• Title/Summary/Keyword: protoplast regeneration

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The protoplast formation, regeneration and fusion of coryneform bacteria (Coryneform bacteria의 原形質體 形成, 再生 및 融合에 관한 硏究)

  • Shin, Myung-Gyo;Lee, Se-Yong;Lim, Bun-Sam;Chun, Moon-Jin
    • Korean Journal of Microbiology
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    • v.22 no.3
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    • pp.175-181
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    • 1984
  • In order to develope a protoplast fusion system for industrial coryneform bacteria, the optimum conditions for the formation and regeneration of progoplast were examined for Brevibacterium flavum and Corynebacterium glutamicum and the protoplast fusion was performed. For the formation of the protoplast of B. flavum and C. glutamicum, the optimum time for penicillin G. treatment to obtain protoplast was mid-exponential growth phase ($O.D_{580}=0.6-0.8,\;8.0{\times}10^7-1.0{\times}10^8cell/ml$). At the optimum conditions (0.3units/ml penicillin G and $400{\mu}g/ml$ lysoyme for treatement), frequencies of protoplast formation and protoplast regeneration were 99% and 25%, respectively. Protoplast regeneration frequency was highest under the optimum conditions for the protoplast formation. Addition of 25mM $Mg^{2+}\;and\;50mM\;Ca^{2+}$ to the regeneration medium further increased the regeneration frequencies. The protoplast fusion frequencies of B. flavum and C. glutamicum in intraspecies fusion were $1.0{\times}10^{-8}\;and\;7.8{\times}10^{-4}$, of the regenerated protoplast respectively, when 33% of PEG (polythylene glycol) 6,000 was used as the fusing agent.

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Optimization of Protoplast Preparation and Regeneration of a Medicinal Fungus Antrodia cinnamomea

  • Wu, Jyun-De;Chou, Jyh-Ching
    • Mycobiology
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    • v.47 no.4
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    • pp.483-493
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    • 2019
  • Antrodia cinnamomea is a unique medicinal fungus in Taiwan. It has been found rich in some pharmacologically active compounds for anti-cancer, hangover, and immune regulation etc. With the in-depth study of these components, it would be interesting and important to establish a molecular system for basic studies of A. cinnamomea. Thus, we would like to set up a foundation for this purpose by studying the A. cinnamomea protoplast preparation and regeneration. Firstly, we studied the optimization method of protoplast preparation of A. cinnamomea, and found various factors that may affect the yield during protoplast preparation, such as mycelial ages, pH values, and osmotic stabilizers. Secondly, in the regeneration of protoplasts, we explored the effects of various conditions on the regeneration of protoplasts, including different media and osmotic pressure. In addition, we found that citrate buffer with pH value around 3 dramatically increased the regeneration of protoplasts of A. cinnamomea, and provided a set of regeneration methodology for A. cinnamomea.

Studies on Protoplast Isolation and Regeneration of Lyophyllum ulmarium (느티만가닥 버섯의 원형질체 분리와 재생에 관한 연구)

  • 최혜진;김병각;현진원
    • Journal of Life Science
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    • v.13 no.2
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    • pp.143-149
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    • 2003
  • This experiment was undertaken to investigate proper conditions for protoplast isolation and regeneration from the mycelia of Lyophyllum ulmnrium. Protoplast isolation and regeneration are influenced by a variety of factors such as enzyme, osmotic stabilizer, reaction time and age of mycelia. A combination of Novozyme 234 (10mg/ml) and cellulase Onozuka R-10 (10 mg/ml) with 0.6 M $MgSO_4$ was most effective for isolation of the protoplasts. The optimum reaction time of the mycelia with the lytic enzymes was 3.5~4 hours at $28^{\circ}C$ in shaking condition at 120 strokes per min. High yield of the protoplasts were obtained from its 4~5 days old mycelia on complete agar media. Its protoplasts were regenerated to normal hyphae. Regeneration media with 0.6 M sucrose were proper for regeneration of the protoplasts. Their regeneration frequency on complete agar media was 2.3~2.7%.

Protoplast Formation and Regeneration of Pediococcus pentosaceus and Leuconostoc mesenteroides Isolated from Kimchi (김치에서 분리한 Pediococcus pentosaceus와 Leuconostoc mesenteroides의 원형질체 형성 및 재생)

  • 김연희;박연희
    • Microbiology and Biotechnology Letters
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    • v.23 no.3
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    • pp.359-364
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    • 1995
  • Two lactic strains, Leuconostoc mesenteroides Lu5 and Pediococcus pentosaceus P1 isolated from Kimchi, were used to determine the optimum conditions for protoplast formation and regeneration. The maximum protoplast formation rate was obtained with both strains at early exponential growth phase and decreased rapidly during growth phase. For P. pentosaceus P1, 30 $\mu$g/ml of lysozyme treatment was sufficient to obtain over 90% of protoplast formation and 300 $\mu$g/ml for L. mesenteroides Lu5, showing great difference in sensitivity of these strains to lysozyme. For both strains, best results were obtained at pH 7, using 0.5 M sucrose as osmotic stabilizer. For regeneration of protoplast, the highest regeneration rate was obtained after 15 minutes of lysozyme treatment and declined drastically with prolonged digestion.

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Protoplast Formation and Regeneration from Mycelia of Phytophthora capsici (Phytophthora capsici의 균사체(菌絲體)로부터 원형질체(原形質體) 형성(形成)과 재생(再生))

  • Yi, Seung-Youn;Kim, Young-Jin;Hwang, Byung-Kook
    • The Korean Journal of Mycology
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    • v.21 no.1
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    • pp.1-8
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    • 1993
  • ABSTRACT: Factors responsible for protoplast formation and regeneration of Phytophthora capsici were examined. Protoplasts were successfully liberated from the mycelial culture by digestion for 6-9 hrs with Novozym 234 in 0.35 M $CaCl_2$, (pH 5.7) as osmotic stabilizer. Young rapidly-growing mycelium (24 hrs old) showed highest protoplast yields. High concentrations of Novozym 234 were effective in releasing protoplasts from the mycelium. The combination of 0.4 M mannitol and 0.1 M $CaCl_2$ was optimal osmotic stabilizers for protoplast regeneration. The synthetic Henninger media containing all nutritional elements gave the best regeneration rate. The protoplast regeneration was greatly inhibited in the media which were not supplement with amino acids or ${\beta}-sitosterol$. Certain amino acids such as L-aspartic acid and L-glutamic acid remarkably enhanced protoplast regeneration. However, the addition of microelements did not affect protoplast regeneration.

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Regeneration of Yeast Protoplast in Hansenula anomala var. anomala and Saccharomyces cerevisiae (Hansenula anomala var. anomala와 Saccharomyces cerevisiae의 원형질체 재생에 관한 연구)

  • 구영조;박완수;신동화;유태종
    • Microbiology and Biotechnology Letters
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    • v.13 no.2
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    • pp.145-149
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    • 1985
  • Studies were conducted on the conditions for yeast protoplast regeneration in Hansenula anomala var.anomala FRI YO-32 and Saccharomyces cerevisiae. Protoplasts lysed when suspended in hypotonic solutions of KCI, and the least degree of osmolysis was shown in the hypertonic solution containing 1.4M KCI for the strain FRI YO-32 or 0.8M KCI for S. cerevisiae. It was considered that the concentration of agrar and KCI, and protoplast plating method were the main factors influencing regeneration of yeast protoplasts. Yeast protoplasts were regenerated very favorably when embedded in the complete protoplast regeneration media containing 3% agar as well as 0.4M KCI for the strain FRI YO-32 or 1.0M KCI for S. cerevisiae. It was shown from the relationship between protoplast formation and regeneration that the higher extent of protoplast formation, the lower extent of protoplast regeneration.

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Studies on Protoplast Formation and Regeneration of Ganoderma lucidum

  • Choi, Seung-Hee;Kim, Byong-Kak;Kim, Ha-Won;Kwak, Jin-Hwan;Park, Eung-Chil;Kim, Young-Choong;Yoo, Young-Bok;Park, Yong-Hwan
    • Archives of Pharmacal Research
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    • v.10 no.3
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    • pp.158-164
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    • 1987
  • To obtain a new strain of Ganoderma lucidum by protoplast fusion technique, its protoplast formation and regeneration were studied. Several factors affecting the protoplast formation and regeneration were investigated to find their optimum conditions. The mycelium was grown for four days on the cellophane membrane placed on G. Incidum complete medium (GCM). When various commercial lytic enzymes were examined for protoplast isolation, the combination of Novozym 234 and $\beta$glucuronidase was found to be effective. An osmotic stabilizer, 0.6 M sucrose in 20 mM phosphate buffer pH 5.8, gave the highest yield of protoplasts. Three-hour incubation in shaking incubator was most suitable for releasing protoplasts. To increase the protoplast yield, pretreatment with 2-mercaptoethanol was carried out. The regeneration frequency in GCM containing 0.6M MgSO$_4$ 7$H_2O$ was shown to be 0.66%.

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Electron Microscopic Study of Protoplasts Released from the Mycelium of Trichoderma koningii -formation, fine structure, and regeneration of protoplasts- (Trichoderma koningii의 Myelium으로 부터 유래된 protoplast에 관한 전자현미경적 연구 -protoplast의 생성과정, 미세구조와 regeneration-)

  • Lim, H.M.;Park, H.M.;Ha, Y.C.;Hong, S.W.
    • Applied Microscopy
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    • v.13 no.1
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    • pp.49-61
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    • 1983
  • Protoplast releasing mechanisms from Trichoderma koningii, fine structures of the released protoplsts, and their regeneration mode were studied by scanning and transmission electron microscopy. Two types of protoplast releasing mechanisms were observed. In one mechanism, cytoplasm emerged through a cell wall pore developed by cell lytic enzymes and formed a spherical protoplast. In the other mechanism, as the cell wall became progressively thinner, the inner cytoplasm partially rounded to form nonspherical bodies which became spherical protoplasts after being released into the enzyme solution. But, these two types of protoplast releasing mechanisms did not seem to be. mutually exclusive but could occur on the same mycelium simultaneously. And it appeared that cytoplasm which did not become a protoplast by the first mechanism could from a protoplast by the second mechanism. The preparations contained two types of protoplasts, released from different sites of the mycelia. Those released from younger mycelia had dense cytoplasm and small vesicles. Those released from the older mycelia had less dense cytoplasm and larger vacuoles. In the case of regeneration, before producing normal mycelia, most of the protoplasts assumed aberrant tube and yeast-like-forms. Normal mycelia were produced at the end of the yeastlike-forms and sometimes in the middle of the aberrant tube.

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Conditions of Protoplast Formation and Regeneration of Streptomyces mitakaensis (Streptomyces mitakaensis의 원형질체 형성 및 재생조건 연구)

  • 한순옥;이영주;이형환
    • Microbiology and Biotechnology Letters
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    • v.15 no.2
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    • pp.89-94
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    • 1987
  • The optimal conditions for the protoplast formation and regeneration of Streptomyces mitakaensis have been investigated. S. mitakaensis cells were converted to protoplast by treating with 0.1 mg/$m\ell$ of lysozyme in phosphate-tris buffer (pH 7.2) to the cells grown at the late logarithmic growth phase in the GBYN medium (gycerol 20g, beef extract 5g, yeast extract 5g, NaCl 5g in 1 liter of distilled water) contained 0.5% glycine. Cell regeneration from protoplast was accomplished in 10 days post inoculation on the R2 regeneration agar medium and at 3 days post inoculation on the H2 regeneration liquid medium. The efficiency of the regeneration was 0.l% in 3 days at 35$^{\circ}C$.

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A study on the protoplast formation and regeneration of Lactobacillus casei YIT 9018 (Lactobacillus casei YIT 9018 의 원형질체 생성과 재생에 관한 연구)

  • Baek, Young-Jin;Bae, Hyeong-Suk;Min Yoo;Kim, Young-Kee;Kim, Hyun-Uk
    • Microbiology and Biotechnology Letters
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    • v.14 no.3
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    • pp.251-257
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    • 1986
  • Optimum conditions for the protoplast formation and regeneration of Lactobacillus casei have been searched for. L. casei cells were converted to protoplast by treating with 10$\mu\textrm{g}$/$m{\ell}$ of mutanolysin in 20mM potassium phosphate buffer (pH6.8) containing 6mM CaCl$_2$, 6mM MgCl$_2$ and 1M sucrose. Maximum number of protoplasts was obtained when cells were taken from Tomochika's medium containing 0.5% glycine at the middle to late logarithmic growth phase. Regeneration was efficiently accomplished on the regeneration medium containing 6mM CaCl$_2$, 6mM MgCl$_2$, 0.8M sucrose and 10% of horse serum. The efficiently of the cell wall regeneration from protoplasts was 2-5% after 3-4 days of incubation at 3$0^{\circ}C$.

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