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Mycena, a symbiont of Gastrodia elata, promotes seed germination of G. elata and plays a crucial role in the sexual reproduction of G. elata. However, the lack of genetic transformation system of Mycena blocks the research on the interaction mechanism of the two. In order to establish the protoplast transformation system of Mycena, this study analyzed the protoplast enzymatic hydrolysis system, screened the resistance markers and regeneration medium, and explored the transient transformation. After hydrolysis of Mycena hyphae with complexes enzymes for 8 h and centrifugation at 4 000 r·min~(-1), high-concentration and quality protoplast was obtained. The optimum regeneration medium for Mycena was RMV, and the optimum resistance marker was 50 mg·mL~(-1) hygromycin. The pLH-HygB-HuSHXG-GFP-HdSHXG was transformed into the protoplast of Mycena which then expressed GFP. The established protoplast transformation system of Mycena laid a foundation for analyzing the functional genes of Mycena and the molecular mechanism of the symbiosis of Mycena and G. elata.
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Agaricales , Gastrodia/genética , Protoplastos , Simbiose/genética , Transformação GenéticaRESUMO
Aim: To develop new Trichoderma strains, capable of removing toxic heavy metal ions from polluted environments, via protoplast fusion.Methodology: Trichoderma parental strains (T. viride and T. koningii) along with their ten fusants (Tk+Tv 1, Tk+Tv 2, Tk+Tv 3, Tk+Tv 4, Tk+Tv 5, Tk+Tv 6, Tk+Tv 7, Tk+Tv 8, Tk+Tv 9 and Tk+Tv 10) were obtained from the Department of Plant Pathology, Junagadh Agricultural University, Junagadh. The strains obtained by protoplast fusion were examined for their ability to remove toxic heavy metal ions, especially zinc ion. Fourier-transform infrared spectroscopy (FTIR) was conducted to detect the zinc uptake mechanism of Trichoderma parental and their fusant strains. Results: FTIR results demonstrated the Zn ion uptake capacity of fusant strains was found to be higher than that of the parental strains (12.8 to 10.7 mg g-1 on a dry weight basis at 1300 ppm). The highest Zn ion mobility observed was 62.1 mg. kg-1 and the highest Zn ion mobility observed per strain was 12.4% in Tk+Tv 3, followed by 11.86 % in Tk + Tv 7, 11.84% in Tk + Tv 9 and 11.28% in Tk + Tv 10. Parental and fusant strains Tk + Tv 3, Tk + Tv 8 and Tk + Tv 10 confirmed the involvement of different functional groups for different concentrations of zinc during adsorption by the fungus. Interpretation: FTIR results identified greater metal removal capacity in the fusant strains, particularly for soil Zn ion. Zinc tolerance was higher in the fusant strains than in the parental strains. Thus, protoplast fusion is an effective and feasible method for constructing new strains that can be used for bioremediation of contaminated environments.
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ABSTRACT Protoplasts are microbial or vegetable cells lacking a cell wall. These can be obtained from microalgae by an enzymatic hydrolysis process in the presence of an osmotic stabilizer. In general, protoplasts are experimentally useful in physiological, genetic and biochemical studies, so their acquisition and fusion will continue to be an active research area in modern biotechnology. The fusion of protoplasts in microalgae constitutes a tool for strain improvement because it allows both intra and interspecific genetic recombination, resulting in organisms with new or improved characteristics of industrial interest. In this review we briefly describe the methodology for obtaining protoplasts, as well as fusion methods and the main applications of microalgal platforms.
RESUMEN Los protoplastos son células microbianas o vegetales que carecen de pared celular. Estos pueden obtenerse a partir de microalgas por un proceso de hidrólisis enzimática en presencia de un estabilizador osmótico. En general, los protoplastos son experimentalmente útiles en estudios fisiológicos, genéticos y bioquímicos, por lo que su obtención y fusión continuarán siendo un área de investigación activa en la biotecnología moderna. La fusión de protoplastos en microalgas constituye una herramienta para el mejoramiento de cepas pues permite la recombinación genética intra e interespecífica, logrando así organismos con nuevas características de interés industrial. En esta revisión, describimos brevemente la metodología para obtener protoplastos, métodos de fusión y las principales aplicaciones de las plataformas basadas en microalgas.
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Abstract Catharanthus roseus (L.) G. Don, Apocynaceae, is an immensely important medicinal plant, produces a variety of anticancerous compounds. The yield of two most investigated alkaloids vinblastine and vincristine is unfortunately very low. A vast array of technologies including elicitation have recently been used to enrich Catharanthus alkaloid in culture. Yeast extract is a biotic elicitor, the polysaccharide and the peptide moiety have been recognized as a signalling element in enriching secondary metabolites. In this study, the yeast extract elicitation on vinblastine and vincristine was studied in various protoplast derived tissues and plantlets. Four different yeast extract treatments (T1 = 0.5 g/l, T2 = 1.0 g/l, T3 = 1.5 g/l and T4 = 2.0 g/l) were prepared and used. The alkaloid was quantified and a comparative account of yield were presented by the use of High performance thin layer chromatography. The yeast extract amendment in medium improved vinblastine and vincristine yield in cultivating tissues, maximum being in germinating embryos and in in vitro raised leaf. The highest yield was in T3 (1.5 mg/l) in which 22.74% vinblastine and 48.49% vincristine enrichment was noted in germinating embryos; the enhancement was however, treatment-specific. Antioxidant enzymes such as superoxide dismutase, catalase, ascorbate peroxidase and glutathione reductase activities were investigated as addition of yeast extract caused cellular stress and had enriched level of alkaloids.
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La fusión de protoplastos ha facilitado la obtención de nuevas cepas de levaduras con propiedades biotecnológicas muy interesantes. El principal objetivo de esta investigación fue obtener una levadura híbrida intergénica con potencialidades enológicas características de dos géneros diferentes. Para ello se fusionaron protoplastos de Saccharomyces cerevisiae autóctona de la región zuliana con Hanseniaspora guillermondii CECT 11102 de origen comercial. Saccharomyces es una levadura que produce altas concentraciones de etanol pero el perfil aromático es sencillo y común. Hanseniaspora no resiste las concentraciones de etanol, pero puede generar aromas agradables e intensos. La identificación de las levaduras antes y después de la fusión de protoplastos se realizó con la técnica PCR-RFLP del gen 5.8S rADN y las regiones intergénicas adyacentes ITS1 e ITS2 del ADN extraído, sometiendo los productos amplificados a un análisis de restricción con las enzimas HinfI, HaeIII, CfoI y DdeI. El polietilenglicol fue usado para inducir la fusión de protoplastos. La cepa híbrida presentó características de ambas levaduras parentales debido a que resistió altas concentraciones de etanol como S. cerevisiae y fue capaz de metabolizar el salicín como H. guillermondii. El análisis molecular PCR-RFLP de la levadura híbrida mostró un patrón de bandas diferente al de las levaduras parentales.
Protoplast fusion has facilitated the development of new yeast strains with very interesting biotechnological properties. The main objective of this research was to obtain hybrid yeast with potentialities of two different genera, that could be used in the wine manufacture. Saccharomyces cerevisiae protoplasts from the Zulian region were fused with Hanseniaspora guillermondii CECT 11102 of commercial origin. Saccharomyces is a yeast that produces high levels of ethanol but the aromatic profile is simple and common. Hanseniaspora does not withstand ethanol concentrations, but it can generate pleasant and intense aromas. Identification of yeast before and after the fusion of protoplasts was performed using the PCR-RFLP technique of the 5.8S rDNA gene and the adjacent ITS1 and ITS2 intergenic regions of the extracted DNA, subjecting the amplified products to a restriction with the enzymes HinfI, HaeIII, CfoI and DdeI. Polyethylene glycol was used to induce fusion of protoplasts. The hybrid strain showed characteristics of both parental yeasts because it resisted high concentrations of ethanol as S. cerevisiae and was able to metabolize the salicin as H. guillermondii. PCR-RFLP molecular analysis of hybrid yeast showed a different band pattern than those pertaining to parental yeasts.
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Claviceps pururea Cp-1 strain established in our lab is capable of producing variety of bioactive ergot alkaloids, and is broadly used by the pharmaceutical companies. To engineer the strain genetically for the production of specific ergot alkaloid, an effective transformation system must be set up first. However, the reported transformation system is not suitable for this strain due to different genetic backgrounds and the heterogeneity of Claviceps. Thus, in this paper, the hyphae of Cp-1 strain were used to prepare protoplasts by lywallzyme. The formation of protoplasts was investigated under different concentrations and incubation time of enzyme. The strain was tested for sensitivity to several antibiotics at different concentrations. Finally, the genetic transformation system of Cp-1 strain was established. The results suggest that protoplasts were formed efficiently by using 1% lywallzyme at 25℃ for 2 h. Transformants were obtained by PEG mediated protoplast transformation of Cp-1 strain with plasmid pAN7-1, using 1.5 mg·mL-1 hygromycin B as the selective marker. The exogenous gene in the plasmid pAN7-1 was integrated into the genome of Cp-1 strain transformant as demonstrated by PCR result. This study laid an important foundation for genetic manipulation of Cp-1 strain.
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Mushroom transformation requires a series of experimental steps, including generation of host strains with a desirable selective marker, design of vector DNA, removal of host cell wall, introduction of foreign DNA across the cell membrane, and integration into host genomic DNA or maintenance of an autonomous vector DNA inside the host cell. This review introduces limitations and obstacles related to transformation technologies along with possible solutions. Current methods for cell wall removal and cell membrane permeabilization are summarized together with details of two popular technologies, Agrobacterium tumefaciens-mediated transformation and restriction enzyme-mediated integration.
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Agaricales , Agrobacterium , Membrana Celular , Parede Celular , DNA , ProtoplastosRESUMO
In order to develop a high-efficiency and reproducible regeneration protocol for Stevia protoplasts, various factors such as type and concentration of enzymes, osmoticum, incubation time, plant material type and age were studied. Protoplasts were successfully isolated from leaves of fourweek- old in vitro grown plants using an enzyme mixture comprising of 2% (w/v) Cellulase Onozuka R-10, 1.5% (w/v) Macerozyme Onozuka R-10, 0.2% (w/v) Driselase and 0.1%(w/v) Pectolyase Y- 23 in 0.5 M mannitol, 2.5 mM CaCl2.2H2O and 5 mM 2 (N-morpholino)-ethanesulfonic acid (MES ) at pH of 5.8. Approximately 8.4±0.40x106 protoplasts g-1fresh weight with 98.8±1.39% viability was obtained after incubating in enzyme solution for 4 hours in dark. Viable protoplasts were collected by centrifugation in the presence of 16% sucrose solution. Protoplasts at density of 5x105 mL-1were cultured on modified KM8P medium supplemented with 0.2 mg L-1 2,4-dicholorophenoxyacetic acid (2,4-D), 1 mg L-1 α-naphthalene acetic acid (NAA), 0.5 mg L-1 zeatin, 0.15 M sucrose and 0.3 M mannitol by agarose-bead or thin layer liquid culture technique. The protoplasts regenerated cell walls within 24 hours. First cell division was observed after culturing for 2-3 days and microcolonies were formed within 4 weeks. Gradually adding fresh medium of lower osmotic pressure into the medium for protoplast culture favored cell division. Compared to liquid culture, agarose bead culture improved division frequency almost 1.5 times effectively and showing a plating efficiency of 13% and 9.1% respectively with survival rate of 23.5% to 14.8%. Upon transfer to Murashige and Skoog’s medium (MS) with 1 mg L-1BA, alone or in combination with NAA or 2, 4-D at 0.1 mg L-1, protoplast-derived calli produced complete plantlets through somatic embryogenesis in 8-weeks. The regenerated plants survived in soil and all were normal with respect to morphology and growth characters. This protocol might lead to the improvement of the Stevia through somatic hybridization, somaclonal variation and genetic engineering by using protoplast based regeneration System.
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Protease hyper producing recombinant strains were produced by intergeneric protoplast fusion of entomopathogenic fungi Beauveria bassiana and Metarhizium anisopliae. β-glucuronidase and KCl were used as lysing enzyme and osmotic stabilizer. Along with inter-generic fusion, intra-strain and inter-strain fusions were also carried out using polyethylene glycol (PEG) as fusogen. When the fused protoplasts were regenerated on Czapekdox agar medium, they exhibited fast mycelial growth and abundant sporulation when compared to non-fusants. Pr1 and Pr2 specific activities were found to be increased by two- fold in recombinant strains than the nonfusants and the parental strains.
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Sclerotium rolfsii (Sacc.) is a serious plant pathogenic fungus and lacks perfect (basidial) stage in production. Protoplast fusion technology was employed to reconstruct fusants from this fungus. Two strains designated as A and R were used. Maximum protoplast yields of 3.8x10(5) /g mycelia and 2.8x10(5) /g mycelia were formed in strains A and R respectively. Osmotic stabilizer sucrose 1M gave maximum yield. Lysing enzyme at the rate of 15mg/ml was found best for yield. Fusion of protoplasts from strains A and R was carried out in fusion media containing PEG 4000 30 percent (w/v) with 0.2mM CaCl2. Four fusants F1, F2, F3 and F4 were recovered. Morphological, physiological and pathogenic characters of fusants were compared with parent strains on carrots, beans and tomato.
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Ascomicetos/enzimologia , Basidiomycota/genética , Estabilidade Enzimática , Fusão Gênica , Protoplastos/enzimologia , Amostras de Alimentos , Métodos , Métodos , VirulênciaRESUMO
Despite the recent progress of transient gene expression systems in a red alga Porphyra yezoensis by particle bombardment, a stable transformation system has yet to establish in any marine red macrophytes. One of the reasons of the difficulty in genetic transformation in red algae is the lack of systems to select and isolate transformed cells from gametophytic blades. Thus, toward the establishment of the stable transformation system in P. yezoensis, we have developed a procedure by which transiently transformed gametophytic cells were prepared from particle bombarded-gametophytic blade as regeneratable protoplasts. Using mixture of marine bacterial enzymes, yield of protoplasts was high as reported elsewhere; however, these protoplasts did not develop. In contrast, protoplasts prepared from gametophytes treated with allantoin were normally developed, in which the overexpression of a â-glucuronidase reporter gene had no effect on the regeneration of protoplasts. Therefore, the use of allantoin in protoplast preparation sheds a new light on the realization of an efficient isolation and selection of study transformed cells from gametophytic blades.
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Alantoína/fisiologia , Expressão Gênica , Células Germinativas , Folhas de Planta/genética , Porphyra/genética , Protoplastos/fisiologiaRESUMO
The aim of this work was to study the standardization of conditions to obtain and regenerate Epulorhiza repens and Ceratorhiza sp. protoplasts. For E. repens, the largest number of protoplasts (8.0 × 10(6) protoplasts/mL) was obtained in 0.6 M KCl, using 15 mg/mL of Lysing Enzymes, and 2-day-old fungal mycelium. When 0.5 M sucrose was used as osmotic stabilizer, the highest frequency of regeneration was achieved (8.5 percent); 80.0 percent of protoplasts were nucleated, and 20.0 percent anucleated. For Ceratorhiza sp., the largest number of protoplasts (4.0 × 10(7) protoplasts/mL) was achieved in 0.6 M NaCl, when 15 mg/mL of Lysing Enzymes and 15mg/mL of Glucanex, with 2-day-old fungal mycelium were used. The highest frequency of regeneration was 6.7 percent using 0.5 M sucrose as osmotic stabilizer; 88.8 percent of protoplasts were nucleated, and 11.2 percent anucleated.
O objetivo deste trabalho foi padronizar as condições de obtenção e regeneração de protoplastos de Epulorhiza repens e Ceratorhiza sp. Para o fungo E. repens, a maior produção de protoplastos, 8.0 x 10(6) protoplastos/mL, foi obtida em KCl 0.6 M, na presença de 15 mg/mL de "Lysing Enzymes" e micélio fúngico com 2 dias de idade. A maior freqüência de regeneração obtida foi de 8,5 por cento quando sacarose 0.5 M foi utilizada como estabilizador osmótico. Do total de protoplastos obtidos, 80 por cento eram nucleados e 20 por cento anucleados. Para Ceratorhiza sp., a maior produção de protoplastos, 4,0 x 10(7) protoplastos/mL, foi obtida em NaCl 0.6 M, na presença de 15 mg/mL de "Lysing Enzymes" e 15mg/mL de Glucanex, e micélio fúngico com 2 dias de idade. A maior freqüência de regeneração obtida foi de 6.7 por cento utilizando sacarose 0.5 M como estabilizador osmótico. Do total de protoplastos obtidos, 88.8 por cento eram nucleados e 1.2 por cento anucleados. O estabelecimento de protocolo otimizado para obtenção e regeneração de protoplastos dos fungos E. repens e Ceratorhiza sp. é importante, permitindo o estabelecimento de técnicas de transformação genética, o isolamento de mutantes, a determinação de cariótipo eletroforético e o cruzamento de linhagens.
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The present work reports factors affecting the production and regeneration of protoplasts from Colletotrichum lindemuthianum. The usefulness of protoplast isolation is relevant for many different applications and has been principally used in procedures involving genetic manipulation. Osmotic stabilizers, lytic enzymes, incubation time and mycelial age were evaluated in terms of their effects on protoplast yield. The optimal condition for protoplast production included the incubation of young mycelia (48 h) in 0.6 mol l-1 NaCl as the osmotic stabilizer, with 30 mg ml-1 Lysing Enzymes from Trichoderma harzianum for 3 h of incubation. In these conditions protoplasts production was higher than 10(6) protoplatos ml-1 in the digestion mixture, number suitable enough for experiments of transformation in fungi. Sucrose concentrations of 1.2 mol l-1 and 1 mol l-1 were the most suitable osmotic stabilizers for the regeneration after 48 h, with rates of 16.35 percent and 14.54 percent, respectively. This study produced an efficient method for protoplast production and reverted them into a typical mycelial morphology using a Colletotrichum lindemuthianum LV115 isolate.
O presente trabalho apresenta os fatores que afetam a produção e regeneração de protoplastos de Colletotrichum lindemuthianum. O isolamento de protoplastos é muito relevante para diferentes aplicações, principalmente, em procedimentos que envolvem a manipulação genética. Estabilizadores osmóticos, enzimas líticas, tempo de incubação e idade micelial foram testados com relação ao efeito na liberação de protoplastos. As condições otimizadas para produção de protoplastos foram incubação de micélio jovem (48 h) em estabilizador osmótico NaCl 0.6 mol l-1, acrescido de 30 mg ml-1 da enzima Lysing Enzymes de Trichoderma harzianum incubado, durante 3 h. Nessas condições, a obtenção de protoplastos foi maior que 10(6) protoplatos ml-1 na mistura de digestão, número suficientemente adequado para experimentos de transformação em fungos. Sacarose nas concentrações de 1.2 mol l-1 e 1 mol l-1 foram os estabilizadores mais apropriados para a regeneração, após 48 h, sendo as taxas de regeneração de 16.35 por cento e 14.54 por cento, respectivamente. Este estudo produziu um método eficiente para produção e reversão de protoplastos à morfologia micelial típica de Colletotrichum lindemuthianum utilizando o isolado LV115.
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In this study, we developed an efficient electroporation-mediated transformation system featuring Flammulina velutipes. The flammutoxin (ftx) gene of F. velutipes was isolated by reverse transcription-PCR. pFTXHg plasmid was constructed using the partial ftx gene (410 bp) along with the hygromycin B phosphotransferase gene (hygB) downstream of the glyceraldehydes-3-phosphate dehydrogenase (gpd) promoter. The plasmid was transformed into protoplasts of monokaryotic strain 4019-20 of F. velutipes by electroporation. High transformation efficiency was obtained with an electric-pulse of 1.25 kV/cm by using 177 transformants/microg of DNA in 1 x 107 protoplasts. PCR and Southern blot hybridization indicated that a single copy of the plasmid DNA was inserted at different locations in the F. velutipes genome by non-homologous recombination. Therefore, this transformation system could be used as a useful tool for gene function analysis of F. velutipes.
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Agaricales , Southern Blotting , Quimera , Cinamatos , Complexo I de Proteína do Envoltório , DNA , Eletroporação , Flammulina , Proteínas Fúngicas , Genoma , Higromicina B , Micotoxinas , Oxirredutases , Plasmídeos , Reação em Cadeia da Polimerase , Protoplastos , Recombinação Genética , Entorses e DistensõesRESUMO
The protoplasts of Micromonospora purpurea,the high yield strains of gentammicin producer were mutagenized by diethyl sulfate(DES)and ultraviolet radiation(UV)respectively,then fused,screened by gentamicin resistance and regenerated.The average fermentation unit 2200?U/ml could be achieved by shake flask for 10 batches.The average fermentation unit 1900?U/ml could be obtained by 5L fermentor for 7 batches.The quality of the end product conformed to CP2000,BP2000 and USP26 pharmacopoeia.
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Yeast strains with improved ethanol yield are important for efficient bioconversion of lignocellulosic biomass for fuel ethanol.Candida shehatae CICC1766 was adapted to 4%(v/v)ethanol,and then subjected to UV mutagenesis.One respiration deficient mutant Rd-5 with improved xylose fermentation capability was selected.Protoplasts of Rd-5 were inactivated by UV treatment,followed by the PEG-mediated protoplast fusion with a Saccharomyces cerevisiae strain with good ethanol-fermenting capability.The xylose fermenting capability of the fusants was investigated,and the fusant F6 demonstrated good ethanol fermentation performance,producing 18.75g/L ethanol from 50g/L xylose with an ethanol yield of 0.375 or 73.4% of its theoretical value of 0.511.Comparing with its parent Candida shehatae strain,the ethanol yield of F6 was increased by 28%.
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BACKGROUND: Recently Live blood analysis was populated in korean society. so we evaluated clinical utility of Live blood analysis, as compared the Live blood analysis result of patients who have confirmed diagnosis of disease with that of controls who have no known health problems. METHODS: We carried out Live blood analysis to patients(n=30) who was entered to an admission in Yongdong severance hospital from February 2000 to March 2000 and to controls(n=30) who worked in that hospital at same time. We examined 3 abnormal finding; rouleau formation, spicule, protoplast, which were often observed in Live blood analysis. RESULTS: At comparison of patient group and control group, rouleau formation was observed in 27 patients except 3 patients and it was observed in all 30 controls. Spicule was observed 2in 9 patients except 1 patients and it was observed in all 30 controls. Protoplast was observed in 16 patients and 13 controls. There was no difference between patients and controls in observing 3 abnormal finding. CONCLUSION: We conclude that Live blood analysis may have no clinical significance.
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Humanos , Terapias Complementares , Diagnóstico , ProtoplastosRESUMO
Protoplast fusion is a useful technique for establishing fungal hybrids to overcome the natural barriers. The ultrastructure of protoplast and its fusion process were observed using a scanning electron microscopy(SEM) and a transmission electron microscopy(TEM). The protoplasts were variable in size from 0.5~15microm in diameter, and the mean diameter was about 3~5microm. It was impossible to discriminate protoplasts of Lentinula edodes from protoplasts of Coriolus versicolor by size and surface structure. Big aggregates of the dehydrated protoplasts were observed, after polyethylene glycol 4000 treatment. Nucleus, mitochondria, lipid granules and various vesicles having granules were scattered in the cytoplasm. The vesicles were heterogeneous in size and vary from one protoplast to another. The fused membrane layer of the two protoplasts was observed. Time protoplast membrane contact and reorganization of membrane components were essential condition for protoplast fusion. Transmission electron micrograph showed fused protoplasts and flattening of the cells in the area of the membrane contact. We hope that our electron microscopic observations provide some insights into the understanding of the fusion process of protoplast in fungi.
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Citoplasma , Fungos , Esperança , Lentinula , Membranas , Mitocôndrias , Polietilenoglicóis , Protoplastos , Cogumelos ShiitakeRESUMO
Penconazole-resistant and cabendazim-resistant mutants of Venturiu inaequalis were developed by chemical (MNNG) mutagenesis. Protoplasts of these mutants were isolated and fused using polyethylene glycol as the fusogen. Fusants were classified into parental, non-parental and recombinant types. The recombinants were resistant to penconazole and carbendazim. The double resistant strains were stable and exhibited pathogenicity on fungicide-sprayed and unsprayed apple twigs.
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Humanos , Mutagênese , Pais , Polietilenoglicóis , Protoplastos , VirulênciaRESUMO
Objective To isolate protoplasts from tube plant leaves of Rhodiola sachalinensis and regenerate plantlets after protoplast culture.Methods Preculture treatment and size of explants,enzyme concentration,mannitol concentration in enzyme mixture related with protoplasts isolation were studied to determine the superior optimized conditions.Results Explants could be used to isolate protoplast without dark preculture,and leaf length should be longer than 1.5 cm.The best incubating enzyme solution contains 1.0% cellulase Onzuka R-10,0.5% Macerozyme R-10,10 mmol/L CaCl2?2H2O,0.1% MES,0.7 mmol/L KH2PO4,and 0.5 mol/L mannitol.The enzyme and explants mixture were shaken for 4 h at 25 ℃.The protoplasts yield and viability were 39.43?106/g fresh weight and 78.6%,respectively.Purified protoplasts were cultured in medium 1/2 MS+1 mg/L 2,4-D+0.5 mg/L ZT+0.5 mol/L mannitol +500 mg/L hydrolysis of casein initially with shallow liquid layers,and calli formed within 40 d.After calli were transfered to MS+1 mg/L 6-BA+0.1 mg/L NAA,adventitious buds were induced from calli.Shoots longer than 2 cm rooted within 30 d when they were transfered to 1/2 MS medium.Conclusion The study provides the scientific base for protoplast fusion in polyploidy breeding of R.sachalinensis.