Korean Journal of Microbiology (미생물학회지)

The Microbiological Society of Korea (한국미생물학회)
권호 표지

Spheroplast Formation, Regeneration and Fusion of Flavimonas oryzihabitans KU21

Flavimonas oryzihabitans KU21의 원형질체 생성, 재생 및 융합

  • 이수연 (고려대학교 이과대학 생물학과) ;
  • 임영복 (고려대학교 이과대학 생물학과) ;
  • 박용근 (고려대학교 이과대학 생물학과) ;
  • 이영록 (서울대학교 분자미생물학 연구센터)
  • Published : 1993.08.01
Download PDF
⟨ Previous Next ⟩

Abstract

The optima] conditions for the formation, the regeneration. and the spheroplast fusion of Flavimonas aryz/habitans spheroplasts were investigated. Cells were transformed to spherop]asts effectively by treatment of 0.5% volume (v/v) of 0.] M EDTA and ]00 flg/ml lysozyme at $37^{\circ}C$ for 30 min without shaking. Magnesium chloride and calcium chloride were effective on the stabilization of spheroplasts. and 20 mM calcium chloride in the rich regeneration medium improve the yield of regenerants as much as 3.5-fo]d. Addition of 0.8% bovine serium albumine (BSA) in dilution buffer for spheroplast formation improved the stabilization of spheroplasts over extended periods (4-6 hr) at room temperature. and thus increased the yield of recombinants to 4.5-fold. The spheroplast formation frequency and regeneration frequency of F aryzihabitans strain was 90.10% and 3.800/." respectively. The first regenerated cell of F. aryzihabitans spheroplasts were appeared 6 hours after plating. By I I hours after plating, 80% of spheroplasts were regenerated on thc rich regeneration medium containing 0.5 M sucrose. The intraspeci11c spheroplast fusion of F urvz/habitans was carried out and the properties of obtained fusants were investigated. Formation of fusion products was effective when the Flav/munas spheroplast mixture was treated with 40%(w/v) PEG6000 and 20 mM CaCl, for 10 min at room temperature. and thc formation of frequency of recombinants were $2.0{\times}10^{-5}~3.6{\times}10^{-5}$. All tested recombinant clones were very stable on further propagation.

아닐린 분해균주 Flavimonas oryzihabitans KU21 의 원형질체 생성, 재생, 그리고 융합 등의 최적 조건을 조사하였다. 세포를 37.deg.C 로 prewarming 시킨 0.2 M Tris-Hcl(pH8.0) 완총액으로 현탁시킹후 0.5% 이상 원형질체로 전환되었으며, 이때 효소처리는 37.deg.C 에서 진탕하지 않고 처리했을 때가 가장 효과적이었다. MgCl/sub 2/ 와 CaCl/sub 2/ 수용액은 원형질체의 안정성을 높였고 완층액에 0.8% BSA 를 첨가함으로써 상온에서 4시간 까지 원형질체의 생존력을 80% 까지 유지할 수 있었다. 원형질체의 재생은 overlaying 방법이 가장 효과적이어서 3.8% 의 재생을 보였다. Rich regeneration medium 에 20 mM CaCl/sub 2/ 를 첨가하였을 때 재생율이 약 3.5배 증가하였고 완충액에 0.8% BSA 를 첨가했을 때는 4.5배의 증가율을 나타내었다. 삼투안정제로 0.5 M sucrose 를 첨가한 rich regeneration medium 에서 F. oryzihabitans 의 원형질체는 top plating 하여 6시나 이후부터 재생되기 시작하여 11 시간까지 80% 의 재생이 이루어졌다. 융합원으로 40.deg. PEC6000 과 CaCl/sub 2/ 를 사용하여 F, oryzihabitans 의 종내 원형질체 융합을 유도하였을때 recombinants 의 생성율은 2.0 * 10/sup -5/-3.6 * oryzihabitans 의 종내 원형질체 융합을 유도하였을때 recombinants 의 셍성율은 2.0 * 10/sup -5/-3.6 * 10/sup -5/ 이었으며 recombinants 들은 여러 세대 후에도 분리되지 않고 안정하였다.

Keywords

References

  1. Genetic engineering of microoorganisms for chemical Fusion of microbial protoplasts: Problems and perspectives Alfoldi,L.
  2. J. Bacteriol. v.93 Production and ultra-structure of ethylendiamine-tetraacetate-lysozyme spheroplasts of E. coil Birdsell,B.;C.R.Cota-Robels
  3. J. Gen. Microbiol. v.114 Genetic recombination in fused spheroplasts of Providence alcalifaciens Coetzee,J.N.;F.A.Sirgel;L.Lecatsas
  4. Arch. Intern. Med. v.151 Flavimonas oryzihavitans (Pseudomonas oryzihabitans, CDC Group ve-2) bacteremia in the immunocompromised host Decker,C.F.;G.L.Simon;J.F.Keiser
  5. App. Environ. Microbiol. v.54 Formation, regeneration, and transfection of Lactobacillus plantarum protoplasts Cosby,W.M.;I.A.Casas;W.J.Dobrogosz
  6. J. Bacteriol. v.137 Electron microscopic study of Bacillus subtilis protoplast fusion Frehel,C.;A.M.Lheritire;C.Sanchez-Rivas;P.Scheffer
  7. J. Bacteriol. v.165 Plasmid instability in regenerating protoplasts of Staphylococcus aureus in caused by aberrant cell division Gruss,A.;R.Novick
  8. Appl. Environ. Microbiol. v.54 Mineralization of polycyclic aromatic hydrocarbons by a bacterium isolated from sediment below an oilfield Heitkamp,M.A.;C.E.Cerniglia
  9. J. Gen. Microbiol. v.135 Protoplast isolation and regeneration in Streptomyces calavuligerus Illing,G.T.;I.D.Normansell;J.F.Peberdy
  10. Kor. Jour. Microbiol. v.30 Isolation and characterization of aniline-degrading bacteria Kahng,H.Y.;S.I.Kim;M.J.Woo;Y.K.Park;Y.N.Lee
  11. Kor. Jour. Microbiol. v.26 Speroplasts fusion of Pseudomonas spp. using plasmid as selection marker Lee,J.S.;M.R.Lee;Y.N.Lee
  12. Arch. Microbiol. v.155 Degradation of aniline and monochlorinated anilines by soilborn Pseudomonas acidovornas strains Loidl,M.;C.O.Hinteregger;G.Ditzelmuller;A.Ferschl;F.Sterichsbier
  13. J. Argic. Food. Chem. v.25 Chemical transfor-mation of 4-chloraniline to a triazine in a bacterial culture medium Minard,R.D.;S.Russel;J.M.Ballay
  14. Residue Rev. v.76 Environmental and metabolic transformations o primary aromatic amines and related compounds Parris,G.E.
  15. J. Gen. Microbiol. v.129 Spheroplast fusion as a mode of genetic recombination in Mycobacteria Rastogi,N.;H.L.David;E.Rafidinarivo
  16. J. Cell. Biol. v.25 A simplified lead citrate stain for use in electron microscopy Venable,J.H.;R.Coggeshall
  17. Proc. Natl. Acad. Sci. USA v.73 Fusion of bacterial protoplasts Schaeffer,P.;B.Cami;R.Hotchkiss
  18. J. Bacteriol. v.83 Stablilization of protoplasts and spheroplasts by spermine and other polyamines Tabor,C.W.
  19. J. Bacteriol. v.128 Protoplast formation in Escherickia coli Weiss,R.L.