• 제목/요약/키워드: Cellulosome-Like Structures

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Cellulosome-Like Structures in Ruminal Cellulolytic Bacterium Ruminococcus albus F-40 as Revealed by Electron Microscopy

  • Kim, Y.S.;Singh, A.P.;Wi, S.G.;Myung, K.H.;Karita, S.;Ohmiya, K.
    • Asian-Australasian Journal of Animal Sciences
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    • 제14권10호
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    • pp.1429-1433
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    • 2001
  • This study provides electron microscopic evidence for the presence of cellulosome-like structures on the cell surface of Ruminococcus albus F-40. Electron microscopy showed that clusters of tightly packed spherical particles were located on the cell surface of R. albus. The protuberant structures present mainly on the bacterial surface and also bound to the cellulose substrate appeared to be the site of cellulosome-like structures. From the evidence presented, we suggest that the structures described here might be a characteristic feature of some ruminal cellulolytic bacteria.

혐기성 세균 Ruminococcus albus F-40에 의한 목재 cellulose의 분해특성 (Degradation Characteristics of Wood Cellulose by Ruminal Cellulolytic Anaerobic Bacterium Ruminococcus albus F-40)

  • 김윤수;위승곤;명규호
    • Journal of the Korean Wood Science and Technology
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    • 제25권3호
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    • pp.83-95
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    • 1997
  • The degradation mode of lignocellulose by anaerobic ruminal cellulolytic bacterium Ruminococcus albus F-40 was investigated. Birchwood holocellulose and filter paper were incubated as the sole carbohydrate sources with using the Hungate techniques. After 2 or 4 days of incubation, samples were employed for chemical and electron microscopic evaluations. The degradation rate of cellulosic substrates and the adhesion rate of bacteria to the substrates increased proportionally with the decrease of relative crystallinity of cellulose, indicating the preferential breakdown of amorphous cellulose, by this bacterium. X-ray diffraction analyses and polarized light microscopy showed, however, that crystalline cellulose was also degraded by R. albus. FT-IR spectra indicated that not only cellulose but hemicellulose was also degraded by this bacterium. Electron microscopic investigations showed the protuberant structures on the surface of R. albus. These structures were much more significant when bacterial cells were grown in the media containing insoluble substrates, such as cellulose, indicating clearly that bacterial protuberant structures were induced by the substrates. Protuberant structures extended from the bacterial cells adhered tightly to the substrates and numerous vesicles covered the surface of cellulosic substrates affected. Cellulosome-like structures were distributed on the cellulose matrix. Electron microscopic works showed that diverse surface organells of R. albus were involved in the degradation of cellulosic materials. SEM examinations showed the breakdown of cellulose by R. albus was proceeded by severeal routes : short fiber formation, defibrillation and destrafication of cellulose microfibril.

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