Journal of Life Science (생명과학회지)

Korean Society of Life Science (한국생명과학회)
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Optimization of Large Scale Culture Conditions of Bacillus ehimensis YJ-37 Antagonistic to Vegetables Damping-off Fungi

채소류 모잘록병균에 길항하는 Bacillus ehimensis YJ-37의 대량배양 최적조건

  • Published : 2002.06.01
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Abstract

The optimal culture conditions in 500$m\ell$ flask suture, 5$\ell$ jar fermenter and 2,000 $\ell$ large stale culture were investigated to maximize the production of antibiotic on Rhizoctonia solani AC4, the causal agent of vegetables damping-off, by the strain Bacillus ehimensis YJ-37. Starch (1.5%) as a carbon source, peptone (0.6%) as a nitrogen source and MgC1$_2$(0.15%) as a metal ion in the medium containing N $a_2$HP $O_4$(0.3%) showed the highest production of the antibiotic(s) in a rotary shake (200 rpm). Optimal initial pH of the culture medium, culture temperature and culture time for the antibiotic(s) production were pH 8.0, 32$^{\circ}C$ and 54hrs, respertively. Under the optimal renditions in flask culture, cell growth and antifungal activity (clear zone size) were 1.42 $\times$ 10$^{8}$ cfu/$m\ell$ (21g-DCW/ $\ell$) and 13.9 mm, respectively. In 5 $\ell$ jar fermenter (medium 3 $\ell$), optimal air flow, agitation speed and culture time for the antibiotic(s) production were 2 vvm, 200 rpm and 48hrs, respectively. Under the optimal conditions in 5 $\ell$ jar fermenter, tell growth and antifungal activity were 2.06 $\times$ 10$^{8}$ cfu/$m\ell$ (30g-DCW/ $\ell$) and 13.4 mm, respectively. Under the culture conditions of air flow (30 vvm) and agitation speed (200 rpm) at 32$^{\circ}C$ for 10 days in 2,000 $\ell$ large scale culture (medium 1,800 $\ell$, pH 8.0), cell growth and antifungal activity were 0.81$\times$10$^{8}$ cfu/$m\ell$ (12g-DCW/ $\ell$) and 8.6 mm, respectively.

본 연구는 채소류 모잘록병균인 R. solani AG4에 길항하는 미생물 B. ehimensis YJ-37의 500$m\ell$ 플라스크 배양, 5 $\ell$ jar fermentor 배양, 2,000 $\ell$ 대형탱크의 배양 조건 및 길항물질 생성능을 조사하였다. 500$m\ell$ 플라스크 배양에서의 길항물질 최적생산조건은 1.5% starch, 0.6% peptone, 0.3% $Na_2$HP $O_4$, 0.15% MgC1$_2$, pH 8.0, 배양온도 32$^{\circ}C$, 배양시간 54시간으로 나타났고, 이때 미생물의 수는 1.42$\times$$10^{ 8}$ cfu/$m\ell$21g-DCW/$\ell$), 항진균 활성은 13.9mm로 나타났다. 5$\ell$ jar fermenter 배양에서의 길항물질 최적생산조건은 플라스크배양에서의 최적 생산조건에서 공기주입량과 교반속도를 변화시켜 조사한 결과, 공기주입량 2 vvm, 교반속도 200 rpm, 배양시간 48시간 이후 미생물의 수와 균체의 량은 2.06 $\times$ $10^{8}$ cfu/$m\ell$ 및 30g-DCW/$\ell$, 항진균 활성은 13.4 mm로 나타났다. 2,000 $\ell$ 대형탱크 배양에서는 교반속도 200 rpm, 산소주입량 30 vvm으로 고정하고 10일간 배양하여 미생물의 생육 및 길항물질 생성능을 조사한 결과는 미생물의 수와 균체의 량은 0.81 $\times$ $10^{8}$ cfu/$m\ell$와 12g-DCW/$\ell$, 항진균 활성은 8.6mm로 나타나 5$\ell$ jar fermenter 배양에 배해 균의 수는 1/10로 줄었으며 항진균 활성도 64%로 낮게 나타났다.다.

Keywords

References

  1. Plant pathology Agrios, G. N(3rd eds.)
  2. Biology and Pathology Types of Rhizoctonia diseases and their occurrence Baker, K.F., J. R. Parmeter(ed.)
  3. Appl. Environ. Microbiol v.62 Involvement of pyochelin and pyorerdin in suppression of Pythium-induced damping-off tomato by Pseudomonas aeruginasa 7NS K2 Buysens, S., K. Heungens, J. Poppe;M. Hofte
  4. Appl. Environ. Microbiol v.61 Chitinolytic Enterobacter agglomerans antagonistic to fungal plant pathogen Chernin L., Z. Ismailov, S. Haran;I. Chet
  5. Appl. Environ. Microbiol v.59 Isolation and characterization of actinomycete antagonists of a fungal root pathogen Crawford, D.L., J. M. Lynch, J. M. Whipps;M. A. Ousley
  6. Microbiol v.146 Overproduction of an inducible extracellular serine protease improves biological control of Pythium ultimum by Stenotrophomonas maltophilia strain W81 Dunne, C., Y. Moenne-Loccoz, F.J. de Bruijin;F. O'Gara
  7. Soil. Biol. Biochem v.25 Biological control of soilborne Plant Pathogens by a β-1.3 glucanase-producing Pseudomonas cepacia Fridlender M., J. Inbar;I Chet https://doi.org/10.1016/0038-0717(93)90217-Y
  8. Kor. J. Life Sci v.12 Isolation and antifungal activity of Bacillis ehimensis strain YJ-37 as antagonistic against vegetables damping-off fungi Joo, G.J., H. Kim;S. J. Kang https://doi.org/10.5352/JLS.2002.12.2.200
  9. Crop Protection v.18 Evaluation of commercial products for microbial control of soil-borne plant diseases Koch. E https://doi.org/10.1016/S0261-2194(98)00102-1
  10. FEMS Microbiol. Ecol v.22 Multi-target and medium-independent fungal antagonismby hydrolytic enzymes in Paenibacillus polymyxa and Bacillus pumilus strains from barley rhizosphere Nielsen, P;J. Sorensen https://doi.org/10.1111/j.1574-6941.1997.tb00370.x
  11. Phytopathol v.62 Production of antifungal substances active against Rhizoctonia solani in chitinamended soil Sneh, B;Y. Henis https://doi.org/10.1094/Phyto-62-595
  12. Phytopathol v.61 Radial extent of the bean spermosphere and its relation to the behavior of Pythium ultimum. Stanghellini, M.E;J. G. Hancock https://doi.org/10.1094/Phyto-61-165
  13. FEMS Microbiol. Ecol v.33 Viscosinamide-producing Pseudomonas flurescens DR54 exerts a biocontrol effect on Phythium ultimum in sugar beet rhizosphere Thrane, C., T. H. Nielsen, M. N. Nielsen, J. Sorensen;S. Olsson https://doi.org/10.1111/j.1574-6941.2000.tb00736.x
  14. Appl. Environ. Microbiol v.61 Characterization of Streptomyces lydicus WYEC108 as a potential biocontrol agent against fungal root and seed rots Yuan, W. M;D. L. Crawford

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  1. Biocontrol of Vegetables Damping-off by Bacillis ehimensis YJ-37 vol.12, pp.4, 2002, https://doi.org/10.5352/JLS.2002.12.4.416
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