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.     

疏绵状嗜热丝孢菌原生质体的制备与再生

以疏绵状嗜热丝孢菌(Thermomyces lanuginosus)为供试菌株,研究了菌龄、酶的种类及浓度、酶解时间、酶解温度和稳渗剂对原生质体制备的影响及稳渗剂对原生质体再生的影响。结果表明,制备嗜热丝孢菌原生质体比较适宜的条件为:PDB液体培养基培养28 h,以0.7 mol/L NaCl为稳渗剂,0.15 mol/L的溶壁酶,30℃酶解4 h。原生质体再生以0.7 mol/L蔗糖作稳渗剂为最佳。     

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.     

Production and seeding of protoplasts of <Emphasis Type="Italic">Porphyra okhaensis</Emphasis> (Bangiales,Rhodophyta) in laboratory culture

High yields of viable protoplasts were produced from Porphyra okhaensis H. Joshi, Oza & Tewari following two-step enzymatic digestion (protease pretreatment and cell wall polysaccharides-degrading enzyme treatment) of the thallus. Pretreatment of the tissues with 1% Protease P6 at 20± 1 ^°C for 30 min prior to digestion with cell wall polysaccharide-degrading enzymes increased the protoplast yield two fold compared to tissues that were digested with polysaccharide-degrading enzyme mixture. The polysaccharide-degrading enzymes employed for protoplast isolation from P. okhaensis were Cellulase Onozuka R-10, Macerozyme R-10, abalone acetone powder and agarase. Suitable pH, temperature and duration of enzyme treatment for optimal production of viable protoplasts were pH 6, 20± 1 ^°C and 3 h, respectively. Mannitol (0.8 M) was found to be an excellent osmotic stabilizer. When the tissue of P. okhaensis pretreated with 1% protease solution was digested with commercial enzyme mixture consisting of 2% Cellulase Onozuka R-10, 2% Macerozyme R-10, 1% abalone acetone powder, 50 units of agarase and 0.8 M mannitol in 1% NaCl (adjusted to pH 6.0 with 25 mM MES buffer) with gentle agitation for 3 h at 20± 1 ^°C, 23.2± 0.24× 10⁶ protoplasts g⁻¹ fresh wt. were obtained. The regeneration rate of protoplasts isolated in the present study was found to be 79%. Protoplasts that regenerated cell walls underwent regular cell divisions and developed into leafy gametophytic thallus in the laboratory cultures. Further, the seeding of nylon threads with partially developed protoplasts of P. okhaensis was successful in the laboratory conditions and germlings as long as 3–4 cm were obtained from such seeded threads in one month period in aerated cultures.     

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.     

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.     

利用荧光染色和流式细胞技术辅助卵孢小奥德蘑原生质体制备与再生研究

本研究以卵孢小奥德蘑液体培养菌丝作为实验材料,利用单因子变量法探索研究了菌丝培养时间、酶浓度、酶解时间、酶解温度、稳渗剂类型对卵孢小奥德蘑原生质体制备的影响,并对原生质体再生培养基进行选择和优化。通过荧光染色,利用激光共聚焦显微镜和流式细胞仪对原生质体的制备过程、得率和活力进行研究。结果表明,将卵孢小奥德蘑菌丝在液体培养基中培养5d收集菌丝体,以甘露醇作为渗透压稳定剂,在溶壁酶浓度2%、30℃条件下酶解5h,获得的原生质体得率最高,达2.0×10 ⁷个/mL;通过流式细胞仪分析,约57.69%的原生质体细胞为活细胞;在RM培养基中再生效果最好,再生率为(0.103±0.025)%。研究结果可以为卵孢小奥德蘑育种与食用菌原生质体制备再生提供研究基础。     

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.     

The formation and regeneration of mycelial protoplasts in hyper lignolytic fungus,strain IZU-154

Over 2 × 10⁷/ml protoplasts were obtained from mycelia of hyper lignolytic fungus (nomenclatured as strain IZU-154) by treatment with the lytic enzyme NovoZym 234 in the presence of 0.05 M maleic acid buffer (pH 5.6) containing 0.6 M MgSO₄. The protoplasts regenerated at more than 10% of frequency on solid 2% agar medium containing 0.6 M sucrose as an osmotic stabilizer overlaid with 0.5% agar containing the stabilizer. In the determination of the lignolytic activities of 50 regenerants from protoplasts, 2 strains which degraded more than 56% of the lignin during incubation for 30 d and showed activity higher than the parent were found. The regeneration from protoplasts of this fungus was suggested to be useful for the breeding of strains having higher lignolytic activity than this fungus.     

轮梗霉原生质体的制备*

本文比较了酶浓度、菌龄、渗透压稳定剂以及酶解温度和时间等因素对轮梗霉原生质体得率的影响。结果基本获得了制备原生质体的适宜条件:用0.6mol/L甘露醇稳渗剂配制成的4%纤维素酶和0.5%蜗牛酶混合酶,35℃酶解培养了30h的菌丝1.0h,即可得到较高产量的原生质体。对该原生质体进行了再生实验,其再生率约为23.8%。     

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.     

Production and regeneration of protoplasts from Penicillium nalgiovense

The conditions for optimum protoplast formation from Penicillium nalgiovense were determined. Best results were achieved using Novozyme 234 in combination with β-glucuronidase. Chitinase or β-glucuronidase alone were not able to produce protoplasts under the given conditions. For the regeneration frequency the kind of osmotic stabilizer was important. The use of ionic stabilizers enhanced the regeneration efficiency up to 80% in contrast to only 30% regeneration with sorbitol.     

Characterization of protoplasts prepared from the edible fungus, Stropharia rugoso-annulata

Protoplast preparation and regeneration conditions of the edible fungus, Stropharia rugoso-annulata Farlow apud Murrill were studied, and the regenerated progenies were characterized in this study. The optimal condition for protoplast preparation was incubation of young mycelia with gentle shaking in 1.5%(w/v) Lywallzyme at 30 °C for 3 h. PGPM (potato/glucose/peptone/mannitol) was the most suitable regeneration medium. Served as osmotic stabilizer, sugars (mannitol and sucrose) were better than inorganic salts (MgSO₄) for clone development and growth. Pre-incubation of protoplasts in liquid regeneration medium resulted in a significantly decreased regeneration rate. Both dikaryotic isolates and monokaryotic isolates could be identified from protoplast-regenerated progenies, with a much higher frequency of monokaryotic isolates identified from the early-developed and fast-growing regenerated clones. Two parental mating types were also identified from protoplasted monokaryotic isolates, but not segregated by 1:1. The mycelial growth rate of protoplasted monokaryotic isolates showed a mating type-dependent model when cultured at different incubation temperatures and pH values, with A2B2 mating type monokaryotic isolates growing faster than those of A1B1 mating type monokaryotic isolates.     

卷枝毛霉孢子原生质体的制备与再生

为了构建高产γ-亚麻酸的卷枝毛霉稳定遗传转化体系,利用酶解法对卷枝毛霉(Mucor circinelloides sp.)EIM-10的孢子进行原生质体制备。研究酶液组成、渗透压稳定剂、酶解温度、酶解时间等对卷枝毛霉孢子原生质体形成和再生的影响,建立了制备卷枝毛霉孢子原生质体的最适条件:1%纤维素酶和2%溶壁酶为酶解体系,0.5mol/L NaCl作为渗透压稳定剂,酶解温度32℃,酶解时间2.5 h,再生培养基为0.5 mol/L NaCl高渗培养基。用双层平板培养法进行原生质体再生,在此条件下原生质体的形成量为1.2×106个/mL,再生率为70.5%。     

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%。     

Analysis of factors responsible for the regeneration to intact cells from sphaeroplasts of Saccharomyces cerevisiae

The regeneration of Saccharomyces cerevisiae, NCIM 3288, cells from its sphaeroplasts were found to be influenced by a number of factors. The most suitable conditions of regeneration were also dependent on growth medium, that is, using malt-extractglucose-yeast extract-peptone (MGYP) medium: mannitol 0.7 M, pH 6.5, 30 °C and using yeast extract-peptone-glucose (YPG) medium: sucrose 0.7 M, pH 5.0 and 30 °C. The maximum regeneration frequency was observed in YPG medium.     

金龟子绿僵菌原生质体的制备和再生及其羟化酶活性研究

对金龟子绿僵菌(Metarhizium anisopliae)原生质体的制备和再生的影响因素进行实验,并在此基础上考察了甾体底物对原生质体羟化酶的诱导作用。结果表明,原生质体制备的合适条件是:42 h的菌丝体用纤维素酶(10 mg/mL)和蜗牛酶(5 mg/mL)的混合酶在含有0.8 mol/L甘露醇的pH 5.8磷酸缓冲液中,28℃震荡(80 r/min)酶解3 h,原生质体产量可达到6.12×10~7/mL,在含有0.6 mol/L KCl的双层马铃薯培养基上再生率达到7.79%。经过6 h底物诱导的菌丝体制备的原生质体细胞色素P450的表达量比没经过诱导的菌丝体制备的原生质体高约40%,证明该菌羟化酶系统的可诱导性。由于没有细胞壁的阻碍经过底物诱导的原生质体能够高效的将底物转化为产物,且副产物相对较少。     

蓝色犁头霉原生质体的制备与再生

研究了氢化可的松生产菌蓝色犁头霉原生质体的形成与再生。通过对溶解酶系统的选择,影响原生质体形成的因素如渗透压稳定剂、酶浓度、菌龄、菌丝培养基和培养方式等因素进行考察,发现以0．4mol/L NH4Cl做为稳定剂、2．5mg/mL溶壁酶和5mg/mL纤维素酶组成的混合酶液溶解菌丝,4h后原生质体量可达10^6cell/mL。通过显微镜观察原生质体的形成过程以及在高渗培养基上的再生情况,再生率为15．6％。     

Selective regeneration ofBacillus subtilis protoplasts transformed to kanamycin resistance

An HTY medium osmotically stabilized with 0.5 M D-glucitol was used for regeneration ofBacillus subtilis protoplasts. The application of glucitol as osmotic stabilizer allows simultaneous selection of cells resistant to kanamycin to be made since this antibiotic is not inactivated by glucitol when added to the regeneration medium.     

Studies on the regeneration-restore and karyotype of protoplast in Metarhizium anisopliae var. majus

Abstract:  The characteristics and regeneration-restore of protoplasts and its karyotype of an insect pathological fungus, Metarhizium anisopliae var. majus were studied. Among the protoplasts, 25.3% were without a nucleus, and 74.7% contained a nucleus. Among the nucleus protoplasts, 53.6% contained a single nucleus. The regeneration-restore of protoplasts was of three distinct shapes. Considering the frequency of regeneration and the growing speed of the colony, 0.7 mol/l glucose was the optimum as osmotic stabilizer of culture medium in the regeneration-restore of the protoplasts. The chromosomal DNA molecules of M. anisopliae var. majus have been separated into seven bands by pulsed-field gel electrophoreses. Using the Schizosaccharomyces pombe chromosomes as size standard, the size of chromosomal DNA was estimated to be 1.1–6.5 Mb and its karyotype exhibited polytypism among strains.