in the literature these membranes are compatible. Furthermore the cytoplasms of etiolated and green protoplasts obviously do not mix after fusion is completed, as etioplasts and chloroplasts kept separated from each other. In all experiments the volume of the fusion product equalled the sum of the compartments that underwent fusion. The wide spectrum of possible applications resulting from these fusion experiments in relation to metabolic problems is discussed.     

Isolation and Identification of Ciliatine (2-Aminoethylphosphonic Acid) from Lipids of Edible Antarctic Krill,Euphausia superba

An improved method for regenerating Bacillus subtilis protoplasts at the frequency of 92～100% on a semi-synthetic medium was found. Protoplasts were preincubated in HCP-3 medium, an isotonic semi-synthetic medium supplemented with polyvinylpyrrolidone, and then plated on HCP-1.5 agar medium by overlaying. By this method, even on the regeneration medium supplemented with minimal nutritional requirements protoplasts regenerated at a frequency of as high as 20%. The modified method was applicable to the direct-selection of prototrophic recombinants after fusion (the highest recombination yield from the input protoplasts was 1.3%) and to protoplast transformation with plasmid DNA.     

Production of asymmetric hybrids between Arabidopsis thaliana and Brassica napus utilizing an efficient protoplast culture system

Application of the protoplast culture method developed for Brassica protoplasts to protoplasts of Arabidopsis thaliana has increased the opportunities for interspecific hybridizations involving Arabidopsis. A more-efficient and much-simpler method was established compared to the earlier-reported protocol developed for A. thaliana protoplasts in which alginate beads were utilized. Mesophyll protoplasts of A. thaliana (ecotypes 'Landsberg erecta' and 'Wassilewskija') were cultured in the modified 8p liquid medium, which had been developed for Brassica protoplasts. For comparison, protoplasts were cultured in sodium alginate beads supplied with B5 medium according to the protocol for A. thaliana. The protoplasts divided with high frequencies in the 8p medium, and calli proliferated more rapidly than in the sodium alginate beads. High frequencies of shoot differentiation and regeneration were observed in calli of both ecotypes, from about 30% in the ecotype 'Wassilewskija' to about 60% for 'Landsberg erecta'. The more-rapidly the calli developed, the higher the regeneration frequencies were. Asymmetric hybrids between A. thaliana and Brassica napus were obtained by treating the protoplasts of A. thaliana with iodoacetamide (IOA) and B. napus protoplasts with UV-irradiation before fusion with polyethylene glycol (PEG). By using the culture procedure developed for Brassica protoplasts, calli developed and plants were regenerated. Although most of the plants regenerated after cell fusion were A. thaliana-like and were judged to be escapes from IOA treatment, more than ten plants showed hybrid features of both morphological and molecular characters. Among the hybrids that have flowered so far, both male-fertile and male-sterile plants have been obtained. Back-crossings to A. thaliana are now in progress as is morphological and molecular characterization of the plants.     

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.     

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.     

Somatic hybridization between selected Lycopersicon and Solanum species

Summary Mesophyll protoplasts of an interspecific Lycopersicon esculentum Mill, (tomato) x Lycopersicon pennellii hybrid plant (EP) were fused with callus-derived protoplasts of Solanum lycopersicoides Dun. using a modified PEG/DMSO procedure. The EP plant was previously transformed by Agrobacterium tumefaciens which carried the NPTII and nopaline synthase genes. Protoplasts were plated at 10⁵/ml in modified KM medium and 16 days post-fusion 25 ug/ml kanamycin was added to the culture medium. During shoot regeneration, 212 morphologically similar putative somatic hybrids were delineated visually from kanamycin resistant EP's. Forty-eight shoots, randomly selected among the 212, were further verified as somatic hybrids by their leaf phosphoglucoisomerase heterodimer isozyme pattern. However, the resulting plants were virtually pollen sterile. In a second fusion, mesophyll protoplasts of Solanum melongena (eggplant) were fused with EP callus-derived protoplasts. Using the same fusion and culture procedure, only two dark green calli were visually selected among the pale green parental EP and verified as somatic cell hybrids by several isozyme patterns. These two calli have produced only leaf primordia in one and half years on regeneration medium.Abbreviations ABA abscisic acid - BAP 6 benzylaminopurine - 2,4-D 2,4 dichlorophenoxy acetic acid - DMSO dimethyl sulfoxide - GA₃ gibberellic acid - GOT glutamate oxaloacetate - IAA indoleacetic acid - IBA indolebutyric acid - IDH isocitrate dehydrogenase - MDH malate dehydrogenase - MES morpholinoethane-sulfonic acid - PEG polyethylene glycol - 6-PGDH 6 phosphogluconate dehydrogenase - PGI phosphoglucoisomerase     

Structure of an analog of fusion peptide from hemagglutinin

A 20-residue peptide E5 containing five glutamates, an analog of the fusion peptide of influenza virus hemagglutinin (HA) exhibiting fusion activity at acidic pH lower than 6.0-6.5 was studied by circular dichroism (CD), Fourier transform infrared, and 1H-NMR spectroscopy in water, water/trifluoroethanol (TFE) mixtures, dodecylphosphocholine (DPC) micelles, and phospholipid vesicles. E5 became structurally ordered at pH < or = 6 and the helical content in the peptide increased in the row: water < water/TFE < DPC approximately = phospholipid vesicle while the amount of beta-structure was approximately reverse. 1H-NMR data and line-broadening effect of 5-, 16-doxylstearates on proton resonances of DPC bound peptide showed E5 forms amphiphilic alpha-helix in residues 2-18, which is flexible in 11-18 part. The analysis of the proton chemical shifts of DPC bound and CD intensity at 220 nm of phospholipid bound E5 showed that the pH dependence of helical content is characterized by the same pKa approximately 5.6. Only Glu11 and Glu15 in DPC bound peptide showed such elevated pKas, presumably due to transient hydrogen bond(s) Glu11 (Glu15) deltaCOO- (H+)...HN Glu15 that dispose(s) the side chain of Glu11 (Glu15) residue(s) close to the micelle/water interface. These glutamates are present in the HA-fusion peptide and the experimental half-maximal pH of fusion for HA and E5 peptides is approximately 5.6. Therefore, a specific anchorage of these peptides onto membrane necessary for fusion is likely driven by the protonation of the carboxylate group of Glu11 (Glu15) residue(s) participating in transient hydrogen bond(s).